Black Sea Regional Transmission Planning Project Sea Regional Transmission Planning Project Regional...
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Black Sea Regional Transmission Planning Project
Regional Model Construction Report
January 2007
This report is made possible by the support of the American people through the United States Agency for International Development (USAID). The contents are the responsibility of the United States Energy Association and do not necessarily reflect the views of USAID or the United States.
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Contents 1. INTRODUCTION.....................................................................................................................1.1 2. POWER SYSTEMS DATA......................................................................................................2.1
2.1. BULGARIA ......................................................................................................................2.2 2.2. GEORGIA.........................................................................................................................2.5 2.3. MOLDOVA ......................................................................................................................2.8 2.4. ROMANIA......................................................................................................................2.12 2.5. RUSSIA...........................................................................................................................2.15 2.6. TURKEY.........................................................................................................................2.20 2.7. UKRAINE.......................................................................................................................2.25 2.8. ARMENIA ......................................................................................................................2.29
3. REGIONAL MODEL ...............................................................................................................3.1 3.1. Model development...........................................................................................................3.1 3.2. Model characteristics.........................................................................................................3.1 3.3. Мethodology for transfer capacities calculations..............................................................3.4
3.3.1. DEFINITIONS OF TRANSFER CAPACITIES ......................................................3.4 3.3.2. CALCULATION OF TTC........................................................................................3.8 3.3.3. HARMONIZATION OF THE VALUES ...............................................................3.14 3.3.4. SIMULTANEOUSLY FEASIBLE (COMPOSITE) TRANSFER CAPACITIES.3.15 3.3.5. TRANSFER CAPACITIES BETWEEN NON-NEIGHBOURING SYSTEMS....3.16
3.4. Generation shifting lists ..................................................................................................3.17 4. ANALISES RESULTS .............................................................................................................4.1
4.1. Model summary.................................................................................................................4.1 4.2. Area interchange ...............................................................................................................4.3 4.3. Load flow analyses............................................................................................................4.5
4.3.1. BULGARIA ..............................................................................................................4.6 4.3.2. GEORGIA.................................................................................................................4.9 4.3.3. MOLDOVA ............................................................................................................4.12 4.3.4. ROMANIA..............................................................................................................4.15 4.3.5. RUSSIA...................................................................................................................4.18 4.3.6. TURKEY.................................................................................................................4.25 4.3.7. UKRAINE...............................................................................................................4.32 4.3.8. ARMENIA ..............................................................................................................4.43 4.3.9. REGION..................................................................................................................4.46
4.4. Network loading analyses ...............................................................................................4.49 4.5. Voltage profile analyses ..................................................................................................4.52 4.6. Contingency analyses ......................................................................................................4.66
4.6.1. Bulgaria ...................................................................................................................4.66 4.6.2. Georgia ....................................................................................................................4.68 4.6.3. Moldova ..................................................................................................................4.69
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4.6.4. Romania ..................................................................................................................4.70 4.6.5. Russia ......................................................................................................................4.73 4.6.6. Turkey .....................................................................................................................4.76 4.6.7. Ukraine ....................................................................................................................4.79 4.6.8. Armenia...................................................................................................................4.81
4.7. Border capacities .............................................................................................................4.82 4.7.1. BULGARIA ............................................................................................................4.84 4.7.2. GEORGIA...............................................................................................................4.85 4.7.3. MOLDOVA ............................................................................................................4.86 4.7.4. ROMANIA..............................................................................................................4.87 4.7.5. RUSSIA...................................................................................................................4.88 4.7.6. TURKEY.................................................................................................................4.89 4.7.7. UKRAINE...............................................................................................................4.91 4.7.8. ARMENIA ..............................................................................................................4.92
4.8. Import/Export Scenarios .................................................................................................4.93 5. NEW PLANNED LINES AND SUBSTATIONS....................................................................5.1 6. FINDINGS ................................................................................................................................6.1
1.1
1. INTRODUCTION The initial meeting of the Black Sea Regional Transmission Planning Project was conducted in Sofia, Bulgaria February 18-20, 2004. At the meeting representatives of the Black Sea IPS/UPS TSOs and the Southeast Europe Black Sea TSOs, together with the US Agency for International Development, the US Energy Association and the Black Sea Regional Energy Centre, developed and agreed to a set of Project organizing principles. The project is supporting the following goals:
• Preparation of national inputs and the development of a regional transmission model • Power transmission system analysis • Promotion of regional cooperation on transmission planning among Black Sea region TSOs • Analyze the regional transmission system to identify the existing potential for electric power
trade in the region • Identify potential transmission investment projects to expand electric power trade respecting
reliability requirements • Promote the results of the analysis to a wide audience of policy and regulatory authorities • Enhancement of the trade of electric power in the Black Sea region • Elaboration and dissemination of the project report
A Steering Committee was established in order to advise the project. The members if Steering Committee are representatives of:
o Black Sea Regional Energy Centre o Georgian State Electrosystem o Moldelectrica o National Electric Company (Bulgaria) o National Electric Company Ukrenergo o System Operator-Central Dispatch Administration of the Unified Energy System of
Russia o Transelectrica (Romania) o Turkish Electricity Transmission Corporation o Electricity coordinating Center o United States Agency for International Development o United States Energy Association
The Steering Committee reviewed work plans, assessed objectives and plans, and review reports and recommendations on investment priorities. Also, the Regional Working Group was formed in order to analyze possibilities of increasing electricity trade level between Black Sea region and West Europe and to identify bottle-necks and make proposition of network reinforcement. For the utilities from the Black Sea countries, which are undergoing different degrees of structural and functional change in a political environment, developing a regional transmission planning organization with the necessary tools and procedures suitable for the changing market is a significant need.
1.2
The following project objectives have been agreed to:
(1) convert existing national transmission planning data into a common regional PSS/E format (2) establishing of regional transmission planning model for the Black Sea region (3) perform certain regional transmission planning studies as defined by the BS Steering
Committee A Regional Working Group was consisted from each participating country and Electricity Coordinating Center-EKC, which act as the regional model integrator. A work plan and schedule was developed by the Regional Working Group to frame the activities of the project. Based on the regional transmission network model, the Regional Working Group was elaborated a set of supply/demand and load flow scenarios and performed analysis to identify the weak points in the system and test potential reinforcements to improve the safety in operation of the power systems and provide opportunities for expanded electricity trade. National transmission network models in PSS/E format were developed by the specialists from Black Sea countries. In the process of elaboration the national models the participants agreed the expected exchange program for target year i.e. export/import balance and load & generation forecast for 2010 was approved by all members. The regional model integrator EKC has taken the following obligations:
• Review all collected data to check that they conform to the agreed numbering systems for areas, zones and busses
• Merge all model data in order to form one model for each regime and representing the year 2010
• Test the operation and accuracy of the regional model • EKC is responsible for the integrated model
Turkey is responsible for integrating the Turkey and Georgia systems in PSS/E program as sub-integrator. In Scope of Work was necessary to identify winter and summer load regimes. Regional Transmission Network Model for the year 2010 winter peak and summer light data from Bulgaria, Georgia, Moldova, Romania, Russia, Turkey and Ukraine are established. The Black Sea Regional Transmission Planning Project (BSTP) model used more detailed generation unit representation, i.e. each unit is represented separately and included lower voltage levels and the step-up transformers. Regional Model is updated with most recent information. (P, Q, new planed: branches, generator units, compensators, phase shift transformers, shunts, etc). In the model, whole 750, 500, 400, 330, 220, 150 kV network are included. Each country gave table for total of generation, consumption, exchange program, long term contract for importing or exporting if any, for 2010. One base scenario and some exchange scenarios will be analyzed with assumptions that the region is synchronously interconnected to UCTE. That means that one of the basic prerequisite is that the UCTE zone will be connected to the main IPS/UPS Interconnection through existing interconnectivity lines. The UCTE interconnection is modeled with adequate equivalents in the border region with Black Sea Region. The goal of this Report is to review all necessary technical data for all Black Sea countries and the region as a whole used in regional transmission planning project.
1.1
Figure 1.1 – Interconnection lines in Black Sea Region
1.1
In Figure 1.1, scheme of interconnected network of Black Sea Countries (only border lines) is presented. A power systems data for all analyzed countries is shown in Chapter two of this Report. Model development, model characteristics and base case scenarios are presented in Chapter three of this Report with title REGIONAL MODEL. In Chapter four are presented Analyses results in following subchapters: MODEL SUMMARY-Summary report for each TSO in the region, AREA INTERCHANGE - Base case exchanges and border flows for each TSO in the region, LOAD FLOWS ANALISES-report on major lines and interfaces with graphical presentation of load flows for each TSO and region as whole, NETWORK LOADING ANALYSES - Report on elements that are overloaded or highly loaded and may represent network constraint, VOLTAGE PROFILE ANALISES taking into account agreed maximum and minimum voltage values for normal and emergency operation condition, CONTINGENCY ANALISES respect to (n-1) security criterion, BORDER CAPACITIES ANALYSES – report on maximum transfer capabilities of the network for each country, and some market realistic scenarios. List of NEW PLANED LINES AND SUBSTATIONS was reviewed and revised as the most probable projects for consideration, and shown in Chapter five of this Report. In that table, the projects that will be in operation in 2010 are indicated. Overall FINDINGS are presented in final Chapter six of this document.
2.1
2. POWER SYSTEMS DATA
BULGARIA
2.2
2.1. BULGARIA The power transmission network of Bulgaria consists of 750 kV, 400 kV, 220 kV and 110 kV lines. Figure 2.1 shows the map of Bulgarian network and Table 2.1 shows main data about Bulgarian transmission network. The installed generation capacity comprises about 5400 MW of thermal units, 2880 MW of nuclear units, and 2600 MW of hydro units. Thermal power plants produce about 47 % of the total energy, and nuclear units produce about 42 % of the total energy. Hydro units cover 11 % of the total energy.
Table 2.1 – Bulgaria - network overview lines transformers
Voltage level
Length of the overhead lines
and cables
Voltage level
Installed capacities
(kV) (km) (kV/kV) (MVA) 400 2356 400/x - 220 2692 220/x - 110 9562 110/x - total 14610 16817
Figure 2.1 – Bulgaria - network map
BULGARIA
2.3
NEK EAD is the owner of the high-voltage power transmission network in the country. Its total length is 14 610 km. The interconnection lines between the Bulgarian EPS and neighboring countries are shown in Table 2.2 and grid operation data for 2005 – in Table 2.3.
Table 2.2 – Bulgaria – interconnection lines
Table 2.3 – Bulgaria - grid operation data for 2005
BULGARIA
2.4
Planned network reinforcements Table 2.4 shows planed network reinforcements in forthcoming period.
Table 2.4 – Bulgaria - Planned network reinforcements CAPACITY LENGTH VOLTAGE
LEVEL limited CROSS BR1 BR2 TOTAL TYPE SUBSTATION1 SUBSTATION2 kV/kV
Number Of
Circuits /units A or MVA A or MVA
MATERIAL OR
TRANSFORMERTYPE mm2 km km km
DATE OF COMMISSIONING STATUS
1 2 3 2 3 4 5 6 7 8 9 10 11 12 13 14 OHL BG C.Mogila MK Stip 400 1 1890 - ACSR 2X500 80 70 150 2008 construction OHL BG M.East GR Nea Santa 400 1 1890 - ACSR 2X500 - - - - Feasibility study OHL BG Zlatitsa BG Plovdiv 400 1 1890 - ACSR 2X500 - - 140 2007 Feasibility study 1 Type of project (OHL - overhead line, K - cable, SK - submarine cable, SS - substation, BB - back to back system...) 2 Country (ISO code) 3 Substation name 4 Installed voltage (for lines nominal voltage, for transformers ratio in voltages) 5 number of circuits/units 6 Conventional transmission capacity of elements for OHL in Amps, for transformers in MVA 7 Conventional transmission capacity limited by transformers or substations 8 Type of conductor or transformer (ACSR - Aluminum Cross-section Steel Reinforced, or code of conductor, PS - phase shift transformer...) 9 Cross-section (number of ropes in bundle x cross-section/cross-section of reinforcement rope) 10 Length till border of first state 11 Length till border of second state 12 Total length 13 Date of commissioning (estimate) 14 Status of project (Idea, Feasibility study, Construction, Damaged, out of service, Decommissioned...)
Table 2.5 – Bulgaria - Planned new generation units VOLTAGE
LEVEL CAPACITY DATE OF
COMMISSIONING TYPE SUBSTATION1 kV kV MW MVA year STATUS
1 2 3 4 5 6 7 8 9 NPP BG Belene ? 400 2x1000 2x1111 2012 construction
1 Type of plant (HPP - Hydropower plant, TPP - Thermal power plant, PSHPP - Pump Storage Hydro Power Plant, CCHP - Combined Cycle Heating Plant...) 2 Country 3 Substation name 4 Generator voltage level 5 Network voltage level 6 Installed active power 7 Installed apparent power 8 Date of commissioning (estimate) 9 Status of the project (Idea, Feasibility study, Construction...)
GEORGIA
2.5
2.2. GEORGIA Figure 2.2 and Figure 2.3 shows the transmission system of Georgia. As it can be seen, 500 kV East-West line represents a backbone of Georgia's high voltage network. Together with 220 kV lines in parallel, 110kV and 35 kV in radial (spurs) operation, it forms Georgian transmission system.
Figure 2.2 – Georgia - network map
Figure 2.3 – Georgia - single line diagram
GEORGIA
2.6
Table 2.6 shows main characteristics of the Georgian network.
Table 2.6 – Georgia - network overview lines transformers
Voltage level
Length of the overhead lines
and cables
Voltage level
Installed capacities
(kV) (km) (kV/kV) (MVA) 500 576 500/220 2800 330 21 330/x 400 220 1690 220/x - 110 3911 110/x - total 6198 3200
Planned network reinforcements At present, official and documented system expansion plan does not exist, but there are general guidelines and ideas how to reinforce Georgian transmission network. The main guideline is to reinforce Georgia-Russia-Azerbaijan loop, and close 500 kV loop internally and to build new connection to Turkey in order to increase transfer capacity.
Figure 2.4 – Georgia – Network reinforcements
GEORGIA
2.7
Table 2.7 – Georgia - Planned network reinforcements
CAPACITY LENGTH VOLTAGELEVEL limited CROSSECTION BR1 BR2 TOTAL TYPE SUBSTATION1 SUBSTATION2 kV/kV
number of
circuits /units
A or MVA A or MVA
MATERIAL OR
TRANSFORMER TYPE mm2 km km km
DATE OF COMMISSION STATUS
1 2 3 2 3 4 5 6 7 8 9 10 11 12 13 14 SS GE Qsani 500/400 1 3X267 LTC 2009 Feasibility study
OHL GE Qsani AM TPP Hrazdan 400 1 1100 1400 ACSR 2x300 80 90 170 2009 Feasibility study OHL GE Mukharani AZ AZ TPP 330 1 283 SS GE Akhaltske 500/400 1 BB GE Akhaltske 400 1
OHL GE Akhaltske Marneuli 500 1 OHL GE Marneuli Gardabani 500 1 OHL GE Akhaltske Menji 500 1 OHL GE Menji Kudoni 500 1 OHL GE Akhaltske Zestaponi 500 1 71 OHL GE Akhaltske TR Borcka 400 1 130 OHL GE Gardabani AR Atarbeksan 330 1 OHL GE Enguri RU Centralna(Sochi) 500 1 450 1 Type of project (OHL - overhead line, K - cable, SK - submarine cable, SS - substation, BB - back to back system...) 2 Country (ISO code) 3 Substation name 4 Installed voltage (for lines nominal voltage, for transformers ratio in voltages) 5 number of circuits/units 6 Conventional transmission capacity of elements for OHL in Amps, for transformers in MVA 7 Conventional transmission capacity limited by transformers or substations 8 Type of conductor or transformer (ACSR - Aluminum Cross-section Steel Reinforced, or code of conductor, PS - phase shift transformer...) 9 Cross-section (number of ropes in bundle x cross-section/cross-section of reinforcement rope) 10 Length till border of first state 11 Length till border of second state 12 Total length 13 Date of commissioning (estimate) 14 Status of project (Idea, Feasibility study, Construction, Damaged, out of service, Decommissioned...)
MOLDOVA
2.8
2.3. MOLDOVA Backbone of Moldovan network is 330 kV system that crosses whole country from north to south. Together with 110 kV system that operates in parallel with 330 kV network it forms the national grid. In Figure 2.5, transmission grid of Moldova is presented.
Figure 2.5 – Moldova - network map
Table 2.8 – Moldova – overview of tie-lines
MOLDOVA
2.9
Table 2.9 shows main characteristics of the Moldovan network.
Table 2.9 – Moldova - network overview lines transformers
Voltage level
Length of the overhead lines
and cables
Voltage level
Installed capacities
(kV) (km) (kV/kV) (MVA) 400 214 400/330 500 330 532.4 330/x 2525 110 5231.1 110/x 3687 total 5977.5 6712
At present, Moldavia operates in parallel operation with Ukrainian main grid and it is highly integrated to it, while 110 kV connections to Romania are operated only in island mode, and 400 kV line to Bulgaria is rerouted to Romania and usually out of operation. Due to configuration of the high voltage network, Ukraine has large influence on system operation of Moldavian network.
MOLDOVA
2.10
Planned network reinforcements Moldavia has not so ambitious network development plan. The main issues are rehabilitation of present network, and building of two new interconnection lines (Table 2.10).
Table 2.10 – Moldova - Planned network reinforcements CAPACITY LENGTH VOLTAGE
LEVEL limited CROSSECTION BR1 BR2 TOTAL
TYPE SUBSTATION1 SUBSTATION2 kV/kV
Number Of
Circuits /units
A or MVA A or MVA
MATERIAL OR
TRANSFORMERTYPE mm2 km km km
DATE OF COMMISSIONING
1 2 3 2 3 4 5 6 7 8 9 10 11 12 13 SS MD Balti 400/330 1
OHL MD Balti RO Suceava 400 1 SS MD Chisinau 400/330 1
OHL MD Chisinau RO Iasi 400 1 OHL MD Balti UA Dnestrovska HPP 330 1 OHL MD Balti MD Straseni 330 1 OHL MD Straseni MD Chisinau 330 1 OHL MD Balti MD Ribnita 330 1 SS MD Balti 400/330 1 IPC SS MD Moldovskaya 400/330 1 IPC
1 Type of project (OHL - overhead line, K - cable, SK - submarine cable, SS - substation, BB - back to back system...) 2 Country (ISO code) 3 Substation name 4 Installed voltage (for lines nominal voltage, for transformers ratio in voltages) 5 number of circuits/units 6 Conventional transmission capacity of elements for OHL in Amps, for transformers in MVA 7 Conventional transmission capacity limited by transformers or substations 8 Type of conductor or transformer (ACSR - Aluminum Cross-section Steel Reinforced, or code of conductor, PS - phase shift transformer...) 9 Cross-section (number of ropes in bundle x cross-section/cross-section of reinforcement rope) 10 Length till border of first state 11 Length till border of second state 12 Total length 13 Date of commissioning (estimate) 14 Status of project (Idea, Feasibility study, Construction, Damaged, out of service, Decommissioned...)
MOLDOVA
2.11
Table 2.11 – Moldova - Planned new generation units
VOLTAGE LEVEL CAPACITY
DATE OF COMMISSIONING
TYPE SUBSTATION1 kV kV MW MVA year STATUS COMMENT 1 2 3 4 5 6 7 8 9 10
CCHP MD Balti 15.75 400 3x150 3x176 2010 2x150MW gas,1x150MW steam,300MW belongs to RO CCHP MD Vulkanesti 15.75 400 3x150 3x176 2010 2x150MW gas,1x150MW steam,300MW belongs to RO
1 Type of plant (HPP - Hydropower plant, TPP - Thermal power plant, PSHPP - Pump Storage Hydro Power Plant, CCHP - Combined Cycle Heating Plant...) 2 Country 3 Substation name 4 Generator voltage level 5 Network voltage level 6 Installed active power 7 Installed apparent power 8 Date of commissioning (estimate) 9 Status of the project (Idea, Feasibility study, Construction...)
ROMANIA
2.12
2.4. ROMANIA The transmission network of Romania is quite strong with a mesh of 400, 220 and 110 kV lines. From the regional system point of view, the Romanian transmission system has a strong configuration with multiple internal loops at 400 kV. There are however few interconnections with surrounding countries. Main characteristics of Romanian network are presented in Table 2.12 below.
Table 2.12 – Romania - network overview lines transformers
Voltage level
Length of the overhead lines
and cables
Voltage level
Installed capacities
(kV) (km) (kV/kV) (MVA) 750 154.5 750/400 2500 400 4599 400/x 13000 220 4892.5 220/x 18990 110 6473.5 110/x 14580 total 16119.5 49070
Figure 2.6 – Romania - network map
ROMANIA
2.13
Planned network reinforcements The present development plan is to increase border lines capacities by diverting Dobrudja (Bulgaria)-Vulkanesti (Moldova) line to Isaccea (Romania) substation, rehabilitation of existing 750 kV line Isaccea (Romania)-Pivdenoukrainskaya (Ukraine) with installation of Back-to-Back system, building 400 kV lines Oradea (Romania) - Becescaba (Hungary) and Suceava (Romania)-Balti (Moldova) and to upgrade parts of Romanian network from 220 kV to 400 kV. These lines are already built for 400 kV but presently operated at 220 kV level. The construction of the new 400 kV lines will increase transmission and reserve capacity of the network.
Table 2.13 – Romania – Planned network reinforcements CAPACITY LENGTH
VOLTAGE LEVEL limited CROSS BR1 BR2
TOTAL
TYPE SUBSTATION1 SUBSTATION2 kV/kV
Number Of
Circuits /units
A or MVA
A or MVA
MATERIAL OR
TRANSFORMER
TYPE mm2 km km km
DATE OF COMMISSI
ON STATUS COMMENT 1 2 3 2 3 4 5 6 7 8 9 10 11 12 13 14 13
SS RO Portile de Fier II 220/110 2 2*200 2 windings 2008 OHL RO Portile de Fier II RO Cetate 220 1 875 Ol-Al 450 80 2008 OHL RO Portile de Fier II RO Portile de Fier I 220 1 875 Ol-Al 450 71 2008 CSS RO Nadab - 400 OHL RO Oradea RO Nadab 400 1 1997 Ol-Al 3*300 75 OHL RO Arad RO Nadab 400 1 1997 Ol-Al 3*300 35 OHL RO Nadab HU Bekescsaba Border 400 1 1750 Ol-Al 3*300 23 2008 OHL HU Bekescsaba Border HU Bekescsaba 400 1 1750 Ol-Al 2*500 37 2010 SS RO Suceava 400/110 2 250 2 windings 2010
OHL RO Suceava MD Balti 400 1 1750 Ol-Al 3*300 95 2014 SS RO Bacau 400/220 1 400 2 windings 2014 SS RO Roman 400/220 1 400 2 windings 2014
OHL RO Suceava RO Roman 400 1 1700 Ol-Al 3*300 100 2014 upgrade from 220 kV OHL RO Roman RO Bacau 400 1 1700 Ol-Al 3*300 58.8 2014 upgrade from 220 kV OHL RO Bacau RO Gutinas 400 1 1700 Ol-Al 3*300 55.3 2014 upgrade from 220 kV SS RO Iasi 400/220 2010
OHL RO Iasi MD Chisinau 400 1 2010 SS RO Resita 400/220 1 400 2 windings 2014 SS RO Resita 400/110 1 250 2 windings 2014
OHL RO Portile de Fier I RO Resita 400 1 1997 Ol-Al 3*300 117 2014 new 400kV OHL SS RO Timisoara 400/220 1 400 2 windings 2014
OHL RO Timisoara RO Resita 400 1 1997 Ol-Al 3*300 73 2014 upgrade from 220 kV OHL RO Timisoara RO Arad 400 1 1997 Ol-Al 3*300 55 2014 upgrade from 220 kV OHL RO Timisoara CS Vrsac 400 1 1750 Ol-Al 3*300 100 2014 DC RO Constanta 400 600 ? DC Converter station SK RO Constanta TR Pasakoy 400 1 600 200 200 400 ?
OHL RO Constanta RO Medgidia 400 1 1800 Ol-Al 3*300 21 2010-2014 new 400kV OHL 1 Type of project (OHL - overhead line, K - cable, SK - submarine cable, SS - substation, BB - back to back system...)
ROMANIA
2.14
2 Country (ISO code) 3 Substation name 4 Installed voltage (for lines nominal voltage, for transformers ratio in voltages) 5 number of circuits/units 6 Conventional transmission capacity of elements for OHL in Amps, for transformers in MVA 7 Conventional transmission capacity limited by transformers or substations 8 Type of conductor or transformer (ACSR - Aluminum Cross-section Steel Reinforced, or code of conductor, PS - phase shift transformer...) 9 Cross-section (number of ropes in bundle x cross-section/cross-section of reinforcement rope) 10 Length till border of first state 11 Length till border of second state 12 Total length 13 Date of commissioning (estimate) 14 Status of project (Idea, Feasibility study, Construction, Damaged, out of service, Decommissioned...)
Table 2.14 – Romania – Planned new generation units VOLTAGE
LEVEL CAPACITY DATE OF
COMMISSIONING TYPE SUBSTATION1 kV kV MW MVA year STATUS COMMENT
1 2 3 4 5 6 7 8 9 10 NPP RO Cernavoda 24 400 2x700 740 2010- 2014 construction
1 Type of plant (HPP - Hydropower plant, TPP - Thermal power plant, PSHPP - Pump Storage Hydro Power Plant, CCHP - Combined Cycle Heating Plant...) 2 Country 3 Substation name 4 Generator voltage level 5 Network voltage level 6 Installed active power 7 Installed apparent power 8 Date of commissioning (estimate) 9 Status of the project (Idea, Feasibility study, Construction...)
RUSSIA
2.15
2.5. RUSSIA The power industry in Russia developed stepwise, by incorporating regional power systems, working in parallel, and forming interregional electric power pools, which merged to form a single Power Grid, operated from center in Moscow.
Figure 2.7 – Russia – network map (western part)
RUSSIA
2.16
Table 2.15 – Russia - network overview
lines transformers
Voltage level
Length of the overhead lines
and cables
Voltage level
Installed capacities
(kV) (km) (kV/kV) (MVA) 750 3074 750/x 16089 500 38852 500/x 123996 330 10612 330/x 32140 220 99936 220/x 203674 110 298668 110/x 302251 total 451142 678150
Mikhailov
Uznaja
Shahti
VdNPSBudennovsk
ChirUrt
SmolNPS
RiazGRES
Lipeck
Balashov
Novobriansk Elec Borino
KurNPS Metall St.Oskol
NvNPS
Frolovo
VgHPS
Donbasskaja
Belorusskaia
Vitebsk
Talashkino
Roslavl
Krichev
Kurskaja
Shostka
SumiSev
Uznaja
Belgorod Liski
GubkinLebedi
Uznaja
Pobeda
SevUkr
Losevo
ZmTEC
Volga
Tihoreck
StGRES
Centralnaja
InguriHPS
Tambov
Trubnaja
?????.?
?????.?
????.?
Mahachkala
Derbent
Yashma
Valuiki
NChGRES
????
????
??
StBGRES Amvros T-15
SisoevoLuTEC
???????.
Harz
Psou
Bzibi
???
????
Shebekino Veshens S.n.NPS
Andrean
Satar
Kotelnik
Zalivs
Archeda
V-2
OEMK
Figure 2.8 – Russia – network map (modeled part in Black Sea regional model)
Only part of Russian network is modeled, the one that has largest influence on the region. Also, central and northern part of Russia are modeled in detail to analyze eventual influence of large exports to Western Europe over Ukraine network.
RUSSIA
2.17
Planned network reinforcements In following Table 2.16 planned network reinforcements for Russian system are presented, but only for region of interest (Northern-Caucasus region).
Table 2.16 – Russia – Network reinforcements (Northern Caucasus region) CAPACITY LENGTH VOLTAGE
LEVEL limited CROSS BR1 BR2 TOTAL
TYPE SUBSTATION1 SUBSTATION2 kV/kV
number of
circuits /units
A or MVA
A or MVA
MATERIAL OR
TRANSFORMERTYPE mm2 km km km
DATE OF COMMISSION STATUS COMMENT
1 2 3 2 3 4 5 6 7 8 9 10 11 12 13 14 15 OHL RU Sotchi GE Enguri 500 1 450 SS RU Rostov 500 2
OHL RU Rostov Sahti 30 500 1 OHL RU Rostov Frolovskaya 500 1 OHL RU Rostov R 20 220 1 SS RU Krimskaya II 500 2
OHL RU Krimskaya II Tihoreck 500 1 SS RU Senaya Senaya 220 1
OHL RU Krimskaya II Senaya 220 1 OHL RU Krimskaya II Slavyansk 220 1 OHL RU Slavyansk Senaya 220 1 SS RU Nevinomysk 500 1
OHL RU Nevinomysk Volgodonskaya 500 1 SS RU Mozdok 500 2
OHL RU Nevinomysk Mozdok 500 1 SS RU Alagir 330 2
OHL RU Nalcik Alagir 330 1 OHL RU V2 Alagir 330 1 SS RU Kizljar 330 2 on 330 kV Budenovsk-Chirjurt SS RU Grozniy 330 2 on 330 kV V2-Chirjurt SS RU Artem 330 2 on 330 kV Mahachkala-Chirjurt
OHL RU Mozdok Artem 330 1 OHL RU HP Irganskaya Artem 330 1 OHL RU Derbent Artem 330 1 OHL RU Derbent AZ Apsheron 330 1
1 Type of project (OHL - overhead line, K - cable, SK - submarine cable, SS - substation, BB - back to back system...) 2 Country (ISO code) 3 Substation name 4 Installed voltage (for lines nominal voltage, for transformers ratio in voltages) 5 number of circuits/units 6 Conventional transmission capacity of elements for OHL in Amps, for transformers in MVA 7 Conventional transmission capacity limited by transformers or substations 8 Type of conductor or transformer (ACSR - Aluminum Cross-section Steel Reinforced, or code of conductor, PS - phase shift transformer...)
RUSSIA
2.18
9 Cross-section (number of ropes in bundle x cross-section/cross-section of reinforcement rope) 10 Length till border of first state 11 Length till border of second state 12 Total length 13 Date of commissioning (estimate) 14 Status of project (Idea, Feasibility study, Construction, Damaged, out of service, Decommissioned...)
Sysoevo
PogorelovoDoneckB-10
Veshenskaja
G-20
Sh-50
EkspTEC
SH-30
C.HPS
VdTEC-2
Zimovniki Elista Northern
Gorodskaja-2
NZBNchGRES
R-4
R-40
T-15 T-10
R-20KojsugA-20
A-30
Zernovaja
Sal’sk
Staromin.
Kanevskaja
Peschanok.
Svetlaja
Krylovskaja
Brjuhoveck.
Ust’-Labinskaja
Vitaminkombinat
Kr.TEC
Vostochnaja
Kirillovskaja Krymskaja
Afipskaja
Tverskaja
Goryachij Kljuch
Dagomys
Psou
Tihoreck
Kropotkin
On Amvrosievka
On Pobeda-500
On Lu.GRES On Velikockaja
On Juzhnaja
On Bzybi
Central’naja
Shepsi
Armavir
Stavr.GRES
Stavropol’
HPS-4
Nev.GRES HPS-2 Mashuk
CherkesskBaksan
Blagodarnyj Prikumsk
Budennovsk
Prohladnaja
V-500
V-2
Derbent
Chirjurt
Chirkej.HPS
On Andrianovskaja
On Kotel’nikovo
On Juzhnaja
On JashmaOn Inguri HPS
Der
bent
skaj
aKavk
asio
ni
NEZ
Slavjansk
Georgia Azerbaijan
GPP-2
Alternative evolution of the Power System of Northern Caucasus
Irganaj. HPS
Sal
hino
Nal’chik
Mozdok
- Station- Substation
- 500 kV- 330 kV- 220 kV
Mahachkala
On Frolovskaja
Groznyj
Figure 2.9 – Russia – Network reinforcements (Northern Caucasus region)
RUSSIA
2.19
Table 2.17 – Russia - New production units (Northern Caucasus region)
VOLTAGE LEVEL CAPACITY
DATE OF COMMISSIONING
TYPE SUBSTATION1 kV kV MW MVA year STATUS COMMENT 1 2 3 4 5 6 7 8 9 10
HPP RU Zaramagskaya 330 2010 HPP RU Cherkeskaya II 330 2010 NPP RU Volgodonskaya 20 500 1000 1111 2010 unit 2
1 Type of plant (HPP - Hydropower plant, TPP - Thermal power plant, PSHPP - Pump Storage Hydro Power Plant, CCHP - Combined Cycle Heating Plant...) 2 Country 3 Substation name 4 Generator voltage level 5 Network voltage level 6 Installed active power 7 Installed apparent power 8 Date of commissioning (estimate) 9 Status of the project (Idea, Feasibility study, Construction...)
TURKEY
2.20
2.6. TURKEY The Turkish Power Grid consists of the lines of 400, 220, 150, 66 kV, the Table 2.15 shows total length of transmission lines by voltage levels. Network of the 400 kV system is shown in Figure 2.10. Table 2.18 shows total length of transmission lines by voltage levels. The power system of Turkey has quality of service and reliability in keeping with the west European standards. Hydro potential and lignite are important primary energy resources of the country. Large loads are concentrated in the areas of Istanbul, İzmir and Ankara. Most of the hydro resources and a large lignite field are located in Eastern Turkey, so power has to be transmitted across the country via the 400 kV lines.
Table 2.18 – Turkey – network overview lines transformers
Voltage level
Length of the overhead lines
and cables
Voltage level
Installed capacities
(kV) (km) (kV/kV) (MVA) 400 13 958 400/x 24240 220 84.6 220/x 300 150 31 522 154/x 46979 66 718.9 66/x 678
total 46 283.5 72197
TURKEY
2.21
BLACK SEA
MEDITERRENEAN
ALTINKAYA
EREĞLİ
AMBARLI
BULGARIA
FILIPPI
H.UĞURLUKAYABAŞI
ÇANKIRI
TİREBOLU
BORÇKA
GEORGIABATUM
armenıa
GUMRI
BALIKESİR
SOMA
ALİAĞA
DENİZLİ
YATAĞAN
KEMERKÖYOYMAPINAR
SEYDİŞEHİR
KONYA
ADANAERZİN
G.ANTEP
ANDIRIN
ELBİSTAN
KANGAL
YEŞİLHİSAR
KAYSERİ
ÇAYIRHAN
GÖLBAŞI
KEBAN
KARAKAYA
ATATÜRK
DİYARBAKIR
Ş.URFA
BATMAN
HAKKARİ
KARS
ÖZLÜCEERZURUM
HORASAN
IĞDIR
D.BEYAZIT
DIMODICHEV
SYRIA
DERİNER
İSKENDERUN
ıRAN
IRAQ
HALEP
PS3
ZAKHO
KESEK
KHOY
BAZARGAN
BABEK
KALKANDERE
KOCATEPE
TEİAŞ-APK 2006
Y.TEPE
ALİBEYKÖY
TUNÇBİLEK
D.PAŞA
KARABİGA
ADA-GEBZE
PAŞAKÖYOSMANCA
GÖKÇEKAYA
TEMELLİ
SİNCAN
BABAESKİHAMİTABAT
ÜMRANİYE
BURSA
AYDIN
YENİKÖYBİRECİK
SEYİTÖMER
IŞIKLAR
ADAPAZARI
GREEC
E
KIZILTEPE
AĞRI
Z.KÖY
TEPEÖREN
UNIMAR
HİLVAN
ILISUDOĞANLI
ÇUKURCA
CİZRE
VAN
ERMENEK
MERSİN
HATAY
İKİTELLİ A.ALANI
KAPTAN
UZUNDERE
HİSAR
GÜRSÖĞÜT
KARGI SİVASDEÇEKO
YUSUFELİ
KAVŞAK
İSDEMİR
BOYABATAMASRA
KARABÜK
X
BEYKOZÇARŞAMBA
HOPA
VARSAK
MANİSA
HABİPLER
220 kV TL154 kV TL
HPP (PLANNED)
HPP (EXISTING)
TPP (EXISTING)
TL (EXISTING)TL (PLANNED)
TPP (PLANNED)
Figure 2.10 – Turkey – Map of 400 kV transmission network
TURKEY
2.22
Planed network reinforcements The geographical location of primary energy resources of Turkey has brought to the construction of an important number of HPPs and of two lignite fired TPPs in the East of the country. On the other hand, large lignite fired TPPs and most of the natural gas combined cycle thermal power plants (NGCCTPPs) are located in the west of the country. Location of generation and the long distances involved are liable to challenge the transmission grid during operation with the maximum hydroelectric dispatch, when most of the power produced by the large HPPs in the East has to be transferred to the North-West regions and also partly to the South-West regions that are the areas where the energy consumption is higher. Consequently, the planned lines connecting the Western and the Eastern areas of country has necessary power carrying capacity and stability margins. In the eastern Black Sea region, the group of large HPPs planned for commissioning in 2005-2007, has an aggregate capacity of 2010 MW, they are Borçka HPP (300 MW), Deriner HPP (670 MW), Muratlı HPP (115 MW), Artvin HPP (332 MW) and Yusufeli HPP (540 MW). Borçka and Muratlı HPPs have been already commissioned recently. The construction of the new HPPs allowed the extension of the 400 kV grid close to the border with Georgia and Armenia. Also a 400/154 kV, 300 MVA autotransformer bank has been installed recently at Borçka thereby reinforcing the power supply of the Eastern Black Sea Region of Turkey.
TURKEY
2.23
Table 2.19 – Turkey – Planned network reinforcements CAPACITY LENGTH VOLTAGE
LEVEL limited CROSS BR1 BR2 TOTAL TYPE SUBSTATION1 SUBSTATION2 kV/kV
Numberof
circuits/units
A or MVA A or MVA
MATERIAL OR
TRANSFORMERTYPE mm2 km km km
DATE OF COMMISSION STATUS COMMENT
1 2 3 2 3 4 5 6 7 8 9 10 11 12 13 14 15 SS TR Afyon - - 400/150 250 2006 construction SS TR Agri - - 400/150 250+150 2006 construction
OHL TR Aliağa Manisa 400 1 ACSR 3Bx1272 2006 completed SS TR Baglum - - 400/150 2x250 2006 construction SS TR Beykoz GIS - - 400/33 2x125 2006 construction SS TR Davutpaşa GIS - - 400/150 250 2006 construction SS TR Davutpaşa GIS - - 400/33 125 2006 construction SS TR Erzurum - - 400/150 250 2006 constructioncapacity addition
OHL TR Erzurum Horasan 400 1 ACSR 3Bx954 2006 construction SS TR Germencik - - 400/150 2x250 2006 construction SS TR Hilvan - - 400/150 250 2006 construction SS TR Hilvan - - 400/33 125 2006 construction
OHL TR Horasan Agri 400 1 ACSR 3Bx954 2006 construction OHL TR HPP Borçka-Deriner HPP Yusufeli 400 1 ACSR 3Bx954 2006 construction OHL TR HPP Oymapinar Varsak 400 1 ACSR 3Bx954 2006 constructionsecond line OHL TR HPP Yusufeli Erzurum 400 1 ACSR 3Bx954 2006 construction SS TR Ikiteli - - 400/33 2x125 2005 completed capacity addition K TR Ikitelli Davutpasa 400 1 2000 mm2 2006 completed
OHL TR Isiklar Manisa 400 1 ACSR 3Bx1272 2006 completed OHL TR Iyidere HPP Borçka 400 1 ACSR 3Bx1272 2006 completed OHL TR Karabiga-Çan TPP Soma 400 1 ACSR 3Bx954 2006 construction OHL TR Karakya-Ataturk Hilvan 400 1 ACSR 3Bx954 2006 completed SS TR Manisa - - 400/150 2x250 2006 construction
OHL TR Tirebolu Iyidere 400 1 ACSR 3Bx1272 2006 completed SS TR TPP Iskenderun - - 400/150 250 2006 constructioncapacity addition, autotransformer
OHL TR TPP Unimar Babaeski 400 1 ACSR 3Bx954 2006 construction OHL TR Yeniköy-Uzundere Aydin 400 2 ACSR 3Bx954 2006 completed
K TR Yildiztepe Davutpasa 400 2 2000 mm2 2006 construction SS TR Zekeriyakoy GIS - - 400/150 250 2006 construction SS TR Zekeriyakoy GIS - - 400/33 125 2006 construction SS TR Hatay - - 400/150 250 2007 construction SS TR Hatay - - 400/33 125 2007 construction
OHL TR Hatay Erzin 400 1 ACSR 3Bx954 2007 construction SS TR Mersin - - 400/150 250 2007 construction SS TR Mersin - - 400/33 125 2007 construction
OHL TR Mersin TPP Iskenderun 400 1 ACSR 3Bx954 2007 construction OHL TR Seydişehir HPP Oymapinar 400 1 ACSR 3Bx954 2007 construction SS TR Umraniye - - 400/150 2x250 2007 constructionTransformer change SS TR Borçka - - 400/150 250 ?
OHL TR Borcka GE Akhaltske 400 1 130
TURKEY
2.24
OHL TR Babaeski GR N.Santa 400 1 ACSR 3Bx954 64 2010 F.study DC TR Pasakoy 400 600 MW Idea DC Converter station SK TR Pasakoy RO Constanta 400 1 600 MW 200 200 400 Idea
1 Type of project (OHL - overhead line, K - cable, SK - submarine cable, SS - substation, BB - back to back system...) 2 Country (ISO code) 3 Substation name 4 Installed voltage (for lines nominal voltage, for transformers ratio in voltages) 5 number of circuits/units 6 Conventional transmission capacity of elements for OHL in Amps, for transformers in MVA 7 Conventional transmission capacity limited by transformers or substations 8 Type of conductor or transformer (ACSR - Aluminum Cross-section Steel Reinforced, or code of conductor, PS - phase shift transformer...) 9 Cross-section (number of ropes in bundle x cross-section/cross-section of reinforcement rope) 10 Length till border of first state 11 Length till border of second state 12 Total length 13 Date of commissioning (estimate) 14 Status of project (Idea, Feasibility study, Construction, Damaged, out of service, Decommissioned...)
Table 2.20 – Turkey – Planned generation units VOLTAGE
LEVEL CAPACITY DATE OF
COMMISSIONING TYPE SUBSTATION1 kV kV MW MVA year STATUS COMMENT
1 2 3 4 5 6 7 8 9 10 HPP TR Ermenek 400 320 -2010 HPP TR Kargı 400 214 -2010 HPP TR Borçka 400 300 -2010 HPP TR Deriner 400 670 -2010
1 Type of plant (HPP - Hydropower plant, TPP - Thermal power plant, PSHPP - Pump Storage Hydro Power Plant, CCHP - Combined Cycle Heating Plant...) 2 Country 3 Substation name 4 Generator voltage level 5 Network voltage level 6 Installed active power 7 Installed apparent power 8 Date of commissioning (estimate) 9 Status of the project (Idea, Feasibility study, Construction...)
UKRAINE
2.25
2.7. UKRAINE Ukraine's transmission system consists of an 800 kV DC line; a basic infrastructure of 750 kV, single circuit AC system that overlay an extensive 330 kV (single and double circuit) network, feeding into 220 kV and 110 kV systems, but also 500 kV and 400 kV AC systems in some parts of the country. Figure 2.11 shows transmission network of Ukraine and Table 2.21 shows overview of Ukrainian transmission network.
Figure 2.11 – Ukraine – network map
Table 2.21 – Ukraine – Overview of electricity transmission and distribution lines in km, year 2002 Transmission Distribution Total 110-750 kV 0.4-35 kV 0.4-750 kV
Overhead Lines 70,302 821,053 891,355 Underground Cables 51.5 67,275 67,326.5 Total 70,353.5 888,328 958,681.5
Source: Ministry of Fuel and Energy At present, southwestern part of Ukrainian system called Burstyn island, including Burstinskaya TPP, part of 220 kV network connected to it and the Mukachevo substation, is separated from the main Ukrainian system and operates in synchronous and parallel mode with UCTE main grid. This was done in order to realize export from Ukraine to Western Europe.
UKRAINE
2.26
Planned network reinforcements High voltage transmission grid needed to increase the supply of electricity to power deficient regions of the country, optimize system interflows and increase the reliability of supply and to connect to European markets.
Table 2.22 – Ukraine – Network reinforcements till 2010 CAPACITY LENGTH VOLTAGE
LEVEL limited CROSS BR1 BR2 TOTAL
TYPE SUBSTATION1 SUBSTATION2 kV/kV
number of
circuits /units A or MVA
A or MVA
MATERIALOR
TRANSFORMER TYPE mm2 km km km
DATE OFCOMMISSI
ONING STATUS COMMENT 1 2 3 2 3 4 5 6 7 8 9 10 11 12 13 14 15
OHL UA Pivdenoukrainskaya RO Isaccea 750 1 4000 A - ACSR 400*5 406 3 409 2015 Feasibility study Restoration. Voltage level to be defined SS UA Kyivska 750/330 1 1000 MVA - PST - - - - 2008 Construction
OHL UA Rivnenska NPP UA Kyivska 750 1 4000 A - ACSR 400*5 370 0 370 2008 Construction OHL UA Zahidnoukrainska UA Bogorodchani 330 1 1670 A - ACSR 400*2 111 0 111 2010 Construction OHL UA Dnistrovska PSHPP UA Bar 330 1 1670 A - ACSR 400*2 95 0 95 2007 Construction OHL UA Novoodeska UA Artsyz 330 1 1670 A - ACSR 400*2 140 0 140 2007 Feasibility study OHL UA Adgalyk UA Usatovo 330 1 1670 A - ACSR 400*2 124 0 124 2007 Feasibility study second line OHL UA Zarya UA Mirna 330 1 1380 A - ACSR 300*2 14 0 14 2008 Construction second line OHL UA Simferopol UA Sevastopol 330 1 1670 A - ACSR 400*2 70 0 70 2007 Feasibility study upgrade from 220kV OHL UA Dgankoj UA Melitopol–Simferopol 330 1 1380 A - ACSR 400*2 16 0 16 2006 Construction Connectors of Dgankoj SS to OHL Melitopol–Simferopol OHL UA Pivnichnoukrainska UA Kyivska 750 1 4000 A - ACSR 400*5 292 0 292 2015 Feasibility study OHL UA Zaporizka NPP UA Kahovska 750 1 4000 A - ACSR 400*5 190 0 190 2015 Feasibility study OHL UA Lutsk Pivnichna UA Ternopil 330 1 1670 A - ACSR 400*2 180 0 180 2010 Feasibility study OHL UA K.Podolska UA Ternopil 330 1 1670 A - ACSR 400*2 150 0 150 2012 Feasibility study OHL UA HPP Dnistrovska MD Balti 330 1 1670 A - ACSR 400*2 120 0 120 2012 Idea second line
1 Type of project (OHL - overhead line, K - cable, SK - submarine cable, SS - substation, BB - back to back system...) 2 Country (ISO code) 3 Substation name 4 Installed voltage (for lines nominal voltage, for transformers ratio in voltages) 5 number of circuits/units 6 Conventional transmission capacity of elements for OHL in Amps, for transformers in MVA 7 Conventional transmission capacity limited by transformers or substations 8 Type of conductor or transformer (ACSR - Aluminum Cross-section Steel Reinforced, or code of conductor, PS - phase shift transformer...) 9 Cross-section (number of ropes in bundle x cross-section/cross-section of reinforcement rope) 10 Length till border of first state 11 Length till border of second state 12 Total length 13 Date of commissioning (estimate) 14 Status of project (Idea, Feasibility study, Construction, Damaged, out of service, Decommissioned...)
UKRAINE
2.27
Figure 2.12 – Ukraine – Network reinforcements till 2010
Table 2.23 – Ukraine – New production units
VOLTAGE LEVEL CAPACITY
DATE OF COMMISSIONING
TYPE SUBSTATION1 kV kV MW MVA year STATUS COMMENT 1 2 3 4 5 6 7 8 9 10
PSHPP UA Dnistrovska 15.75 330 324/416 360 2008 Construction CCHP UA Kyivska 6 20 330 250 353 2008 Construction PSHPP UA Tashlykska 15.75 330 2x146/2x211 307 2006 Construction units 1 and 2(211PUMP/146GENERATION) PSHPP UA Tashlykska 15.75 330 2x146/2x211 307 2008 Construction units 3 and 4(211PUMP/146GENERATION)
1 Type of plant (HPP - Hydropower plant, TPP - Thermal power plant, PSHPP - Pump Storage Hydro Power Plant, CCHP - Combined Cycle Heating Plant...) 2 Country 3 Substation name
UKRAINE
2.28
4 Generator voltage level 5 Network voltage level 6 Installed active power 7 Installed apparent power 8 Date of commissioning (estimate) 9 Status of the project (Idea, Feasibility study, Construction...)
ARMENIA
2.29
2.8. ARMENIA The power transmission network of Armenia consists of 220 kV and 110 kV lines. Figure 2.13 shows the map of Armenian network and Table 2.24 shows main data about Armenian transmission network.
Table 2.24 – Armenia - network overview Lines Transformers
Voltage level Length of the overhead lines
and cables Voltage level Installed
capacities
(kV) (km) (kV/kV) (MVA) 220 1323 220/x 2715 110 3169 110/x 5400 total 4492 8115
Armenia is connected through interconnection lines with all neighboring countries:
Table 2.25 – Armenia – interconnection lines State Name and Type of Interconnection Condition
Georgia Alaverdi 220 kV Operational Turkey Kars 220 kV Out of operation
Iran Megri 220 kV Operational Azerbaijan Atarbekiar 330 kV Out of operation
Georgia Ashotzk 110 kV Operational (radial) Georgia Lalvar 110 kV Operational (radial)
Installed generation capacity in Armenia exceeds consumption, and Armenia is capable of exporting large quantities of energy. Armenian NPP 815(440) MW Hrazdan TPP 1100 MW Yerevan TPP 550 MW Sevan-Hrazdan cascade of HPPs 550 MW Vorotan cascade of HPPs 400 MW Small HPPs 80 MW
ARMENIA
2.30
Figure 2.13 – Armenia - network map
Gumri
Lake Sevan
Vanadzor
The scheme of the Armenian Power System
Ministry of Energy RA400 kV line project
220 kV 330 kV
110 kV
- NPP - HPP - TPP
ARMENIA
2.31
Planned network reinforcements Table 2.26 shows planed network reinforcements in forthcoming period.
Table 2.26 – Armenia - Planned network reinforcements
CAPACITY LENGTH VOLTAGELEVEL
limited
CROS SECTION
BR1 BR2 TOTAL TYPE SUBSTATION1 SUBSTATION2
kV/kV
number of
circuits /units
A or MVA A or MVA
MATERIAL OR
TRANSFORMERTYPE
mm2 km km km
DATE OF COMMISSION STATUS
1 2 3 2 3 4 5 6 7 8 9 10 11 12 13 14 SS AM Hrazdan TPP 400/220 10 2x5x200 2x5x220 2009 Feasibility study
OHL AM Hrazdan TPP IR Tavriz 400 2 2x1800 2x1900 ACSR 2x(2x500) 332 100 432 2010 Feasibility study OHL AM Hrazdan TPP GE Ksani 400 1 1100 1400 ACSR 2x300 90 80 170 2009 Feasibility study
1 Type of project (OHL - overhead line, K - cable, SK - submarine cable, SS - substation, BB - back to back system...) 2 Country (ISO code) 3 Substation name 4 Installed voltage (for lines nominal voltage, for transformers ratio in voltages) 5 number of circuits/units 6 Conventional transmission capacity of elements for OHL in Amps, for transformers in MVA 7 Conventional transmission capacity limited by transformers or substations 8 Type of conductor or transformer (ACSR - Aluminum Cross-section Steel Reinforced, or code of conductor, PS - phase shift transformer...) 9 Cross-section (number of ropes in bundle x cross-section/cross-section of reinforcement rope) 10 Length till border of first state 11 Length till border of second state 12 Total length 13 Date of commissioning (estimate) 14 Status of project (Idea, Feasibility study, Construction, Damaged, out of service, Decommissioned...)
Table 2.27 – Armenia - Planned new generation units VOLTAGE
LEVEL CAPACITY DATE OF
COMMISSIONING TYPE SUBSTATION1 kV kV MW MVA year STATUS
1 2 3 4 5 6 7 8 9 CCHP AM Yerevan TPP new unit 18 110 208 240 2009 Tendering TPP AM Hrarzdan TPP unit 5 15.75 220 440 510 2009 Partly Constructed
1 Type of plant (HPP - Hydropower plant, TPP - Thermal power plant, PSHPP - Pump Storage Hydro Power Plant, CCHP - Combined Cycle Heating Plant...) 2 Country 3 Substation name 4 Generator voltage level 5 Network voltage level 6 Installed active power 7 Installed apparent power 8 Date of commissioning (estimate) 9 Status of the project (Idea, Feasibility study, Construction...)
3.1
3. REGIONAL MODEL
3.1. Model development Every project participant made model of his system in PSS/E. Model integrator (EKC) has connected all models into one regional model. Also, model integrator had following obligations:
• homologize data for interconnection lines • developing of adequate external equivalent (equivalenting Western, Central and Southern
Europe's network) • checking of all models and regional one • testing of model accuracy
3.2. Model characteristics For forecast horizon it was decided to model two regimes in 2010, with following assumptions:
• All power systems in parallel operation • Hydrological conditions: average for whole region
It was decided to model two yearly characteristic regimes for whole region:
minimum load regime peak load regime
Table 3.1 – Peak load and low load hours in Black Sea countries
BG GE MD RO RU TR UA time zone* +1:00 +3:00 +2:00 +2:00 +3:00 +2:00 +2:00 Low hour** 05:00 04:00 03:00 03:00 04:00 03:00 03:00 Peak hour** 20:00 21:00 18:00 19:00 19:00 19:00 19:00
*time shift to GMT time zone ** local time
It was agreed to use these time for respective model regimes
Winter peak load (16:00 GMT) Summer minimum load (01:00 GMT)
3.2
Agreed base case scenarios Winter regime
1 2 3 4 5 6 7 8 9 10
BG GE MD RO RU TR UA AM EXT* **
BG ***** 0 0 0GE ***** 200 0 0 0MD ***** -750 450 0RO 0 750 ***** 0 -800RU -200 ***** -200 -1150 1800TR 0 0 ***** 150 0UA -450 0 200 ***** -1000 1000AM 0 -150 ***** -1250EXT* 0 0 0 800 1150 0 1000 1250 *****
TOTAL 0 -200 300 50 1550 -150 1250 1400 -4200 2800
from
to
*countries outside BSR ** remaining capabilities Summer regime
1 2 3 4 5 6 7 8 9 10
BG GE MD RO RU TR UA AM EXT* **
BG ***** 0 0 0GE ***** 200 -500 0 100MD ***** -350 350 0RO 0 350 ***** 0 -350RU -200 ***** -200 -1150 1800TR 0 500 ***** 150 0UA -350 0 200 ***** -1000 1000AM 0 -150 ***** -1250EXT* 0 -100 0 350 1150 0 1000 1250 *****
TOTAL 0 200 0 0 1550 -650 1150 1400 -3650 2800
from
to
*countries outside BSR ** remaining capabilities
3.3
All systems are modeled in “parallel” operation and connected to main UCTE grid. At present they do not operate like this. Main goal of this approach is to investigate operational conditions and electric energy trade capabilities after eventual connection of the whole region to UCTE main grid. For this purpose, high voltage network-transmission network of all countries in the region was modeled:
Voltage levels 750kV 500kV 400kV 330kV 220kV 150kV 110kV
Main generator units are modeled at their nominal voltage level with corresponding step-up transformers. All new substations and lines that are expected to be operational till 2010 (according to the long term development plans) are modeled too. Table 3.2 shows main model characteristics, like number of elements modeled (Buses, Plants, Machines, Loads, Lines, Transformers).
Table 3.2 – Model characteristics
ELEMENT TYPE # W S # W S # W S # W S # W S # W S # W S # W S # W S # W SBUSES 651 608 596 59 54 49 469 476 476 1078 1016 973 609 609 574 1307 1102 1034 652 628 585 108 108 100 170 161 162 5103 4762 4549PLANTS 84 58 32 22 16 11 42 32 32 238 184 138 123 107 69 299 298 233 141 108 58 45 45 37 13 13 12 1007 861 622MACHINES 112 69 35 26 20 11 48 36 34 238 178 94 139 121 75 683 621 421 142 109 58 48 39 39 13 13 12 1449 1206 779LOADS 569 569 554 27 26 26 253 253 253 739 719 681 433 432 424 633 633 595 540 508 446 31 31 31 77 75 73 3302 3246 3083LINES 747 713 727 52 43 43 552 486 486 1315 1144 1146 657 640 641 1244 1300 1294 650 646 647 90 86 86 77 125 130 5384 5183 5200
750 1 6 21 28500 8 44 4 1 57400 40 2 5 58 172 4 2 50 333330 1 17 76 190 20 304220 56 38 117 207 2 75 42 6 543150 1070 75 1145110 651 3 530 1139 324 281 46 2974
TRANSFORMERS 161 120 92 31 24 18 62 42 42 307 210 167 418 415 380 715 711 503 342 305 262 74 74 66 6 6 5 2116 1907 1535STEP UP 96 23 35 151 107 535 124 47 0 1118NETWORK 65 8 27 156 311 180 218 27 6 998
# total number of elementsW number of elements in operation in Winter maximumS number of elements in operation in Summer minimum
AREAEXT TOTALUKRAINA
7ARMENIA
8ROSSIA
5TURKEY
6MOLDOVA
3ROMANIA
41BULGARIA GEORGIA
2
3.4
3.3. Мethodology for transfer capacities calculations
Transfer capacities (TTC. NTC, ATC) are important indicators for market participants to anticipate and plan their cross-border transactions and for the TSOs to manage these international exchanges of electricity. But also can give indications about week points of transmission network and can be used to evaluate influence of network development plans and new planed network reinforcements.
General definitions of transfer capacities and the procedures for their calculation/assessment are given by ETSO (European Transmission System Operators), in the following documents:
[1] ETSO, Definitions of Transfer Capacities in liberalized Electricity Markets, Final Report April 2001 [2] ETSO, Procedures for cross-border transmission capacity assessments, October 2001 [3] ETSO, Net Transfer Capacities (NTC) and Available Transfer Capacities(ATC) in the Internal Market of Electricity in Europe (IEM) [4] UCTE, Technical guidelines for Net Transfer Capacity determination Methodology used in performing this study is based on these prerequisites, and detailed approach will be explained in following chapters.
3.3.1. DEFINITIONS OF TRANSFER CAPACITIES According to ETSO, the definitions that refer to program values are presented below. As explained in the Introduction, these definitions are related to the classical calculation of transfer capacities – between the neighbouring systems/areas, linked with the tie-line(s).
Also, it is important to note that the TTC, NTC, BCE, AAC, ATC are the EXCHANGE PROGRAM values; these are not the physical flows, and generally differ from the physical flows at the interconnection lines (except in particular cases of radial operation).
The evaluation of TTC between two electrical areas requires:
- To make a choice of local power system scenario
- To define a base case, which involves the sharing of full information amongst TSOs to build up the global (merged) load flow model
- To apply an agreed procedure for carrying out the calculations
Total Transfer Capacity (TTC), is the maximum feasible exchange program between two areas compatible with operational security standards, calculated according to the pre-assumption that the future network conditions are well known.
TTC is always related to a given power system scenario, i.e.: generation schedule and pattern, consumption pattern and available network state that constitute the data allowing to build up a mathematical model of the power system (load flow equations). The solution of this model leads to the knowledge of the voltages at the network nodes and the power flows in the network elements which are the parameters being monitored by a TSO to assess system security.
3.5
The solution of this model is the so-called base case and is the starting point for TTC computation. This base case will already contain exchange programs between TSOs and control areas. These are the various transactions likely to exist -according to what has been observed in the past - in the forecasted situation.
For a given pair of neighbouring control areas, A and B, for which capacities are to be computed, in the base case there exists a global exchange program called Base Case Exchange (BCE). Sometimes it is hard to determine the Base Case Exchanges for a given base case network model, even for the classical calculation of transfer capacities (between the neighbouring areas). It is easy to determine the load-flows at the tie-lines by running the load-flow on the base case model and recording the active power flows at the tie-lines (this value is called the Notified Transmission Flow - NTF), but since the BCEs are the program (contractual) values, related to the base case model, theoretically there can be an infinite number of sets of BCEs which give the same exchange totals of all modelled systems. That is why the BCE should be agreed by the consensus among the calculation parties. Since the final TTC values highly depend on the agreed value of BCE, it is recommended that realistic BCEs are agreed (base case load flows on interconnection lines - NTFs can give some indication of the BCEs which are resulted from).
As the result of this procedure, TTC equals the maximum exchange programme between the two areas being considered, if the generation and load pattern in these areas and in other areas strongly interconnected to these two would exactly correspond to the assumptions made in the evaluation steps, namely the ones implicit in the base case.
The maximum additional program exchange (over the BCE) that copes with the security standards is marked with ∆Emax.
The Total Transfer Capacity (TTC) is the maximum exchange program between two areas, compatible with operational security standards* applicable at each system**, if future network conditions, generation and load patterns were perfectly known in advance***.
TTC = BCE + ∆Emax
* the most important, and usually checked is n-1 security criterion ** in highly meshed networks, usually not only the two concerned systems are observed, but
also the “third” systems, if they are significantly influenced by the transfers between the two concerned systems
*** the last part of the sentence indicates that no model and/or forecasting imperfections are taken into account within TTC (they are evaluated within the TRM, see below)
The uncertainties associated to the forecast of the power system state, for a given time period in the future, may decrease according to the selected time frame. Therefore the TTC value may vary (i.e. may increase or decrease) when approaching the time of programme execution as a result of a more accurate knowledge of generating unit schedules, load pattern, network topology and tie-lines availability.
3.6
Transmission Reliability Margin (TRM) is a security margin that copes with uncertainties on the computed TTC values arising from:
• Unintended deviations of physical flows during operation due to the physical functioning of load-frequency control (LFC)
• Emergency exchanges between TSOs to cope with unexpected unbalanced situations in real time
• Inaccuracies, e. g. in data collection and measurements
TRM is then associated to the real-time operation and its value is determined by each TSO, in order to guarantee the operation security of its own power system. TRM may vary seasonally or may be updated according to possible modifications occurred in the power system.
Typical values of TRM used in SEE area are 50-100 MW, which somehow corresponds to the size of the SEE systems and typical electricity transfers. However, if the calculated transfer capacities will be used in real electricity market (as a constraints for some of the transmission capacity allocation methods based on NTC), the particular TRM for each border and in each direction should be carefully assessed among the TSOs.
Net Transfer Capacity (NTC) is defined as:
NTC = TTC-TRM NTC is the maximum exchange program between two areas compatible with security standards applicable in both areas and taking into account the technical uncertainties on future network conditions.
Figure 1 gives the graphical explanation of defined program values, presented on the example of calculating the transfer capacities between areas A and B, with already existing Base Case Exchange from A towards B.
Direction A→B BA
maxBABA EBCETTC →→→ ∆+=
BABABA TRMTTCNTC →→→ −= Direction B→A
ABmax
ABAB EBCETTC →→→ ∆+=
BAABAB TRMTTCNTC →→→ −=
0 MW
∆EmaxA>B
∆EmaxB>A
BCE
TTCA>B
TTCB>A
TRMA>B
NTCA>B
TRMA>B
NTCB>A
Figure 3.1 - Graphical and presentation of transfer capacities and their analytical relations
3.7
NTC may be allocated in different time frames to match the need for securing longer term trading and to provide room for shorter term trading. One may distinguish, as the result of the allocation procedures in each allocation time frame, two notions:
Already Allocated Capacity (AAC), that is the total amount of allocated transmission rights (at some of the possible previous allocation rounds), depending on the allocation method.
The Available Transmission Capacity (ATC), is the part of NTC that remains available, after each phase of the allocation procedure, for further commercial activity. ATC is given by the following equation:
ATC = NTC- AAC
AAC and ATC are thus a result of each stage of the allocation procedure.
In ETSO definitions of transfer capacities the clear distinction is made between the program (contractual, scheduled) values, and the physical active power flows related to these program values, i.e. originated by them, and recorder in AC load flow model.
Figure 3.2 - Program and physical values
Since the definitions of the program values are related to the border between the two TSOs, the definitions of physical values are also related to the sum of the individual tie-line flows at the observed border.
Notified Transmission Flow (NTF) is the physical flow over the tie-lines between the considered areas observed in the base case model prior to any generation shift between the areas. It results from the Base Case Exchanges (BCE).
The additional physical flow ∆Fmax is the physical flow over the tie lines between the two concerned areas, induced by the maximum generation shift ∆Emax.
3.8
Total transfer Flow (TTF)1 is the net physical flow across the border associated with a program exchange of magnitude TTC, provided that no other exchanges have been modified from the base case (except the one between the two areas between which the TTC is calculated).
TTF = NTF + ∆Fmax
3.3.2. CALCULATION OF TTC
Algorithm of TTC calculation The concept of TTC calculation based on ETSO documents will be explained on an example of calculating the TTCs between areas A and B, where BCE from A towards B already exist in base case.
Figure 3.3 - Process of TTC calculation
1
In flow-based methods for the allocation of the transmission capacity, the TTF is usually used as a constraint, like physical maximum of the cross-border flow compatible with security standards. In most of these methods it is then called Border Capacity (BC). One of such methods is Coordinated explicit flow-based Auction, proposed by ETSO, and currently investigated among the TSO of SEE Europe.
3.9
When computing TTC from area A to area B, generation is stepwise increased in control area A and decreased in control area B giving rise to a power flow from area A to area B. The shifts of generation are named as ∆E+ and ∆E- for the increase and the decrease respectively. This process is carried out up to the point, where security rules (in systems A, B, or in some of the neighbouring systems highly dependent on the transaction among A and B) are breached (∆Emax+ / ∆Emax-). The maximum exchange from A to B compatible with security rules without taking into account uncertainties and inaccuracies is actually the TTC from A to B, and it is calculated as:
TTC = BCE + ∆Emax+
This procedure is reversed - decrease of generation in system A and increase of generation in system B - when computing TTC from area B to area A leading to a maximum increase of generation of ∆Emax- and thus to a maximum exchange from B to A of ∆Emax - - BCE.
For planning purposes (evaluation of development plans) and for long term transfer capabilities evaluations, after reaching the exchange in which first critical contingency occurs, calculations should be continued, to confirm this identified bottleneck, till the next identified critical contingency.
Reached capacity(MW)
2nd critical contingency
1st critical contignency
Weak pointsCritical contingencies:1) …2) …3) …
Critical elements:1) …2) …3) …
Critical contingency elimination:• Development and expansion plan (if any)• Including new planned internal lines (if any)
Critical contingencies:1) …2) …3) …
Critical elements:1) …2) …3) …
No critical elements
Figure 3.4
This way identified bottleneck is confirmed, or even next one identified, allowing experts to identify whole problematic parts of network (not just one critical element and contingency), giving better and wider view how this limitations can be remedied and which new investment are best in sense of transfer capabilities increase. Also, with additional analyses, influence of new elements according to the development plans can be evaluated (Figure 4).
3.10
The calculations are performed on the merged data sets, so cold “base models” and their significant maintenance (topology) scenarios, considering the approved exchange scenarios. Before starting calculations, corresponding base models have to be checked for security, respecting the N-1 criterion. If any bottlenecks are found, they have to be carefully analyzed and corresponding measures have to be taken to avoid them. Concerning that, base models overloads are to be neglected during the further transfer capacities calculations.
Except for EPS of Turkey, for all other EPSs, represented with models in the base cases, the existing long term contracts are modelled as base case exchanges. An internal exchange pattern of zero exchanges between southeast European countries and Turkey is assumed. If, from the findings of this analysis, some critically loaded lines are found, the combined influence of internal and external exchanges will be evaluated for a realistic (limited) number of cases.
Generation shift
In order to determine the cross-border transmission limit between two neighbouring countries or zones, cross-border exchanges are gradually increased while maintaining the loads in the whole system unchanged until security limits are reached. Starting from the common base case exchanges, the additional exchange is performed through an increase of generation on the exporting side and an equivalent decrease of generation on the importing side. This generation shift is to be made stepwise until a network constraint is violated. Typical step for the generation shift during the TTC assessment is 50, or 100 MW. The generation increase/decrease has to be performed according to some predefined criteria. The main concepts of the distribution the generation increase/decrease in some area over the different generating sets are: 1. Proportionally to the engagement of the production units in base case This is wide used generation shift concept, suitable for fast calculations, because it does not require any additional information except the base case Load flow model. Commonly used principle is that the factor which distributes the generation increase/decrease in a given area over the different generators in this area is the ratio of base case engagement of each generator to the total of internal generation scheduled and involved in the shift.
∑⋅∆+=
ni
ii
incnew P
PEPP)(
; ∑
⋅∆−=
ni
ii
decnew P
PEPP)(
P i - active power generation of respective production unit inc
newP - new increased generation dec
newP - new decreased generation
E∆ - step of the generation shift
3.11
This concept of generation shift often lead to non-feasible generation patterns, because of the principle that the generators already highly engaged in base case are favoured during the shift, often above their real possibilities. On the other hand, some generators which are not engaged in base case will not be engaged in generation shift process too.
2. Proportionally to the active power reserve in respective production units This concept respects the real production possibilities of the generators, and requires additional information about the Pmin and Pmax of those generators which will participate in generation shift. Then, in each step the amount of the shift will be shared among the engaged generators according to their remaining production “reserve” (UCTE method A).
∑ −−
⋅∆+=
nii
iii
incnew PP
PPEPP
)( max
max
; ∑ −
−⋅∆−=
nii
iii
decnew PP
PPEPP
)( min
min
P i - active power generation of respective production unit inc
newP - new increased generation dec
newP - new decreased generation
E∆ - step of the generation shift min
iP - minimum permissible generation (for the generators participating in decreasing) max
iP - maximum permissible generation (for the generators participating in increasing)
In case of using the generation shift proportionally to the reserve, the information about actual Pmin [MW] and Pmax [MW] for modelled power plants should be comprised in corresponding format for the network model. These Pmin and Pmax should be not related to the theoretical minimum and maximum generation of the respective power-plant, but to their available limits, which correspond to the observed regime.
Thus, the power reserve for some power plant can be calculated:
∆Pincrease = Pmax – Pbase case ∆Pdecrease = Pbase case – Pmax
3. According to the priority list of the production units (order& active generation shift) Within this concept, the priority lists of the generators for the participation in generation shift are known, with an order of the engagement and the active power for the increasing/decreasing (so-called “Generation merit order” - UCTE method C). Then, generation is shifted simultaneously - increased/ decreased according to the shifting lists. This list corresponds to the common operational practice of increasing of the amount of the power exchanges, and thus corresponds to the realistic scenarios or it can be made according to the economic dispatch, or even market prices. It has to be said that this is most realistic approach, since generator units are engaged as they are in reality.
3.12
This pattern of generation shift is very frequently used in TTC calculation among the SEE countries, and requires additional information in a form of generation shift list.
In case of using the generation shift according to the priority list, an additional data should be exchanged along with ach base case model, comprising the information of the shifting order (1,2,3…) and the available amount of generation shift.
Example
Priority list for increase within one system containing three modelled power plants can be: Table 3.3 – Example of Generation shifting list
Node Order Pbasecase ∆P+ IF
STEP= STEP 1 STEP 2 [MW] [MW] [MW] [MW]
JDJERD11 1 700 120 100 20 JBASTA21 2 70 50 / 50 JBASTA22 3 90 30
100 MW / 30
sum: 100 100 Thus, if the generation shift step is e.g. 100 MW:
1. in first step the JDJERD11 will be shifted for 100 MW, and its engagement will be 800 MW.
2. In second step JDJERD11 will be increased for 20 MW (and thus spend its possibility for the increase) and its engagement will be 820 MW. Additionally, JBASTA21 will be increased for 50 MW, and JBASTA22 will be increased for 30 MW.
100 MW is the recommended step for increasing/decreasing the generation to calculate TTC. For all generation nodes that are to be considered for the transfer capacities determination, the minimal and maximal output power must be indicated. Generators out of operation in the base case must also be included, with their corresponding limits, so they could be switched on if necessary during TTC determination.
When calculating MTC, two methods for shift of generation are recommended:
• According merit order (method 3);
• Proportionally to the remaining available capacity (method 2).
Second method will be used in cases where Generation shifting list is not available.
3.13
Security criteria
As it has been shown in Figure 3.3 and Figure 3.4, the calculation of the TTC is stopped if:
1) Maximum export possibility in exporting system is reached, or maximum import possibility in importing system is reached. In cases of reaching the Pmax of export or import, the last ∆E is considered as ∆Emax.
2) Critical contingencies are discovered. If the critical contingency is reached, the calculation is stopped, and the generation shift ∆E from the previous step is considered as an ∆Emax. TTC is then calculated as:
TTC = BCE + ∆Emax
The base case model should be checked from the point of view of respecting the security criteria. If some contingencies are determined in base case, their relevancy concerning the transfer capacity which is to be calculated should be evaluated, and the calculation of TTC should be continued depending on the conclusion (i.e. some contingencies from the base case can be irrelevant for the observed transfer, and in such case the TTC calculation can be performed).
Security assessment comprises the checking of the n-1 security criteria for the outages of:
- interconnection and internal lines of extra-high voltage, without radial lines
- transformers 750/x, 500/x and 400/x …
The n-2 security criteria for the simultaneous outages of double circuit lines can be checked for the agreed specific cases of outages known from practice.
Bus bar outages are not considered, because the opinion is, that the severity of possible consequences are usually loss of stability endangering overall system security and that bus bar failures and the subsequent tripping of all transformers within a substation may lead to temporary supply interruptions within complete regional high voltage network.
Outages of generation units should not be taken into account within the TTC assessment, since they should be covered with TRM.
The breaching of security rules may happen internally in any of observed systems or on the tie lines between them. Under the critical contingencies, the loading of the network elements equal or greater than above values is presumed:
- 100% of Imax [A] for transmission lines
- 100% of Snom [MVA] for the transformers
3.14
The Imax (lines) and Snom (transformers) should be defined within the base case model. Imax should comprise the typical operational current limit for the transmission lines known by the system operators, whether thermal limit, or the protection setting.
Due to the uncertainty of reactive power forecast, voltage violations are considered only for each internal network by the corresponding system operator, usually to check that corrective measures are available. Also, some critical contingencies can be detected in TTC calculation, but can be neglected in case:
if the reason for the detected critical contingency is not the real critical operational regime, but the imperfection of the used network model (like not modelled lower voltage network in one area, which actually mitigates the effect of the observed outage)
if reasonable preventive & fast post-event measures can be made, under the competences of the system operator of the network affected by the considered contingency meshing of lower voltage network, maintenance rescheduling, generation restrictions and re-dispatching
if critical contingency is caused by the outage of the element which is shown as very stabile in sense of failure probability from the practical experience (like element operating few years without any unplanned outage)
3.3.3. HARMONIZATION OF THE VALUES
The same TTC and NTC value is usually calculated by the two neighbouring TSOs (and for both directions), and then it is subject of harmonization. The values of calculated transfer capacities should be compared, along with the comprehensive results of calculation (like lists of observed outages and detected critical contingencies).
Since each TSO is responsible for the operation of its network, it also has the final word in harmonization of the transfer capacities, in cases where the critical contingencies appear at the elements of its network.
Also, as described in previous chapter, the TSOs can notify each other about the practical sense of some detected contingencies (is it realistic or not, are the post-event measures possible...)
In case if the agreement between the two TSOs, the lower between the two values for the corresponding border and direction is taken as valid.
3.15
3.3.4. SIMULTANEOUSLY FEASIBLE (COMPOSITE) TRANSFER CAPACITIES The TTC values are currently the basis for applied mechanisms for allocation of the transmission capacity at almost all European borders2. Nevertheless, the strong interdependence between some of the borders within the highly meshed European grid can seriously compromise the usage of classically calculated TTCs as bilaterally agreed values. The effect of parallel flows, i.e. the physical flows containing the natural flows and the loop flows originated by the scheduled transactions at some “third” borders, often endanger the operational security of the transmission grid, even if all the calculated NTCs are respected. A simple example can show the main side of this problem: If TTC (or NTC) is calculated for the export of system A towards system C, the generation is increased in A and decreased in C until the security limits are breached. Thus the value TTC A→C is obtained. In this case the generation in system B remains as in the base case. If then the TTC (B→C) is calculated, the base case model is again the starting point, and the generation is increased in B and decreased in C, while the generation in B is as in the base case.
Figure 3.5
If the two bilaterally agreed values TTC (A→C) and TTC (B→C) are offered to the market, the final operational regime can be dangerous from the security point of view (although both TTCs are “correctly” calculated), sine the borders A→C and B→C are interdependent. The values TTC (A→C) and TTC (B→C) are not cumulative, i.e. the value TTC (A→C) + TTC (B→C) cannot be offered to the market. One of the possible ways to mitigate this problem is the calculation of so-called “composite”, or “bundled” TTC, which can be treated as simultaneously feasible. First the highly interdependent borders or regional cross-sections should be detected (can comprise two or more bilateral borders). In the above example, the composite TTC can be calculated by the simultaneous generation increase in systems A+B (according to the predefined generation shift scenario), and decrease in system C. Thus the joint TTC for the border (A+B)→C is calculated. If necessary, it can later on be fractioned per the bilateral borders A→C and B→C (e.g. in proportion to the physical power flows, “TTFs” at these borders).
2 Methods that use NTC: first come-first served, pro-rata rationing, explicit and implicit auctions, market splitting
3.16
The principle of simultaneous generation shift in more than one exporting (or importing) area can also be used in case of calculation the TTCs over the third, transit systems. If this system (figure 6) is typically the transit system for the electricity exchanges between A and C, the calculation of TTC by increasing the generation only in B would lead to unrealistically small capacity. Therefore the generation can be increased in (A+B) simultaneously and lead to more accurate transfer capabilities results.
Figure 3.6
3.3.5. TRANSFER CAPACITIES BETWEEN NON-NEIGHBOURING SYSTEMS As already explained, ETSO definitions for the transfer capacities are always related to the neighbouring systems, i.e. to the border between the neighbouring systems, containing at least one interconnection line. However, the principles used in TTC calculation (simultaneous increase/decrease of generation in exporting/importing system) can be generalized with a goal of determination the maximum secure exchange scenarios between also non-neighbouring systems also.
The calculation procedure for TTC can be applied for this purpose, but under assumptions:
Arbitrary assessment of BCE; It is sometimes is hard to determine BCE even for the classical TTC (for the bilateral border). Since in calculation of transfer capacities among distant systems there is no longer a bilateral border, the Base Case Exchanges among the concerned systems should be determined on the level of all TSOs involved
Consequently to the above, the physical values typically related to the respective border (NTF, ∆Fmax, TTF) cannot be determined. Luckily, their assessment is not absolutely necessary in TTC assessment
The list of observed outages, as well as the list of detected contingencies should comprise the elements within all affected systems (source, sink, and systems in the middle).
3.17
3.4. Generation shifting lists BULGARIA Increasing the generation should start from the top of the list, and decreasing should start from the bottom of the list. Maximum and minimum generation should be set according to this list.
Table 3.4 – Bulgaria – Generation shifting list
Price Bus No Name Pmax Pmin 1 13310 VHCH34G 19.000 428 0 2 13404 VNKOZ_G9 24.000 1015.8 0 3 13602 VTVARNG3 15.750 224 0 3 13603 VTVARNG4 15.750 210 0 3 13604 VTVARNG5 15.750 210 0 3 13605 VTVARNG6 15.750 210 0
GEORGIA
Table 3.5 – Georgia - Generation shifting list Winter
Price Bus No Name Pmax Pmin 1 20104 6HENGUG4 240 25 1 20105 6HENGUG5 240 25
Table 3.6 – Georgia - Generation shifting list Summer
Price Bus No Name Pmax Pmin 1 20104 6HENGUG4 240 25 1 20105 6HENGUG5 240 25 1 20103 6HENGUG3 240 25
MOLDOVA Increasing the generation in Moldova should start from the top of the list, and decreasing should start from the bottom of the list. Maximum and minimum generation should be set according to this list.
Table 3.7 – Moldova - Generation shifting list bus Machine name ID Status BC P Pmax Pmin 38016 5KOHPPG 10.500 1 1 16 16 0 38010 5DHPP1G 10.500 3 1 6 12 0 38010 5DHPP1G 10.500 4 1 6 12 0 38011 5DHPP2G 10.500 1 1 6 12 0 38011 5DHPP2G 10.500 2 1 6 12 0 38001 5KSPP2G1 10.500 2 1 70 80 0 38002 5KSPP2G2 10.500 1 1 72 80 0 38003 5KSPP2G3 10.500 3 1 68 80 0 38004 5KSPP2G4 10.500 4 1 68 70 0 30103 5MGRESG3 15.750 3 0 0 0 0 30104 5MGRESG4 15.750 4 0 0 150 0 30105 5MGRESG5 15.750 5 0 0 180 0 30106 5MGRESG6 15.750 6 0 0 0 0 30107 5MGRESG7 15.750 7 1 150 190 0 30108 5MGRESG8 15.750 8 0 0 170 0
3.18
30109 5MGRESG9 15.750 9 1 150 200 0 30111 5MGRESGA 15.750 10 0 0 200 0 30140 5MGRESGB 15.750 11 1 195.81 210 0 30141 5MGRESGC 15.750 12 0 0 210 0 30150 5MGRESG1 15.750 1 0 0 80 0 30151 5MGRESG2 15.750 2 0 0 0 0 30197 5MGRE3G2 10.500 2G 0 0 27 0 30198 5MGRE3G1 10.500 1G 1 30 27 0 38005 5KSPP1G5 6.3000 5 1 10 25 0 38006 5KSPP1G6 6.3000 1 1 9 12 0 38006 5KSPP1G6 6.3000 2 1 9 12 0 38006 5KSPP1G6 6.3000 4 1 9 10 0 38006 5KSPP1G6 6.3000 6 1 2 5 0 38012 5BSPP1G 10.500 4 1 6 8.4 0 38013 5BSPP2G 6.3000 3 1 9 12 0 38022 5BALTSG1 15.750 1 1 150 150 0 38023 5BALTSG2 15.750 3 1 150 150 0 38024 5BALTSG3 15.750 2 1 150 150 0 36056 5BURLAG 15.750 1 1 50 150 0 31008 5DONDU5 110.00 1 1 6 6 0 31009 5DROKI5 110.00 1 1 6 6 0 31010 5EDINE5 110.00 1 1 12 12 0 32018 5REZIN5 110.00 1 1 6 6 0 32027 5FALES5 110.00 1 1 6 6 0 32028 5FLORE5 110.00 1 1 9 9 0 33090 5RIBNT52 110.00 1 0 0 12 0 34017 5NANEN5 110.00 1 1 15 16 0 34022 5ORHEI5 110.00 1 1 20 20 0 34056 5SHTEF5 110.00 1 1 6 6 0 34057 5KISHI5 110.00 1 1 30 30 0 36028 5TARAK51 110.00 1 1 6 6 0 38018 5GORBOG 6.3000 1 1 4 6 0 38018 5GORBOG 6.3000 2 0 0 6 0
ROMANIA Machines are in ascending rank related to delivery price of energy - Regulatory Authority Decision, published in Romanian Official Journal
Table 3.8 – Romania – Generation shifting list
Price Bus No Name Pmax Pmin 1 49189 RP.D.FG1 190 80 1 49190 RP.D.FG2 190 80 1 49191 RP.D.FG3 190 80 1 49192 RP.D.FG4 190 80 1 49193 RP.D.FG5 190 80 1 49250 RP.D.FG6 190 80 1 49194 RGRUIAG2 60 5.5 1 49195 RGRUIAG4 60 5.5 1 49196 RGRUIAG8 60 5.5 1 49199 RGRUIAG6 60 5.5 1 49232 RLOTRUG1 170 20 1 49233 RLOTRUG2 152 20 1 49234 RLOTRUG3 152 20 2 49218 RCERNAG1 690 555
3.19
2 49332 RCERNAG2 690 555 2 49470 RCERNAG3 690 555 3 49119 RROVING5 287 185 3 49120 RROVING6 277 185 3 49121 RROVING3 277 185 4 49110 RTURCEG1 284 174 4 49112 RTURCEG3 285 174 4 49113 RTURCEG4 291 175 4 49114 RTURCEG5 280 174 4 49116 RTURCEG6 280 174 4 49117 RTURCEG7 280 190 5 49198 RCRAI G2 118 70 5 49200 RCRAI G1 118 70 5 49184 RISALNG7 277 130 5 49185 RISALNG8 290 130 6 49167 RMINTIG1 185 140 6 49168 RMINTIG2 185 140 6 49169 RMINTIG5 185 140 7 49221 RBARBOG5 99.8 57.1 7 49224 RBARBOG3 100 57.1 7 49225 RSMARDG6 99.8 57.1 7 49310 RSMARDG4 52.6 33.4 8 49136 RBUC.SG5 100 60 8 49137 RBUC.SG6 100 60 8 49138 RBUC.SG3 100 50 8 49139 RBUC.SG1 50 30 8 49317 RBUC.SG2 50 30 8 49318 RBUC.SG4 100 50 9 49201 RBORZEG7 182.4 145.9 9 49202 RBORZEG8 173.3 145.9 9 49203 RBORZEG6 60 37 9 49205 RBORZEG4 50 37 9 49206 RBORZEG5 50 37 9 49219 RBRAILG1 212 110 9 49220 RBRAILG2 188 110 9 49299 RBRAILG3 180 110 9 49269 RPAROSG1 29 12 9 49270 RPAROSG2 34.8 12 9 49271 RPAROSG3 29 12 9 49263 RPAROSG4 150 77 9 49301 RDOICEG8 160 90 9 49302 RDOICEG7 160 90
Obs. Increasing power in Romania machines has to be done from price 1 to price 9 (start from the top of the list), Decreasing power in Romania machines, has to be done from price 9 to price 1 (start from the bottom of the list),
3.20
RUSSIA Increasing power in Russian machines has to be done from price 1 to price 4 (start from the top of the list). Decreasing power in Russian machines has to be done from price 4 to price 1 (start from the bottom of the list).
Table 3.9 – Russia – Generation shifting list
Price Bus No Name Pmax Pmin 1 51420 4VGGESG7 13.800 115 3 1 51421 4VGGESG8 13.800 115 3 1 51422 4VGGESG9 13.800 115 3 1 51423 4VGGESG0 13.800 115 3 1 51424 4VGGESGA 13.800 115 3 1 51425 4VGGESGB 13.800 115 3 1 51426 4VGGESGG 13.800 115 3 1 51427 4VGGESGH 13.800 115 3 1 51428 4VGGESGI 13.800 115 3 1 51429 4VGGESGJ 13.800 115 3 1 51430 4VGGESGK 13.800 115 3 1 51431 4VGGESGL 13.800 115 3 1 51432 4VGG34G 13.800 115 3 1 51432 4VGG34G 13.800 115 3 1 51433 4VGG56G 13.800 115 3 1 51433 4VGG56G 13.800 115 3 1 51434 4VGG13G 13.800 115 3 1 51434 4VGG13G 13.800 115 3 1 51435 4VGG15G 13.800 115 3 1 51435 4VGG15G 13.800 115 3 1 58744 4CHGESG3 250 50 1 58745 4CHGESG1 250 50 1 58746 4CHGESG2 250 50 1 58747 4CHGESG4 250 50 2 58311 4NEVGRG1 150 80 2 58387 4NEVGRG2 150 80 2 58388 4NEVGRG3 150 80 2 58389 4NEVGRG4 150 80 2 58314 4NEVGRG5 100 70 2 58385 4NEVGRG6 150 80 2 58386 4NEVGRG7 150 80 2 58390 4NEVGRG8 150 130 2 51462 4KAES2G3 20.000 500 300 2 51463 4KAES2G4 20.000 500 300 3 58301 4STGRSG1 300 150 3 58380 4STGRSG2 300 150 3 58381 4STGRSG3 300 150 3 58382 4STGRSG4 300 150 3 58383 4STGRSG5 300 150 3 58384 4STGRSG6 300 150 3 58358 4STGRSG7 300 150 3 58359 4STGRSG8 300 150
3.21
3 51400 4RGRESG4 20.000 300 150 3 51401 4RGRESG5 24.000 800 400 3 51402 4RGRESG6 24.000 800 400 3 51403 4RGRESG7 20.000 300 150 3 51404 4RGRESG1 20.000 300 150 3 51405 4RGRESG2 20.000 300 150 3 51406 4RGRESG3 20.000 300 150 4 58149 4NCHGRG1 264 200 4 58183 4NCHGRG2 264 225 4 58184 4NCHGRG3 264 200 4 58185 4NCHGRG4 264 225 4 58186 4NCHGRG5 264 225 4 58187 4NCHGRG6 264 225 4 58195 4NCHGRG7 264 225 4 58196 4NCHGRG8 264 225
TURKEY The shift list prepared for 1200 MW energy transfer in both directions according to the imp./exp.scenario of Turkey for 2010.
Table 3.10 – Turkey – Generation shifting list for RO to TR EXPORT
Summer Bus Number Bus name Shift ID
60801 G-4HAMIT 100 1 60801 G-4HAMIT 100 2 60801 G-4HAMIT 111,5 3 60843 G-4AMBR 138,8 1 60843 G-4AMBR 138,8 2 60844 G-4AMBR 172,8 1 60903 G-4TUNC 159,8 1 60908 G-TUNC B 159,8 1 60909 G-TUNC A 65,6 1 60929 G-4SOMA 165 1 60929 G-4SOMA 165 2
TOTAL: 1477,1 MW Winter
Bus Number Bus name Shift ID 60805 G-4HAMIT 100 7 60805 G-4HAMIT 100 8 60805 G-4HAMIT 111,5 9 60848 G-4AMBR 138,8 1 60848 G-4AMBR 138,8 2 60849 G-4AMBR 172,8 1 60935 G-4SOMA 165 6 60945 G-4YATAG 210 3 60913 G-SEYITO 159,8 1 60931 G-ALIDG 36 1 60931 G-ALIDG 36 2 60931 G-ALIDG 31 3
TOTAL: 1399,7 MW
3.22
Table 3.11 - Turkey – Generation shifting list for TR to RO IMPORT
Summer Bus Number Bus name Shift ID
60801 G-4HAMIT -100,3 6 60801 G-4HAMIT -111,5 A 60847 G-AMB2B -124,9 1 60848 G-AMB2B -155,5 1 60922 G-4ALIB -221,1 1 60922 G-4ALIB -221,1 2 60923 G-4ALIB -240,2 1 60852 G-AMBFO -150 1
TOTAL: -1324,6 MW
Winter Bus Number Bus name Shift ID
60805 G-4HAMIT -90 1 60805 G-4HAMIT -90 2 60805 G-4HAMIT -100,3 3 60850 G-4HABIP -143 1 60850 G-4HABIP -143 2 60850 G-4HABIP -155 3 60851 G-4AMB2A -124,9 1 60851 G-4AMB2A -124,9 2 60852 G-4AMB2A -155,5 1 60909 G-4TUNC -143,8 1 60914 G-TUNC B -143,8 1
TOTAL: -1414,2 MW The shift list prepared for 1200 MW energy transfer in both directions according to the imp./exp.scenario of Turkey for 2010.
Table 3.12 - Turkey – Generation shifting list for TR to UCTE
EXPORT Summer Bus Number Bus name Shift ID
60801 G-4HAMIT 100 1 60801 G-4HAMIT 100 2 60801 G-4HAMIT 111,5 3 60843 G-4AMBR 138,8 1 60843 G-4AMBR 138,8 2 60844 G-4AMBR 172,8 1 60903 G-4TUNC 159,8 1 60908 G-TUNC B 159,8 1 60909 G-TUNC A 65,6 1 60929 G-4SOMA 165 1 60929 G-4SOMA 165 2
TOTAL: 1477,1 MW Winter Bus Number Bus name Shift ID
60805 G-4HAMIT 100 7 60805 G-4HAMIT 100 8 60805 G-4HAMIT 111,5 9
3.23
60848 G-4AMBR 138,8 1 60848 G-4AMBR 138,8 2 60849 G-4AMBR 172,8 1 60935 G-4SOMA 165 6 60945 G-4YATAG 210 3 60913 G-SEYITO 159,8 1 60931 G-ALIDG 36 1 60931 G-ALIDG 36 2 60931 G-ALIDG 31 3
TOTAL: 1399,7 MW Table 3.13 - Turkey – Generation shifting list for UCTE to TR
IMPORT Summer Bus Number Bus name Shift ID
60801 G-4HAMIT -100,3 6 60801 G-4HAMIT -111,5 A 60847 G-AMB2B -124,9 1 60848 G-AMB2B -155,5 1 60922 G-4ALIB -221,1 1 60922 G-4ALIB -221,1 2 60923 G-4ALIB -240,2 1 60852 G-AMBFO -150 1
TOTAL: -1324,6 MW Winter Bus Number Bus name Shift ID
60805 G-4HAMIT -90 1 60805 G-4HAMIT -90 2 60805 G-4HAMIT -100,3 3 60850 G-4HABIP -143 1 60850 G-4HABIP -143 2 60850 G-4HABIP -155 3 60851 G-4AMB2A -124,9 1 60851 G-4AMB2A -124,9 2 60852 G-4AMB2A -155,5 1 60909 G-4TUNC -143,8 1 60914 G-TUNC B -143,8 1
TOTAL: -1414,2 MW The shift list prepared for 650 MW energy transfer in both directions according to the imp./exp.scenario of Turkey for 2010.
Table 3.14 - Turkey – Generation shifting list for TR to RU EXPORT Summer Bus Number Bus name Shift ID
61036 G-4BORCK 138 2 61037 G-4DERIN 167,4 2 61037 G-4DERIN 167,4 3 61038 G-4MURATL 58,8 1 61038 G-4MURATL 58,8 2 61057 G-4KEBAN 157,5 4
TOTAL: 747,9 MW Winter
3.24
Bus Number Bus name Shift ID 61062 G-4KARAK 300 5 61062 G-4KARAK 300 6 61059 G-4ATATU 300 4
TOTAL: 900 MW Table 3.15 - Turkey – Generation shifting list for RU to TR
IMPORT Summer Bus Number Bus name Shift ID
61036 G-4BORCK -138 1 61062 G-4KARAK -270 3 61062 G-4KARAK -270 4 61044 G-4ATATU -270 4
TOTAL: -948 MW Winter Bus Number Bus name Shift ID
61050 G-4BORCK -138 1 61050 G-4BORCK -138 2 61062 G-4KARAK -270 3 61072 G-4KEBAN -162,9 7
TOTAL: -708,9 MW UKRAINE
Table 3.16 - Ukraine – Generation shifting list for UA to CE Winter Node Order Pbasecase DP+
[MW] [MW] 79918 1 81 110 79917 2 130 15 79916 3 130 30 79915 4 130 15 79914 5 130 579909 6 130 15 79926 7 140 10 79919 8 0 160 79913 9 0 190 79911 10 0 190 79904 11 210 10 79927 12 0 150 79826 13 0 240 79903 14 210 10 79827 15 0 240 79902 16 210 10 79823 17 0 240 79901 18 210 10 70806 19 117 100 70805 20 260 200 79700 21 108 279701 22 108 279707 23 245 10 79719 24 240 16 79722 25 250 10 79723 26 250 10 79720 27 140 150
3.25
79724 28 140 150 79725 29 140 150 79726 30 240 60 79727 31 230 70 79728 32 230 70 79321 33 0 300 79345 34 217 50
TOTAL 3000 Table 3.17 - Ukraine – Generation shifting list for CE to UA Winter
Node Order Pbasecase DP+ [MW] [MW]
79908 1 200 -200 79909 2 130 -130 79914 3 130 -130 79915 4 130 -130 79916 5 130 -130 79917 6 130 -130 79900 7 116 -10 79927 8 140 -140 79900 9 1000 -1000 79808 10 1000 -1000
TOTAL -3000 Table 3.18 - Ukraine – Generation shifting list for UA to CE Summer
Node Order Pbasecase DP+ [MW] [MW]
79009 1 0 290 79180 2 280 10 79010 3 0 290 79181 4 0 290 79133 5 80 70 79134 6 0 150 79135 7 0 150 79136 8 0 150 79137 9 0 150 79174 10 0 750 79170 11 212.5 50 79171 12 212.5 50 79172 13 212.5 50 79173 14 212.5 50 79159 15 0 500
TOTAL 3000 Table 3.19 - Ukraine – Generation shifting list for CE to UA Summer
Node Order Pbasecase DP+ [MW] [MW]
79101 1 170 -170 79102 2 170 -30
79130(4) 3 150 -150 79130(5) 4 150 -150
79170 5 212.5 -12.5 79171 6 212.5 -12.5 79172 7 212.5 -212.5 79173 8 212.5 -212.5 79179 9 800 -800 79009 10 0 250
3.26
79140 11 200 -200 79143 12 200 -200 79144 13 200 -200 79309 14 800 -800 79338 15 700 -100
TOTAL -3000 Table 3.20 - Ukraine – Generation shifting list for UA to SEE Winter
Node Order Pbasecase DP+ [MW] [MW]
79908 1 0 200 79910 2 0 200 79912 3 0 200 79911 4 0 190 79913 5 0 190 79909 6 130 10 79915 7 130 10 79918 8 61 100 79919 9 0 150 79926 10 0 150 79927 11 0 150 79900 12 0 1000 79808 13 950 50 79825 14 0 250 79826 15 0 150
TOTAL 3000 Table 3.21 - Ukraine – Generation shifting list for SEE to UA Winter
Node Order Pbasecase DP+ [MW] [MW]
79914 1 130 -130 79915 2 130 -130 79916 3 130 -130 79917 4 130 -10 79985 5 1000 -1000 79808 6 1000 -1000 79719 7 200 -200 79599 8 1000 -200 79520 9 1000 -200
TOTAL -3000 Table 3.22 - Ukraine – Generation shifting list for UA to SEE Summer
Node Order Pbasecase DP+ [MW] [MW]
79009 1 230 50 79010 2 230 50 79180 3 0 250 79181 4 0 250 79172 5 0 250 79173 6 0 250 79141 7 0 200 79142 8 0 200 79144 9 0 200 79132 10 0 150 79133 11 0 150 79134 12 0 150 79135 13 0 150
3.27
79136 14 0 150 79103 15 0 150 79104 16 0 150 79105 17 0 150 79106 18 0 100
TOTAL 3000 Table 3.23 - Ukraine – Generation shifting list for SEE to UA Summer
Node Order Pbasecase DP+ [MW] [MW]
79313 1 1000 -1000 79599 2 1000 -1000 79808 3 1000 -1000
TOTAL -3000 EQUIVALENT For the purpose of modeling additional exchanges, folowing loads are added to the BSR model
Table 3.24
BUS# BUS NAME VOLT. ID AREA AREA NAME 80001 ZRZE421 400 EQ 12 PL 80004 ZZAM212 220 EQ 12 PL 80054 QVKAP_1 400 EQ 11 SK 80109 JRPMLA1 400 EQ 13 CS 80113 JTKOSB1 400 EQ 13 CS 80151 MAISA 1 400 EQ 15 HU 80154 MGOD 1 400 EQ 15 HU 80255 GAGDHM1 400 EQ 17 GR 80256 GKADIA1 400 EQ 17 GR
Table 3.25
FROM UCTE TO TURKEY BUS# BUS NAME VOLT. ID AREA AREA NAME % 80001 ZRZE421 400 EQ 12 PL 20% 80054 QVKAP_1 400 EQ 11 SK 20% 80113 JTKOSB1 400 EQ 13 CS 60% FROM UKRAIN AND RUSSIA TO SEE AND VS BUS# BUS NAME VOLT. ID AREA AREA NAME % 80001 ZRZE421 400 EQ 12 PL 15% 80151 MAISA 1 400 EQ 15 HU 10% 80255 GAGDHM1 400 EQ 17 GR 40% 80256 GKADIA1 400 EQ 17 GR 35% FROM UKRAIN AND RUSSIA TO WEST EUROPE AND VS BUS# BUS NAME VOLT. ID AREA AREA NAME % 80001 ZRZE421 400 EQ 12 PL 40% 80004 ZZAM212 220 EQ 12 PL 5% 80054 QVKAP_1 400 EQ 11 SK 10% 80113 JTKOSB1 400 EQ 13 CS 15% 80151 MAISA 1 400 EQ 15 HU 30%
%-percentage of total additional exchange to be modeled in marked bus as load
4.1
4. ANALISES RESULTS
4.1. Model summary BLACK SEA REGIONAL MODEL AREA TOTALS WINTER MAXIMUM LOAD 2010 IN MW/MVAR FROM TO TO BUS TO LINE FROM TO DESIRED X-- AREA --X GENERATION LOAD SHUNT SHUNT CHARGING NET INT LOSSES NET INT 1 8023.0 7854.0 0.0 14.3 0.0 0.0 154.7 0.0 BG 2800.6 2791.1 0.0 119.6 2275.2 89.1 2076.0 2 2006.0 2057.0 0.0 106.6 0.0 -200.0 42.4 -200.0 GE 428.8 1038.0 0.0 -106.6 847.5 -85.9 430.8 3 1523.4 1188.1 0.0 0.0 0.0 300.0 35.4 300.0 MD 329.7 503.1 0.0 0.0 509.7 77.3 259.0 4 9868.9 9534.1 0.0 86.0 0.0 50.0 198.7 50.0 RO 3207.4 3574.7 1259.5 274.9 4496.3 263.9 2330.7 5 19199.3 16903.7 21.5 15.9 0.0 1550.0 708.2 1550.0 RU 15961.4 16218.9 4101.2 122.4 11626.2 416.5 6728.7 6 33598.5 33209.2 0.1 0.0 0.0 -150.0 539.2 -150.0 TR 6329.6 5452.0 1663.7 0.0 8947.0 -206.2 8367.1 7 32610.2 30515.5 9.8 70.6 0.0 1250.1 764.2 1250.0 UA 10992.8 10050.9 7876.2 703.3 16307.6 -698.3 9368.3 8 2390.8 930.6 0.0 0.0 0.0 1400.0 60.2 1400.0 AM 316.4 309.5 0.0 0.0 658.7 182.5 483.1 9 0.0 217.2 0.0 0.0 0.0 -220.0 2.8 -220.0 AZ 0.0 30.0 0.0 0.0 36.6 -10.1 16.7 10 6009.7 6961.3 9.5 0.5 0.0 -1000.0 38.4 -1000.0 BY 1551.6 1626.4 597.6 2.1 1099.9 86.5 338.8 11 6.7 277.0 0.0 0.0 0.0 -280.0 9.7 -280.0 SK 144.0 -22.0 0.0 0.0 396.2 458.8 103.4 12 -187.7 -358.3 0.0 0.0 0.0 159.9 10.8 160.0 PL -404.7 251.6 0.0 2.3 626.4 -174.6 142.4 13 1.3 494.8 0.0 0.0 0.0 -530.0 36.4 -530.0 CS -9.8 777.6 0.0 0.0 867.2 -343.4 423.2 15 1578.7 2287.6 0.0 0.0 0.0 -730.0 21.1 -730.0 HU -27.4 801.4 573.2 2.6 1568.7 -135.1 299.1 16 2.5 100.5 0.0 0.0 0.0 -100.0 2.0 -100.0 MK -51.7 299.3 0.0 0.0 302.5 -70.7 22.2 17 -5.7 286.2 0.0 0.0 0.0 -300.0 8.1 -300.0 GR 93.8 750.0 0.0 0.0 933.3 192.3 84.7 18 12.5 1200.0 0.0 0.2 0.0 -1200.0 12.3 -1200.0 IR -42.2 45.2 0.0 0.5 122.8 -42.7 77.5 ------------------------------------------------------------------------------------ TOTALS 116638.2 113658.5 41.0 294.1 0.0 0.0 2644.6 0.0 41620.2 44497.9 16071.4 1121.1 51621.8 0.0 31551.6
4.2
BLACKSEA REGIONAL MODEL AREA TOTALS SUMMER MINIMUM LOAD 2010 IN MW/MVAR FROM TO TO BUS TO LINE FROM TO DESIRED X-- AREA --X GENERATION LOAD SHUNT SHUNT CHARGING NET INT LOSSES NET INT 1 3020.4 2958.1 0.0 12.4 0.0 0.0 49.9 0.0 BG 507.7 1096.8 903.6 91.2 2345.0 62.1 698.9 2 1063.9 713.0 0.0 127.9 0.0 200.3 22.7 200.0 GE 139.3 497.0 529.6 -127.9 865.8 -118.5 224.8 3 1203.3 888.0 0.0 0.0 0.0 300.0 15.4 300.0 MD 27.7 375.3 0.0 0.0 553.2 75.5 130.1 4 4126.2 3936.2 0.0 80.9 0.0 49.9 59.2 50.0 RO 595.9 1944.6 2108.3 247.3 4526.1 3.3 818.6 5 13430.7 11601.7 22.6 15.3 0.0 1550.0 241.1 1550.0 RU 1732.6 5478.2 5443.1 101.7 12175.3 260.0 2624.8 6 18695.7 19114.0 -3.2 0.0 0.0 -649.6 234.6 -650.0 TR 1571.3 2725.1 3807.5 0.0 8881.4 -205.4 4125.6 7 16928.2 15366.6 9.1 68.8 0.0 1149.5 334.1 1150.0 UA 4937.3 7406.6 8832.5 645.9 16595.4 -345.0 4992.7 8 1937.2 480.6 0.0 0.0 0.0 1400.1 56.5 1400.0 AM 339.2 357.5 0.0 0.0 641.6 192.7 430.6 9 0.0 65.0 0.0 0.0 0.0 -65.2 0.2 0.0 AZ 0.0 30.0 0.0 0.0 46.7 15.6 1.2 10 6010.1 6961.3 9.5 0.5 0.0 -1000.0 38.7 -1000.0 BY 1408.5 1626.4 598.4 2.1 1167.1 26.5 322.1 11 2.8 477.0 0.0 0.0 0.0 -480.2 6.0 -480.0 SK 148.0 238.0 0.0 0.0 411.7 257.7 64.0 12 -249.4 -301.7 0.0 0.0 0.0 45.2 7.1 -20.0 PL -380.0 196.7 0.0 2.4 640.2 -55.5 116.7 13 16.7 71.8 0.0 0.0 0.0 -70.0 14.9 -70.0 CS -242.1 703.1 0.0 0.0 940.5 -177.6 173.0 15 7.2 559.3 0.0 0.0 0.0 -570.0 17.9 -570.0 HU 15.1 830.0 539.0 1.5 1557.0 -86.6 288.1 16 -1.5 97.6 0.0 0.0 0.0 -100.0 1.0 -100.0 MK -16.4 211.9 0.0 0.0 318.0 78.9 10.8 17 -3.1 548.1 0.0 0.0 0.0 -560.0 8.8 -560.0 GR 160.8 943.2 0.0 0.0 947.1 69.2 95.6 18 12.1 1200.0 0.0 0.2 0.0 -1200.0 11.9 -1200.0 IR -51.6 45.2 0.0 0.5 120.7 -52.8 76.1 ------------------------------------------------------------------------------------ TOTALS 66200.5 64736.6 38.0 305.9 0.0 0.0 1120.0 0.0 10893.2 24705.5 22762.2 964.7 52732.7 0.0 15193.6
4.3
4.2. Area interchange BLACK SEA REGIONAL MODEL AREA WINTER MAXIMUM LOAD 2010 INTERCHANGE TO AREA: 1 2 3 4 5 6 7 8 10 11 12 13 15 16 17 18 19 FROM AREA *------------------------------------------------------------------------------------------------------ 1 * -900 233 162 155 350 BG * -37 75 62 -11 1 *------------------------------------------------------------------------------------------------------ 2 * 280 -266 -214 0 GE * -33 56 -109 0 *------------------------------------------------------------------------------------------------------ 3 * 486 -186 MD * -84 161 *------------------------------------------------------------------------------------------------------ 4 * 900 -486 -402 190 -153 RO * 37 84 11 140 -8 *------------------------------------------------------------------------------------------------------ 5 * -280 757 220 854 RU * 33 413 10 -40 *------------------------------------------------------------------------------------------------------ 6 * -233 266 14 -198 TR * -75 -56 -31 -45 *------------------------------------------------------------------------------------------------------ 7 * 186 402 -757 146 -239 593 918 UA * -161 -11 -413 -47 -52 30 -44 *------------------------------------------------------------------------------------------------------ 8 * 214 -14 1200 AM * 109 31 43 *------------------------------------------------------------------------------------------------------ 9 * 0 -220 AZ * 0 -10 *------------------------------------------------------------------------------------------------------ 10 * -854 -146 BY * 40 47 *------------------------------------------------------------------------------------------------------ 11 * 239 -753 234 SK * 52 145 262 *------------------------------------------------------------------------------------------------------ 12 * -593 753 PL * -30 -145 *------------------------------------------------------------------------------------------------------ 13 * -162 -190 -269 92 CS * -62 -140 -75 -67 *------------------------------------------------------------------------------------------------------ 15 * 153 -918 -234 269 HU * 8 44 -262 75 *------------------------------------------------------------------------------------------------------ 16 * -155 -92 147 MK * 11 67 -148 *------------------------------------------------------------------------------------------------------ 17 * -350 198 -147 GR * -1 45 148 *------------------------------------------------------------------------------------------------------ 18 * -1200 IR * -43 *------------------------------------------------------------------------------------------------------
4.4
BLACKSEA REGIONAL MODEL AREA SUMMER MINIMUM LOAD 2010 INTERCHANGE TO AREA: 1 2 3 4 5 6 7 8 10 11 12 13 15 16 17 18 19 FROM AREA *------------------------------------------------------------------------------------------------------ 1 * -904 407 -16 144 369 BG * -1 97 -17 -42 25 *------------------------------------------------------------------------------------------------------ 2 * 279 29 -108 0 GE * -21 45 -142 0 *------------------------------------------------------------------------------------------------------ 3 * 457 -157 MD * 58 17 *------------------------------------------------------------------------------------------------------ 4 * 904 -457 -401 133 -130 RO * 1 -58 -29 135 -46 *------------------------------------------------------------------------------------------------------ 5 * -279 1064 65 700 RU * 21 282 -16 -28 *------------------------------------------------------------------------------------------------------ 6 * -407 -29 -92 -122 TR * -97 -45 2 -65 *------------------------------------------------------------------------------------------------------ 7 * 157 401 -1064 300 -181 542 994 UA * -17 29 -282 1 -78 -70 73 *------------------------------------------------------------------------------------------------------ 8 * 108 92 1200 AM * 142 -2 53 *------------------------------------------------------------------------------------------------------ 9 * 0 -65 AZ * 0 16 *------------------------------------------------------------------------------------------------------ 10 * -700 -300 BY * 28 -1 *------------------------------------------------------------------------------------------------------ 11 * 181 -588 -74 SK * 78 126 54 *------------------------------------------------------------------------------------------------------ 12 * -542 588 PL * 70 -126 *------------------------------------------------------------------------------------------------------ 13 * 16 -133 -221 268 CS * 17 -135 6 -66 *------------------------------------------------------------------------------------------------------ 15 * 130 -994 74 221 HU * 46 -73 -54 -6 *------------------------------------------------------------------------------------------------------ 16 * -144 -268 313 MK * 42 66 -29 *------------------------------------------------------------------------------------------------------ 17 * -369 122 -313 GR * -25 65 29 *------------------------------------------------------------------------------------------------------ 18 * -1200 IR * -53 *------------------------------------------------------------------------------------------------------
4.5
4.3. Load flow analyses
BULGARIA
4.6
4.3.1. BULGARIA
BULGARIA
4.7
Figure 4.1 – Bulgaria – Load flows for Winter 2010 regime
BLACK SEA REGIONAL MODEL¼WINTER MAXIMUM LOAD 2010¼* MON, MAR 19 2007 14:14
411.9
11.4
237.
3
44.6
236.
6
403.6
405.0
405.7
406.7 403.8
12430VSTOLN1
401.7
414.9414.9
12437VVETRE1
407.3
12480VPLOVD1
12472VMI2 1
418.5
410.9
401.9
12435VCHAIR11
407.6
12436VCHAIR12
400.0
22XKO_TI11
23XKO_TI12
412.7
24XSO_NI11
401.5
408.8
21XDO_IS11
415.6
207XCM_ST11
406.3
541.
5
54.2
546.
5
41.7
518.
4
40.6
524.
8
26.2
208.
9
74.2
208.
5
51.1
208.
9
74.2
208.
5
51.1
130.
5
46.1
130.
3
3.4
130.
5
46.1
130.
3
3.4
547.
9
60.6
545.
2490.4
50.2 318.
1
18.7
320.
7
27.5
357.
4
41.2
359.
9
12.8
184.
5
46.9
184.
9
4.0
149.
0
6.1
148.
6
53.1
311.6
79.8
313.2
34.5
22.3
81.9
74.3
79.0
74.4
35.8
59.0
26.6
59.0
32.3
169.
3
50.9
169.5
35.3
334.
2
3.0
333.
9
2.0
68.2
68.2
373.
3
373.
3
42.5
114.
1
44.0
114.
3
86.0
77.0
20.5
76.9
162.3
62.2
162.
6
42.2
154.9
11.0
155.
2
59.0
31.0
125.
8
30.8
33.0
11.7
0.0 11
.7
4.3
108.
0
42.5
372.
9
37.0
372.
9
37.0
487.212490VMIZIA1 12450
VCAREV1
33.2
12461VDOBRU1
12470VBURGA1
45.6
10.4
103.
6
400.4
12420VMETAL1
12432VCMOGI1
12433VBLAGO1
20XBG_TH11
31.7
125.
6
42.9
198XMI_HA11
419.5
12440VAEC_41
181XVA_IS11
415.9
77.9
39.1
16.1
77.8
42.5
23.2
418.3
9.0 1.1 9.
0
4.4
90.1
89.5
90.1
100.3276.
627
4.7
173.
6
46.8
45.1
131.
5
46.8
35.0103.5
12434VZLATI1
12460VVARNA1
404.3
45.1
280.
7
12474VMI 1
280.
7
67.7
12431VSOFIW1
280.
6
418.512475VTMI 15
418.512476VTMI 16
1.0181-3.28
1.0000
313.
6
112.
3
313.
0
99.312471
VMI3 11
280.
6100.0%RATEAKV: <=30.000 <=110.000 <=150.000 <=220.000 <=330.000 <=400.000 <=500.000 >500.000
Bus - VOLTAGE (KV)Branch - MW/MVAREquipment - MW/MVAR
197XMI_BA11
214XMI_NS11
400.012477VTMI 17
123.
8
408.
2
-6.04
92.9
407.
6
0.9950
12241VAEC_22
233.4
15.0
15.0
9.9
12242VBPC_22
8.9
233.2
50.3
25.1
50.2
13.6
50.3
25.1
50.2
13.6
12290VMIZIA2
234.6
351.
2
103.
2
351.
8
132.
6
1.0181
-3.28
92.9
23.2
231.7
12240VBOICH2
231.2
55.2
21.8
55.5
12.5
127.
1
4.2
128.
1
3.0
12261VMADAR2
233.0
2.0 19.7
2.0
2.1
12250VGORIA2
230.9
60.7 3.0
60.4
7.9
105.
8
16.4
106.512.9
133.
6
18.8
135.
9
16.5
82.0
5.7
82.0 5.3
97.9
18.7
96.9
11.4
12277VXXXXX21
238.0
12273VKARNO2
237.9
14.9 2.9
15.0
16.7
111.
9
60.8
111.0
62.7
12252VOCHIF2 219.2
116.
3
62.0
114.
6
62.3
109.
9
33.3
110.
1
26.1
0.9649
12263VVARNA2
237.9
10.9
81.9
10.9
82.9 12260VDOBRU2
239.2
82.0
56.5
82.1
53.1
82.0
56.5
82.1
53.112262
VTVARN2
240.9
122.
0
2.3
121.
2
0.112286
VUZUND2
236.3
12275VMI3 2
237.9
11.1
80.2
16.5
245.4
9.0
245.8 7.4
12276VSTZAG2
233.2
140.
0
38.6
138.
9
38.8
10.3 2.9
10.3
8.9
10.1 2.8
10.1
8.912274
VMI 2
237.6
99.5 9.5
98.4
16.7
92.8 0.8
91.3
8.612285
VPLOVD2
232.9
44.7
29.5
20.3
12282VORFEJ2
235.2
12288VXXXXX24
235.5
0.0 0.0
0.0
1.6
12283VDEVIN2
235.5
12280VALEKO2
31.0
31.0
16.5
51.6
32.7
51.7
30.6
12281VPESHT2
235.4
8.8 9.2
8.8
4.912284VTESHE2
235.5
8.8
3.1
8.8
3.2
26.5
28.3
26.3
15.3
49.8
6.3
49.2
19.0
26.5
28.3
26.3
15.3
25.4 8.8
25.4
10.9 8.8
25.4
25.4
10.9
74.1
10.9
73.7
18.2
74.1
10.9
73.7
18.2
95.3
32.4
95.7
34.1
95.3
32.4
95.7
34.1
12220VBELME2
234.4
12221VKAZIC2
231.5
30.4
19.6
30.4
19.6 12270
VCHUDO2
229.4
12287VXXXXX23
229.4
12222VSOFIJ2
231.1
94.3
26.3
95.0
21.6
94.3
26.3
95.0
21.6
12231VBOBOV2
234.9
54.5
28.2
54.7
23.0
54.8
59.3
55.4
51.9
12224VTSOFI2
225.2
61.8
77.6
62.3
76.1
12233VSESTR2
235.9
89.4
32.8
90.2
26.9
12223VGPP_12
228.5
43.9
132.9
44.1
132.
5
12232VSTOLN2
230.7
223.
0
23.8
223.
4
32.4
1.0500
4.2
7.2
4.2
18.4
12230VSTOMA2
232.5
18.8 2.7
18.9
0.6
12251VBALKA2
229.2
12271VTVARD2
233.8
63.1
8.0
63.1 7.9
169.
6
171.3
23.7
20.8
12278VXXXXX22
233.9
12291VPLEVE21
26.8
92.4
12272VMI2 2
238.1
80.1
44.524.9
1.0433
194.
1
55.2
194.
5
62.5
-0.64
1.05
00
119.9
50.9
120.
8
49.6
27.1
7.6
27.2 6.5
94.5
24.1
94.0
27.5
28.8
44.0
28.7
46.5
1.0223
12731VTVN 5
120.6
BULGARIA
4.8
Figure 4.2 – Bulgaria – Load flows for Summer 2010 regime
BLACKSEA REGIONAL MODELW¼SUMMER MINIMUM LOAD 2010¼
* MON, MAR 19 2007 14:43
411.1
17.6
196.
5
39.7
196.
0
410.0
412.1
413.0
410.5 409.6
12430VSTOLN1
410.8
415.6415.8
12437VVETRE1
411.2
12480VPLOVD1
12472VMI2 1
415.0
413.3
410.7
12435VCHAIR11
410.6
12436VCHAIR12
400.0
22XKO_TI11
23XKO_TI12
411.2
24XSO_NI11
410.9
414.1
21XDO_IS11
419.5
207XCM_ST11
415.2
309.
3
18.9
310.
9
41.2
295.
4
12.1
297.
5
47.8
263.
2
99.2
262.
6
77.4
263.
2
99.2
262.
6
77.4
97.6
49.0
97.5
3.6
97.6
49.0
97.5
3.6
174.
4
20.1
174.
1155.6
15.3 28.9
48.2
28.9
25.7
243.
6
6.0
244.
8
50.1
157.
9
24.0
157.
6
30.1
204.
6
9.4
205.
3
54.6
84.3
56.6
84.2
10.3
144.8
40.5
37.7
35.1
37.7
11.0
42.7
5.2
42.7 0.8
15.9
15.4
15.9
33.7
362.
0
25.4
362.
3
20.7
215.
8
216.0
311.
8
311.
8
23.6
174.
3
15.1
174.
7
56.5
140.0
27.0
139.
7
16.3
16.8
16.3
39.9
144.3
41.7
144.
6
91.9
140.
5
72.4
141.
3
17.3
83.7
24.9 83
.7
20.6
189.
1
23.6
311.
5
30.0
311.
5
30.0
155.312490VMIZIA1 12450
VCAREV1
79.1
12461VDOBRU1
12470VBURGA1
11.7
1.4
101.
1
409.8
12420VMETAL1
12432VCMOGI1
12433VBLAGO1
20XBG_TH11
41.8
219.
8
55.1
198XMI_HA11
414.6
12440VAEC_41
181XVA_IS11
419.7
143.
9
87.1
33.7
143.
6
22.1
7.2
413.9
64.8
20.5 64
.8
15.0
21.8
47.8
21.8
58.9302.
930
1.2
37.4
2.2
32.3
6.6
30.7
27.3101.0
12434VZLATI1
12460VVARNA1
410.3
0.0
280.
7
12474VMI 1
0.0
20.3
12431VSOFIW1
280.
6
413.812475VTMI 15
413.912476VTMI 16
1.0181-3.28
1.0000
413.
1
72.0
412.
3
51.212471
VMI3 11
0.0
100.0%RATEAKV: <=30.000 <=110.000 <=150.000 <=220.000 <=330.000 <=400.000 <=500.000 >500.000
Bus - VOLTAGE (KV)Branch - MW/MVAREquipment - MW/MVAR
197XMI_BA11
214XMI_NS11
400.012477VTMI 17
72.17.8
-6.04
65.6
7.5
0.9950
12241VAEC_22
234.5
5.5
5.5
3.6
12242VBPC_22
2.6
234.4
29.2
37.6
29.3
25.4
29.2
37.6
29.3
25.4
12290VMIZIA2
237.5
113.
1
101.
3
113.
5
111.
3
1.0181
-3.28
13.4
3.7
237.2
12240VBOICH2
237.0
28.8
5.3
28.9 5.9
11.2
26.2
11.3
33.5
12261VMADAR2
238.1
67.9
0.1
68.5
14.8
12250VGORIA2
237.3
54.1
22.2
53.9
16.7
32.5 1.7
32.5
6.4
43.4 0.4
43.7
16.0
20.4
7.9
20.4 8.5
30.3
20.9
30.5 8.1
12277VXXXXX21
240.0
12273VKARNO2
240.0
51.1
12.9
50.9
0.4
88.6
11.1
88.2
15.9
12252VOCHIF2 229.2
5.6
51.3
5.3
61.6
5.6
43.6
5.8
40.2
0.9649
12263VVARNA2
239.3
75.6
45.2
75.6
46.2 12260VDOBRU2
240.2
102.
0
9.8
102.
2
6.4
102.
0
9.8
102.
2
6.412262
VTVARN2
240.7
36.7
32.5
36.6
25.812286
VUZUND2
236.1
12275VMI3 2
234.1
57.9
132.
2
60.6
11.3
122.1
11.4
123.5
12276VSTZAG2
236.6
66.5 6.9
66.2
0.8
84.0 0.4
83.7
4.4
82.5 0.6
82.2
4.712274
VMI 2
236.1
55.5
28.2
55.1
16.4
49.5
30.7
49.0
18.712285
VPLOVD2
238.2
46.5
46.2
7.6
12282VORFEJ2
240.7
12288VXXXXX24
240.6
0.0
0.0
0.0
1.7
12283VDEVIN2
240.6
12280VALEKO2
8.3
8.3
3.3
0.0
2.7
0.0
0.0 12281
VPESHT2
240.5
8.3 3.3
8.3
1.212284VTESHE2
240.6
8.3
3.1
8.3
2.9
7.7
16.0
7.7
1.4 19
.1
9.2
19.2
24.4
7.7
16.0
7.7
1.4
36.5 1.2
36.5 3.5
1.2
36.5
36.5 3.5
25.1 0.5
25.1
10.8
25.1 0.5
25.1
10.8
39.5
46.6
39.6
49.8
39.5
46.6
39.6
49.8
12220VBELME2
239.5
12221VKAZIC2
239.4
15.0
8.9
15.0 8.9 12270
VCHUDO2
238.2
12287VXXXXX23
238.2
12222VSOFIJ2
239.5
87.1
6.9
87.6 0.6
87.1
6.9
87.6 0.6
12231VBOBOV2
241.2
50.5
14.0
50.6
8.1
53.8
49.4
54.3
40.3
12224VTSOFI2
233.3
6.6
70.5
6.8
67.2
12233VSESTR2
238.3
0.0
10.9
0.0 0.0
12223VGPP_12
235.7
15.4
126.2
15.6
125.
4
12232VSTOLN2
237.6
72.5
14.6
72.8
13.1
1.0500
32.1 6.3
32.0
17.7
12230VSTOMA2
239.9
34.2
18.9
34.1
15.5
12251VBALKA2
237.9
12271VTVARD2
237.6
24.4
4.8
24.4 4.9
57.0
57.2
18.0
11.3
12278VXXXXX22
237.6
12291VPLEVE21
10.3
13.4
12272VMI2 2
237.1
132.
6
46.2
41.7
1.0433
0.8
36.1
0.6
37.0
-0.64
1.05
00
80.8
7.3
81.1 2.6
63.5
15.5
63.0 3.0
13.7
3.9
13.7
10.4
31.0
15.2
31.2
16.8
1.0223
12731VTVN 5
118.7
GEORGIA
4.9
4.3.2. GEORGIA
GEORGIA
4.10
Figure 4.3 – Georgia – Load flows for Winter 2010 regime
GEORGIA
4.11
Figure 4.4 – Georgia – Load flows for Summer 2010 regime
MOLDOVA
4.12
4.3.3. MOLDOVA
MOLDOVA
4.13
Figure 4.5 – Moldova – Load flows for Winter 2010 regime
MOLDOVA
4.14
Figure 4.6 – Moldova – Load flows for Summer 2010 regime
ROMANIA
4.15
4.3.4. ROMANIA
ROMANIA
4.16
Figure 4.7 – Romania – Load flows forWinter 2010 regime
410.7
SW
0.0
XRO_MU11
411.9
402.3
-11.4
-401.0
RROSIO1
233.8
1.05
25
242.7
63.7 -44.3
1.00
00 RVETIS2
232.0
72.3
RVETIS5
109.0
1
4.3
1.05
25
1.00
00
72.0 -71.8
-14.7
28.8
19.4
232.1
-84.4
-17.4
84.8
-84.4
-17.4
84.8
RBMARE53
108.6
1
0.1
1.05
25
1.00
0026.6
-90.0
-19.9
87.9-87.7
-17.9
14.3
-19.4
-72.0
15.6
-242.0
14.3
RROSIO2
1.5
1.00
00
1.05
25
RTIHAU2
231.9
-5.0
5.4
-3.6
109.2
1.05
25
1.00
00 23.5
7.8
-23.4
-6.3
RCLUJ 2
232.0
-7.0-2.8
RFLORE52
108.7
1
4.01.05
25
1.00
00
81.3
24.0 -18.2RCLUJ 5F
1.05
25
1.00
00
86.7
24.9
-86.5
-18.6
18.4RTIHAU5
-5.2
108.7
RBMARE50
234.4
-118.9
-34.633.7
RMARISG2
15.8
1
60.0
23.0R 1.10
00
1.00
32
-16.9
60.0
23.0RMARISG3
15.8
1
60.0
23.0R 1.10
00
1.00
3260.0
-59.7
23.0 -16.9 -81.115.1
RCUPT.2
232.0
1
27.5
-3.6
-3.3
3.7
-4.6RAL.JL2
233.6
-71.2
-2.8
72.1
RALBA 5A
109.2
1
3.9 1.05
25
1.00
00 74.1
-23.3RALBA 5B
1.05
25
1.00
00
26.5 -21.6
-73.9
71.2 -71.0
RMARIS2
-59.7
-18.2
RSUGAG2
235.7
-49.5
-20.6
49.8
15.8
1
1.10
00
1.00
32
-49.8
-14.4
50.0
18.8
12.8
14.4
50.0
18.8R
12.7
RGILCE2
237.4
-98.7
-23.5
99.6
19.0
RGALCEG1
15.8
1
1.10
00
1.00
32
-9.5
50.0
13.7
RGALCEG2
15.8
1
1.10
00
1.00
32-9
.5
50.0
13.7
-49.8
50.0
13.7R
50.0
13.7R
RIERNU2
233.1
24.2
0.2
-24.0
-9.4
15.2
-10.0
-14.7
-12.5
RIERNU52
109.0
1.00
00
91.3
26.7
-91.0
16.0
1
0.0
1
-99.9
177.4
120.6
109.3
1.04
57
-17.2
177.4
126.0H
5.4
28.5
24.4
-49.8
108.7
RUNGHE2
231.9
-107.7
-3.7
108.2
2.0
-120.9
-14.2
121.6
11.1
RUNGHE5A
108.2
1
7.2
1.05
25
1.00
00
112.9
31.7
-112.6
-22.0
RIERNUG6
RFINTI2
231.5
-115.1
12.7
115.7
-13.8
RFINTI5A
108.6
1
3.7
0.6
1.05
25
79.8
21.4
-79.6
31.0
RGHEOR2
234.7
-34.9
23.7
35.3
-34.1
RGHEOR5
111.0
1
4.8
1.00
00
35.3
8.7
-35.2
-6.4
1.05
25
1.00
00
35.3
8.7 -6.4
1.00
00
-16.7
24.3
RSTEJA2
239.7
36.1
32.0
-35.7
-41.0
RSTEJA5
114.4
1
1.05
25
1.00
00
-43.
1
-6.2
43.3
8.0 11.7
RDUMBR2
241.0
-6.9
20.6
7.0
-25.8
RDUMBR53
114.6
1
32.0
7.4
1.05
25
1.00
00
25.4 -25.3
2.5
23.6
RGUTIN21
243.4
18.8
7.1
-18.5
-20.0
RGUTIN52
116.1
1.05
25
1.00
00 40.3
-6.4
-40.2
8.9
RGADAL1
414.9
-111.1
21.0-88.0
413.7
141.3
-69.8
RCLUJ 5E
108.5
1
16.1
1.00
00
1.00
00
-140.5
-51.059.0
RIERNU1
40.9
44.0
-40.3
90.3
RCLUJ 1
417.5RORADE1
403.6
45.7
22.8
-44.2
-98.2
RORAD 52
109.7
1
18.7 1.00
00
1.00
00
-12.7
404.6
105.6
5.8 -18.4
RARAD 1
-50.6
29.5
-34.9 -11.1
RMINTI1
411.1
-98.8
RMINTI2B
235.3
1.00
00
RARAD 2
70.0
-6.7
-69.2
-3.1
110.6
1.05
25
1.00
00-65.0
-14.7
RMINTIG5
15.4
10.0
13.6
1
1.10
00
1.00
32
1.1
165.0
12.5
-54.9 54.9
SW
0.0
26.1R
RMINTI2A
236.2
1.05
21
-24.0
15.8
1
0.0
12.5
1
1.10
00
1.00
32
-159.2 159.7
44.8
27.1
1.00
00
-44.4
48.3
159.7
60.7R
RMINTIG6
82.6 50.6
-50.9
101.7
SW
RHAJD 2
234.4
1
1.6-1.5
16.3
RHASDA5
1
1.05
25
1.00
0019
.4
-40.8
-16.7
1.00
00 41.0
41.0
42.4
-164.4
RR.MAR2
234.6
-84.2 84.7
-7.1
RRETEZG2
15.3
1
1.10
00
1.00
32
-84.7
7.1
85.0
-0.7
19.41.05
25 -0.7R
85.0
19.1
-0.0
RBAIA 2119.5
SW
-20.1
RPESTI2
234.9
10.9 -10.9
-53.3
-32.2
53.4
29.9
-7.7
-11.6
7.8
8.8
RPESTI5
109.8
1
48.4
1.05
25
1.00
00
71.9 -71.7
-22.8 20.8
RBARU 2
236.5
53.1
13.5
-19.
2
RBARU 51
113.1
1
1.3
0.4
1.05
25
1.00
00
22.7
-10.6
-22.6
12.6
-52.
8
110.216.1
-34.9
RPAROS2
237.0
-2.9
RPAROS5
115.1
1.05
14
1.00
00
14.0
-22.2
-13.9
22.8 RTG.JI2
236.6
90.6
-24.9
-90.0
21.5
1.0000
1.0521
90.7
-90.
4
-57.
4
RARAD 5A
109.6
1
42.5
13.0 1.05
25
1.00
00 57.4
-9.1
-57.3
12.6
63.0
403.4
225.3
28.9
30.8
-28.
6
-37.
9
RSACAL51
105.0
1.05
25
1.00
00
83.2
30.9
-83.0
-24.6
229.2
RTIMIS2
225.3
61.0
29.1
-59.8
-43.2
4.1
35.6
-3.8
-42.7
-54.
7
6.9
54.8
-9.8
RTIMIS5A
105.6
1
10.0 1.05
25
1.00
00 85.0-84.8
-16.2RTIMIS5B
105.6
1.05
25
1.00
00 84.5
22.4
-84.3
-16.2
RSACAL2
RRESIT2
223.3
1
2.4
81.3
-31.2
-80.4
25.4
81.3
-31.2
-80.4
25.4
RRESIT5A
103.7
1
5.7 1.05
25
1.00
00 83.8
35.7
-83.6
-29.0
19.8
RIAZ 21
222.4
44.4 5.9
-9.6
RIAZ 5B
105.1
1.05
25
1.00
00
44.2
9.6
-44.1
-7.0RIAZ 22
222.1
29.9
-29.8
-16.8
RIAZ 5A
104.4
1
29.7
14.7 1.05
25
1.00
00 29.8
16.8
-29.7
-14.7
12.8
RP.D.F2A
229.5
0.0
167.6
6.5
-163.0
2.7
167.6-163.0
2.7
229.8
-14.9
-10.3
15.0
RTR.S.5
1
26.5
1.05
25
1.00
00
-15.0 15.1
RTR.SE22
229.8-10.3
15.0
1.05
25
-15.0
-8.5
15.1
RTR.SE21
-8.5
10.1109.9
-44.
2
233.9
-39.4
14.0
RCETAT53
1.07
87
1.00
00 31.9
0.5
-31.7
1.6
229.4
RP.D.FG3
15.0
1
0.0
1
1.10
00
1.00
32
11.2
121.2
0.8
RP.D.FG4
15.0
1
0.0
0.4
1
1.10
00
1.00
320.
8
1.2R
49.3
121.2
121.2
121.2
1.2R
-120.8
-26.4
412.3
412.2
-190.4
1.00
00
1.00
00
-88.0
-47.5 50.1
1.00
00
1.00
00
88.1
1.00
00
70.6
-133.8
RP.D.FG2
15.8
1
0.0
0.4
1
121.2
39.5R
1.05
00
1.00
32 -120.8
-30.9
121.2
39.0
RP.D.FG5
15.8
1
0.0
0.4
1
121.2
39.5R
1.05
00
1.00
32
-30.939.0
1.05
21
SW
-171
.9
139.7-139.9
121.2
-47.5
88.1
-87.6
50.1
11.2RP.D.F22
235.8
56.2
7.3
-55.8
-14.3
ROMARE5
112.8
1.05
25
1.00
00 -56.2
-7.3
56.3
10.8
1.05
25
1.00
00 -56.2
-7.3
56.3
10.8
142.8
XPF_DJ11
10.6
RSIBIU1
416.6
-6.6
-89.6
8.0
13.1
226.9
-57.514.9
1.00
00
1.00
00
184.3
-58.9 69.9
-225.2
0.0
RSUGAGG2
SW
27.7
236.5
1.00
00
-210.5
82.5
211.2
-66.6
1.05
21
-210.5
82.5
211.2
-66.6
RSIBIU5B
111.2
1
14.2
0.6
1.05
25
1.00
00
-43.0
RSIBIU5S
111.41.05
25
1.00
00
37.9 -37.8
-15.1
1.05
21
RSIBIU2
RLOTRU2
237.6
259.1
-20.1
-251.7
49.8
259.1
-20.149.8RLOTRU5
114.0
1.05
25
1.00
00 -63.1
-13.1
63.2
17.1
RLOTRUG1
15.5
1
0.0
0.4
10.0L1.10
00
1.00
32
-151.6 152.1
-0.4
RLOTRUG2
15.5
1
0.0
0.4
1
152.3
0.0L1.10
00
1.00
32
-151.8
17.8
152.3
-0.4
RLOTRUG3
1
0.0
0.4
11.10
00
1.00
32
-151.7
17.8
152.2
-0.4
17.8
-13.31.00
00
-251.7
17.9
43.1
15.8
152.1
152.2
0.0L
-35.2
1.05
25
108.5
-120.8
0.4
-65.4
172.0
65.4
RURECH1
SW
107.9
14.6
19.2
-13.7
24.4
1
0.0
15.2
1
1.00
00 -277.3
-51.3
278.2
84.8
23.8
1
0.0
10.1
126.6R
1.05
00
-284.1
17.6 16.5
278.2
1.00
00
285.0
8.5
-70.1
-69.5
RTANTA1
XKO_TI11
412.7
-37.
0
374.6
10.9
XKO_TI12
412.7
40.1
456.7
-53.8
164.0
-93.5
-159.9
-50.3
24.0
1.05
00
RTURCEG3
24.0
1
0.0
8.9
1
285.0
46.5R
1.00
00
-3.6
285.0
37.6
24.0
1
0.0
8.2
1
203.8
39.6R-13.1
203.8
31.4
RTURCEG5
24.0
1
9.2
146.8R1.05
00
37.6
RTURCEG6
1
9.7
1
1.05
00
-3.6
285.0
37.6
RTURCEG4
1.00
00
1.00
00
1.05
00
-453.1
RTURCEG1
285.0RBRADU1
415.1
-68.5
-363.5
1.5
RBRADU2
237.8
1.00
00
142.5
36.5
-142.0
-28.4
1.00
00
1.05
21
142.5
36.5
-142.0
-28.4RBRADU5A
112.2
1
5.2 1.05
25
1.00
00 60.4
13.8
-60.2
-10.1RBRADU5B
112.2
1.00
00 60.5
13.8
-60.3
-10.1
24.0
1.05
211.
0525
RAREF 2
241.4
58.9
12.7
-58.4
-22.5
RAREF 5
114.8
1
6.5
2.2
1.05
25
1.00
00 22.0
-0.7
-21.9
2.0
1.05
25
1.00
00
-1.3
-43.8
4.0RAREFUG4
10.8
1
37.5
16.0H 1.10
00
1.00
00 -37.2
-13.5
37.5
16.0
43.9
RRIURE2
242.1
2.8
88.3
-7.8
115.5
1
22.3
10.1
1.05
25
1.00
00
-103.5
-0.4 7.9
103.8
RRAURE5
RSTUPA2
241.8
15.2
8.1
-15.2
-10.1
11.5
-116.0
-15.6
RSTUPA5
115.4
1
22.3
10.1
1.05
25
1.00
00 -102.2
-1.4
102.4
8.8
117.4
RPIT S2
237.5
63.7
15.4-16.2
1
39.6
-63.5
16.2
RTIRGO21
230.5
1
53.0
195.2
49.6
-192.4
-41.7RTIRGO5B
107.5
1
11.0
6.2
1.00
00
1.05
25
-23.2
106.4
32.1
1.00
00
1.05
25
-106.2
-23.2 32.123.9
106.4
RTIRGO22
236.1
-78.2
-8.2
RTIRGO5A
111.4
127.4
11.0
1.00
00
-11.0
2.2
RBRAZI2A
235.5
-50.4
-2.0
50.7
-4.9
74.1-73.5
-46.4RBRAZI5
112.7
1.05
25
1.00
00
93.7
-11.1
-93.5
17.8RBRAZ 5
112.71.05
25
1.00
00
94.2
-10.1
-93.9
16.8
RTELEA2
235.1
99.5
-5.2
-98.9
0.2
RSTILP2
234.1
RSTILP5
110.9
1
10.1
3.9
1.00
00
1.05
25
-97.7
0.4 6.8
98.9
-0.2
-98.0
-6.8RBRAZI1
414.1
1.00
00
1.05
25 245.8
67.6
-245.1
-47.9
RDIRST1
417.4
SW
0.0
RDIRST5
113.3
1
5.2 1.00
00
1.00
00 109.6-109.2
-11.9
-16.5
3.8
17.7
-72.2
21.7
42.1
RDOMNE1
392.2
-73.6
-381.9
-3.9
RDOMNE5B
114.3
SW
0.0
1.00
00
1.00
00
89.4
-1.7
-89.1
8.5RDOMNE5A
114.1
1
14.1
4.8 1.00
00
1.00
00 91.9
0.6
-91.6
6.4
265.1
-34.2
-263.5
4.6
RROMAN2
421.4
RROMAN5N
1
4.8
1.51.00
00
1.00
00
-9.6
88.6
16.2
RSUCEA1
-10.0
-57.8
10.1
-113
.5
114.8
1.00
00
1.00
00 107.6
11.8
-107.3
-2.6
-217
.3
114.7
-88.3
RSUCEA2
244.4
1.00
00
1.05
21
74.4
-20.9
-74.0
24.9
RFAI 2
245.5
-7.1
-21.
1
7.7
-10.
4
-72.9
10.2
74.0
-24.9 RFAI 5B
116.5
1.05
25
1.00
00
27.7
2.7
-27.6
-0.6-0.6
-63.7
11.1
RBACAU2
421.2
RBACAU5
115.5
1
53.7
23.2
1.00
00
1.00
00 68.6
5.9
-68.4
-128
.0
-6.8
128.
8
-27.
3
-1.6
420.2
-59.3
-34.8
59.3
1.0
1.00
00
1.05
21 106.3
-4.3
-105.8
9.7
RMUNTE2
244.3
-37.2
-9.2
37.6
-2.5
RMUNTN5
115.3
1
17.1
2.4
1.00
00
59.2
13.9
-59.0
-10.3
1.0521
1.0000
20.1
74.8
-16.1
22.4
-14.2
-4.7
RBORZE51
116.4
1
81.7
22.2
1.05
25
1.00
00
52.0 -51.9
9.1
1.05
25
-74.4
244.1
-6.0
RGUTIN1
RSMIRD1
410.0
105.0
-135.3
-24.1
57.2
RSMIRD5B
112.6
1
25.7
5.5
1.00
00
1.00
00
84.6
4.1
-84.4
RSMIRD5A
113.3
1
91.3
1.00
00
1.00
00
-5.5
-72.5
10.4
175.7
2.1
409.0
SW
209.1
-76.8
20.4
77.0
-115.2
28.2
-43.9
-27.6
6.6
RISACC1
407.0
78.2
-77.
8
RTULCE51
108.3
1
1.00
00
1.00
00
96.1
45.9
-95.8
RTULCE52
108.3
1.00
00
1.00
00
95.2 -94.9
-36.3
72.7
162.0
-36.6
82.5
RTULCE1
RCONST1
406.1
RCTA B5
109.7
1.00
00
1.00
00
79.2
25.3
-79.0
-19.2
1.00
00
1.00
00
79.2
25.3 -19.2
-79.0
-69.6
RBRASO1
417.8
-97.799.2
-70.9
93.2
17.8
-93.1
-25.5
-76.7
-15.1
78.5
-74.4
-341.8
22.8
346.1
RBRASO5A
113.2
1
72.9
21.4
1.00
00
1.00
00-116.3
-13.8
RBRASO5B
113.5
1
1.9 1.00
00 109.4-109.1
-10.8
24.9
20.6
-2.0
25.71.00
0014.7
-183.8
116.7
RFUNDE21
234.1
RFUND15
1 -25.3
RFUNDE22
233.0
1
119.7
1
32.9
-12.9
13.1
29.1
RSLATI2
1
0.0
411.4
224.
4
16.3
-222.7
-58.1
310.6
-56.2
-305.9
-129.5
130.0 -129.5
74.8
1.00
00
78.7
RSLATI1
-7.6
-6.5
-14.7
6.8
-7.8
108.5
232.9
6.8
11.2
RGRADI5
109.8
1
1.05
25
1.00
00
11.1
-11.
0
-12.3
1.05
25
1.00
00
-11.0
-12.3
74.8
130.0
1.05
00
100.0L
218.
3
RGUTIN22
-22.0
72.7
234.9
-33.
5
RISALN5B
110.1
1.04
57
22.9
22.7
-22.3
-20.5
25.2
1
0.0
20.1
1
251.8
99.6R1.04
19
1.00
00
-55.3
251.8
79.4
13.9
285.0
371.3
167.1
RISALN2A
13.9
RCRAIO2A
234.7
-22.0
-16.6
22.2
9.4
-125.9
6.2
126.1
-6.5
-17.
6
415.5
-373
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107.9
1.00
00
RT.MAG2
233.5
103.7
-15.67.2
RTR.MA5A
110.0
1
23.8
7.5
1.00
00
1.05
25
-10.515.4
233.2
RISALNG7
1.05
21
1.00
00
11.1
411.3
-251.0
RGHIZD2
235.3
RGHIZD51
111.21
2.0
0.6
1.00
00
1.05
25
-75.1
-5.0 -26.8
10.8
27.1
-22.6
236.3
-21.7
-9.9
21.9
-0.1 RMOSTI2
234.1
RMOSTI5
110.1
1
1.3
0.51.00
00
1.05
25 -60.6
-13.3
60.8
17.1
-60.8
-17.1
61.2
10.6
RBUC.S2B
236.6
SW
52.4
RBUC.S5A
112.6
1
123.1
28.6 1.05
25
1.00
00 -86.2
2.3
86.4
3.6
RBUC.S5B
113.3
1
11.6
2.3 1.05
25 -98.2
-7.9
98.4
15.1
27.0
-0.1
-26.8
-10.7
83.2
9.8
316.3
35.5
-313.2
-20.6
RBUCSTG1
1
0.0
2.9
1
80.9
50.0H
1.10
00
1.00
00 -80.6
-39.447.1
80.9
-10.5
RBUC.S1
412.9
261.
8
-76.
2
-2.5
-64.4
39.3
64.9
-65.0
1.00
00 144.9
35.9
-144.5
-27.6
1.00
00
1.05
21 144.9
35.9
-144.5
-27.6
14.0
1.05
21
1.00
00
RRAC.M2
-83.1
-10.3
-11.2
9.0
RPELIC1
410.3
-56.8
-2.8
58.1
-72.7RC.S.P5
111.7
1
24.0
10.1
1.00
00
1.00
00 55.1
15.2
-54.9
-11.8
1.00
00
1.00
00 55.1
15.2
-54.9
-11.8
RCERNA1
406.4
SW
206.5
-168.3
42.3
169.9
-91.4
-201.7
-3.2
203.0
-32.9
RCNE 5
111.8
1.00
00
1.00
00 0.0
0.0
0.2
1.0
1.00
00
1.00
00 0.0
0.0
0.2
1.0
RCERNAG1
23.5
1
0.0
36.5
1
659.0
67.0R
1.03
75
1.00
00
26.9
329.5
15.2
1.00
00 -328.4
26.915.2RCERNAG2
23.5
1
0.0
37.0
1
659.0
67.4R
1.03
75 -328.4
26.9
329.5
15.2
1.03
75
1.00
00 -328.4
26.9
329.5
15.2
RCERNAG3
24.0
1
1.03
75
1.00
00
1.03
75
1.00
00
RMEDGI1
405.9
RMEDGI5S
110.2
1
13.4
3.9
1.00
00
1.00
00
-81.4 81.7
18.6
1.00
00
1.00
00
-81.4
-12.4
81.7
18.6
393.9
-10.6
-393.1
3.5
-12.4
1.00
00
329.5
-328.4
1.03
75
RG.IAL1
408.8
-40.3
-1.5
41.8
-80.1
RGURA 51
110.9
1
1.7
0.5
1.00
00 -270.0
60.0
271.7
-92.5
-273.2
63.6
274.8
-88.6
RL.SAR1
409.5
419.4
-63.5
-416.1
47.2
-42.2
-25.4
42.8
-13.6
128.2
-37.3
-127.7
18.5
RFOCSA2
239.4
-22.6
53.8
10.7
RFOCSA5V
112.6
1
25.5
6.6 1.00
00-63.0
-14.8 18.8
-53.2
236.9
1.00
00
1.05
25 122.5
1.8
-122.1
4.6
1.00
00
1.05
25 122.5
1.8
-122.1
4.6
RLACUL5A
111.8
1
8.2
2.5 1.05
25
1.00
00-56.6
-9.1RLACUL5B
111.8
1.05
25
1.00
00 56.2
12.4-9.0
-56.1
56.8
12.6
RFILES2
237.6
131.2
-34.2
-130.5
33.6
RFILES52
111.8
1.05
25
1.00
00 31.6
17.1
-31.5
-14.9
RBARBO2
-10.0
3.8
10.2
-17.6
98.9
-50.7
-98.7
50.3
RBARBO51
115.4
1
177.8
92.1 1.05
25
1.00
00 88.4
-34.2
-88.2
40.9
RBARBO52
113.1
1.05
25
1.00
00-0.0
0.0 1.5
0.1
63.2
1.05
25
SW
6.6
-27.6
28.2
-98.
5
272.
6-2
69.5 7.1 45.5
238.0
RL.SAR2
22.5
-120.8
-18.6
RP.D.F1
15.5
15.6
RP.D.F2B
RPITES5S
20.1
-106.2
SW
RROVING5
-63.7
370.9
-284.1
6.5
-141.0
XBE_OR11
RNADAB1 165.0
RSUCEA5B
420.2
1.00
00
RMINTIG1
11 1.
1000
RMINTI5
1.00
32
15.8 1.05
25
65.1
18.9
-38.3
-22.7
41.2
1.05
21
23.0-72.1 73.7
21.4
112.6
-74.1
69.8
141.0 32.1
109.8
1.00
00
0.0
31.9
68.9
152.5153.0RFUND25B-152.5
-29.1
414.5
-206.6
-20.3
208.0
24.6
45.6
SW
9.8
75.3
98.0
-257.7
110.0
1.05
25
1.00
00
RISALN2B
220.0
RISALNG8
24.01
1.04
19
1.00
00
RDRAGA1
-66.4
RISALN5A
110.1
1
1.81.0 4
57
1.0 0
003.
6
RROVING6
24.0
111.
0500
1.00
00
RROVING4
24.0
11 1.
0000
1.05
00
RROVING7
-373
.1
-37.
0
374.
610
.9
RTURCEG7
11
1.00
00
1.05
00
24.0
111.
0000
RIERNUG5
15.8
11
1.10
00
1.00
32
RIERNUG2
13.8
1
1.10
00
1.00
00
1.00
32-1
76.6
1.10
00
-7.8
49.6-49.4
0.0
0.0
58.3
4.5
20.0
45.5-16.7
-40.8
-105.5
405.0
RCRAIO2B
234.4
RCRAIO5A
111.1
1.05
25
1.00
001.
0525
1.00
00
74.7
-74.
5
RBRAZI2B
220.0
41.6
RGHIZD52
111.2
1.00
00
1.05
25
RBUC.S2A
220.0
SW
45.3
1.00
00
1.00
00
20.0-13.8
-81.8
1.00
0082
.0
-77.6
16.1
77.8
-122.4
-43.9
RGUTIN51
116.11.05
25
1.00
00
-70.2
RBORZEG7
15.8
1
1.00
32
1.10
00
RDOICE2A
220.0
RDOICE2B
220.0
-87.7
40.8
3.2
SW
33.8
-14.3 6.0
-10.0
-40.5-66.4RSLATI52
-38.6 38.8
1.05
21
-29.3
-25.4
29.3
24.0
RSARDA2
17.4
-27.0
RCRAIO5B
111.1
17.
4
3.7
1.05
25
1.00
004.
8-3
.2
7.5
232.1
108.5
1.05
25
16.6
-53.
1
53.6
18.0
1.05
25
59.7
-27.9
1.00
00
RFU
ND
25A
56.0
180.4
19.3
-7.4
-101.8
107.0
141
.8
31.0
1.05
2557
.3
50.0
-57.1
-19.0
-27.4
1.05
2527.
5
13.1RSARDA5
RGRADI2
1.00
00
-45.
2
RURECH5
RCETAT2
RURECH2
1.00
0025
8.9
24.9
90.8
-26.6
-47.8
111.9
69.3
-258.2
1.05
21
-90.6
77.3
16.1
-76.5
-23.0
1.05
25
1.00
0090
.1
58.3
-89.8
-51.0
236.2
-203.2
1.05
00
-75.8
0.6
76.0
-12.2
1.00
0063
.7
1.05
25
116.8
-284.1
1.00
00-3
.6
285.00.0
-284.1
0.0
RCALAF2
220.0
1.00
00
RCALAF5
108.4
12.
8
1.05
25
1.00
00
6.8
47.3R
285.0
SW
RDRAG.5O
112.0
18.
3
1.3
1.0000
1.0000
6.514
.7
-6.3
-13.5
RP.D.FG1
15.0
10.
0
0.4
112
1.2
0.3R1.00
3211
.5
RP.D.FG6
15.0
10.
0
0.4
111
1.2
0.1R
1.10
00
1.00
32-1
10.8
10.6
111.2
-0.3
-0.1
121.2
1.10
00
415.
5
-120.8
8.5
-14.9
10.1
5.3
107.6
190.4
39.9
92.6
-32.5
-92.5
30.4
RISACC0
786.1
1.00
00
1.02
670.
6
14.4
-0.0
0.0
1.00
00
1.02
670.
6
14.4
-0.0
0.0
XDO_IS11
XVK_IS11
XVA_IS11
XRO_UA01
100.0%RATEA1.100OV 0.900UVKV: <=30.000 <=120.000 <=150.000 <=220.000 <=330.000 <=400.000 <=500.000 >500.000
BLACK SEA REGIONAL MODEL¼WINTER MAXIMUM LOAD 2010¼
MON, MAR 19 2007 15:45
Bus - VOLTAGE (KV)Branch - MW/MVAREquipment - MW/MVAR
ROMANIA
4.17
Figure 4.8 – Romania – Load flows for Summer 2010 regime
409.3
SW
104.7
XRO_MU11
411.7
401.2
28.6
-399.8
RROSIO1
234.9
1.05
25
144.6
30.9 -22.6
1.00
00 RVETIS2
234.4
29.4
RVETIS5
111.0
1
2.4
1.05
25
1.00
00
29.3 -29.2
-4.5
8.0
6.5
233.6
-57.1
-14.8
57.4
-57.1
-14.8
57.4
RBMARE53
110.7
1
1.3
1.05
25
1.00
006.0
-27.5
-4.1
27.0-26.9
-4.7
10.6
-6.5
-29.3
1.4
-144.2
10.6
RROSIO2
-38.3
1.00
00
1.05
25
RTIHAU2
232.6
-7.4
41.7
-0.5
109.9
1.05
25
1.00
00 13.1
4.7
-13.0
-3.8
RCLUJ 2
231.1
-12.22.7
RFLORE52
110.1
1
3.61.05
25
1.00
00
18.9
-2.8 4.5RCLUJ 5F
1.05
25
1.00
00
19.9
-2.4
-19.8
4.1
-28.1RTIHAU5 -41.4
110.6
RBMARE50
231.2
0.1
-3.80.0
RMARISG2
15.8
1
1.10
00
1.00
32
RMARISG3
15.8
1
1.10
00
1.00
32
-18.85.1
RCUPT.2
227.9
1
27.4
-3.1
-37.0
3.4
29.7RAL.JL2
231.8
-14.1
-8.7
14.4
RALBA 5A
109.6
1
1.4 1.05
25
1.00
00 30.0
-6.7RALBA 5B
1.05
25
1.00
00
7.8 -5.8
-29.9
28.8 -28.7
RMARIS2
28.4
RSUGAG2
232.1
0.1
-7.0
-0.0
15.8
1
1.10
00
1.00
32
4.9
-0.0
12.6
RGILCE2
232.3
0.2
-8.6
0.0
-0.0
RGALCEG1
15.8
1
1.10
00
1.00
32
RGALCEG2
15.8
1
1.10
00
1.00
32
RIERNU2
225.0
24.6
-32.6
-24.3
24.3
-17.3
-38.3
18.0
17.5
RIERNU52
107.1
1.00
00
35.3
5.2
-35.2
15.0
1
0.0
1
-43.0
63.2
47.1
109.7
1.04
57
-2.8
63.2
51.7R
4.7
8.7
6.6
110.0
RUNGHE2
225.6
-40.6
16.5
40.7
-20.0
-47.1
14.4
47.5
-19.6
RUNGHE5A
107.0
1
2.3
1.05
25
1.00
00
41.5
3.9
-41.4
-1.4
RIERNUG6
RFINTI2
226.9
-46.0
31.6
46.2
-34.8
RFINTI5A
107.3
1
1.1
0.3
1.05
25
28.6
6.8
-28.5
11.1
RGHEOR2
231.2
-17.0
28.0
17.4
-38.4
RGHEOR5
109.7
1
2.6
1.00
00
12.0
3.1
-11.9
-1.6
1.05
25
1.00
00
12.0
3.1 -1.6
1.00
00
-5.7
7.4
RSTEJA2
234.9
7.1
24.9
-6.9
-34.3
RSTEJA5
111.7
1
1.05
25
1.00
00
4.9
-1.3
-4.8
2.0 4.9
RDUMBR2
236.2
12.2
18.5
-12.0
-23.6
RDUMBR53
111.6
1
16.8
8.1
1.05
25
1.00
00
10.5 -10.4
-9.7
12.0
RGUTIN21
240.2
23.0
17.7
-22.6
-29.8
RGUTIN52
112.9
1.05
25
1.00
00 38.8
18.9
-38.7
-16.3
RGADAL1
411.8
-161.9
10.7-73.9
411.3
72.4
-32.4
RCLUJ 5E
110.5
1
4.1
1.00
00
1.00
00
-72.0
-26.921.1
RIERNU1
-121.0
22.6
121.7
27.6
RCLUJ 1
412.8RORADE1
406.8
91.5
-23.4
-89.9
-51.6
RORAD 52
111.4
1
10.7 1.00
00
1.00
00
-3.6
409.0
82.4
24.6 -37.8
RARAD 1
-82.8
20.8
-64.0 17.0
RMINTI1
406.5
-30.6
RMINTI2B
232.5
1.00
00
RARAD 2
74.4
-13.6
-73.5
4.5
110.5
1.05
25
1.00
00-34.5
1.7
RMINTIG5
15.8
11
1.10
00
1.00
32
0.5 -0.4
SW
103.3
RMINTI2A
233.6
1.05
21
-21.8
15.8
11
1.10
00
1.00
32
-4.0
24.3
1.00
00
4.3 RMINTIG6
31.9 82.8
-42.4
104.0
SW
RHAJD 2
232.1
1
-86.887.1
-6.9
RHASDA5
1
1.05
25
1.00
006.
7
-19.0
-5.0
1.00
00 19.1
19.1
26.4
RR.MAR2
232.3
0.4 -0.0
0.0
RRETEZG2
15.8
1
1.10
00
1.00
32
6.71.05
25
11.9
-8.5
RBAIA 20.0
SW
4.5
RPESTI2
232.6
-43.7 43.8
14.7
-34.8
-14.6
32.1
-82.5
17.3
82.7
-19.1
RPESTI5
110.0
1
22.5
1.05
25
1.00
00
24.0 -23.9
-7.3 7.2
RBARU 2
231.8
-65.1
6.0
-11.
0
RBARU 51
109.6
1
0.2
0.1
1.05
25
1.00
00
33.0
8.5
-32.9
-6.3
65.5
109.98.2
RPAROS2
232.1
-14.5
RPAROS5
109.2
1.05
14
1.00
00
22.0
10.3
-22.0
-9.7 RTG.JI2
233.3
-9.9
16.4
10.0
-21.9
1.0000
1.0521
65.5
-65.
1
-13.
7
RARAD 5A
111.9
1
13.6
3.6 1.05
25
1.00
00 7.0
-4.1
-6.9
5.7
17.3
408.0
233.3
29.4 7.5
-29.
2
-15.
5
RSACAL51
110.1
1.05
25
1.00
00
32.2
12.0
-32.1
-9.8
234.9
RTIMIS2
233.1
18.6
-10.3
-18.2
-9.0
28.7
10.4
-28.5
-18.2
-3.0 3.5
3.1
-7.2
RTIMIS5A
110.3
1
5.0 1.05
25
1.00
00 27.7-27.6
-5.5RTIMIS5B
110.3
1.05
25
1.00
00 27.5
7.4
-27.4
-5.5
RSACAL2
RRESIT2
231.2
1
2.4
6.0
-20.6
-5.8
9.7
6.0
-20.6
-5.8
9.7
RRESIT5A
109.4
1
3.3 1.05
25
1.00
00 36.6
8.1
-36.5
-5.8
6.0
RIAZ 21
230.9
22.9 0.6
-5.1
RIAZ 5B
109.4
1.05
25
1.00
00
22.8
5.1
-22.7
-3.3RIAZ 22
230.9
13.3
-13.2
-6.3
RIAZ 5A
109.3
1
13.1
4.8 1.05
25
1.00
00 13.2
6.3
-13.1
-4.8
1.8
RP.D.F2A
228.3
53.8
45.7
-28.9
-45.0
14.1
45.7-45.0
14.1
228.6
-6.5
-13.0
6.6
RTR.S.5
1
23.2
1.05
25
1.00
00
-6.6 6.6
RTR.SE22
228.6-13.0
6.6
1.05
25
-6.6
-11.2
6.6
RTR.SE21
-11.2
12.7109.4
-22.
8
233.4
-39.0
18.4
RCETAT53
1.07
87
1.00
00 19.0
-3.1
-18.9
4.9
228.2
RP.D.FG3
15.0
1
0.0
1
1.10
00
1.00
32
-2.9
83.1
9.3
RP.D.FG4
15.0
1
0.0
0.4
1
1.10
00
1.00
329.
3
9.7R
53.8
83.1
83.1
83.1
9.7R
-82.8
-30.5
407.3
407.2
-133.4
1.00
00
1.00
00
-88.2
-73.7 77.1
1.00
00
1.00
00
88.3
1.00
00
71.6
-108.9
RP.D.FG2
15.3
1
0.0
0.4
1
83.1
-10.0L
1.05
00
1.00
32 -82.8
15.0
83.1
-10.4
RP.D.FG5
15.3
1
0.0
0.4
1
83.1
-10.0L
1.05
00
1.00
32
15.0-10.4
1.05
21
SW
-202
.3
134.4-134.6
83.1
-73.7
88.3
-87.8
77.1
-2.9RP.D.F22
235.4
49.4
9.6
-49.1
-16.8
ROMARE5
112.7
1.05
25
1.00
00 -49.4
-9.6
49.5
12.7
1.05
25
1.00
00 -49.4
-9.6
49.5
12.7
116.2
XPF_DJ11
9.3
RSIBIU1
414.7
78.8
-121.6
-77.2
49.1
-51.7
8.3-57.9
1.00
00
1.00
00
68.3
35.4 -32.3
52.7
170.7
RSUGAGG2
SW
9.2
237.9
1.00
00
-10.6
32.5
10.9
-29.8
1.05
21
-10.6
32.5
10.9
-29.8
RSIBIU5B
112.7
1
4.0
0.1
1.05
25
1.00
00
-2.9
RSIBIU5S
112.7
1.05
25
1.00
00
3.9 -3.7
-4.2
1.05
21
RSIBIU2
RLOTRU2
233.6
14.7
-36.8
-14.4
23.9
14.7
-36.823.9RLOTRU5
111.1
1.05
25
1.00
00 0.1
-0.4
-0.0
1.9
RLOTRUG1
15.0
11-22.7R1.
1000
1.00
32
0.2 0.0
-22.7
RLOTRUG2
15.0
11
0.0
-22.7R1.10
00
1.00
32
0.2
24.4
0.0
-22.7
RLOTRUG3
1
0.0
0.1
11.10
00
1.00
32
-29.9
25.3
30.1
-23.0
24.4
-4.41.00
00
-14.4
5.8
3.0
6.0
0.0
30.1
-22.9R
-11.9
1.05
25
109.5
-82.8
0.4
10.8
202.4
-10.
8
RURECH1
SW
105.1
-117.7
28.1
118.8
24.0
11
1.00
00
24.0
11
1.05
00
1.00
00
11.2
-71.2
-74.7
RTANTA1
XKO_TI11
411.2
29.9
312.1
-59.8
XKO_TI12
411.2
20.5
263.8
-51.8
-52.5
-90.0
55.3
-63.2
24.0
1.05
00
RTURCEG3
24.0
11
1.00
00
23.3
11
309.8
0.0L41.3
309.8
0.0RTURCEG5
24.0
111.
0500
RTURCEG6
11
1.05
00
RTURCEG4
1.00
00
1.00
00
1.05
00
-262.1
RTURCEG1
RBRADU1
415.0
-88.9
-31.6
-28.8
RBRADU2
237.7
1.00
00
45.0
38.1
-44.7
-34.8
1.00
00
1.05
21
45.0
38.1
-44.7
-34.8RBRADU5A
112.2
1
3.1 1.05
25
1.00
00 31.5
11.9
-31.4
-9.8RBRADU5B
112.21.
0000 31.5
11.9
-31.4
-9.8
24.0
1.05
211.
0525
RAREF 2
237.2
12.8
-11.2
-12.6
-0.3
RAREF 5
112.6
1
1.4
0.3
1.05
25
1.00
00 12.5
1.6
-12.4
-0.6
1.05
25
1.00
00
3.2
-24.9
-1.3RAREFUG4
10.5
1
1.10
00
1.00
00
25.0
RRIURE2
237.1
6.4
50.6
-12.8
111.8
1
20.0
9.0
1.05
25
1.00
00
-48.4
16.0 -12.9
48.6
RRAURE5
RSTUPA2
237.1
-2.1
-3.1
2.2
1.2
-16.7
-47.1
6.9
RSTUPA5
111.9
1
20.0
9.0
1.05
25
1.00
00 -49.7
15.4
49.9
-12.3
47.5
RPIT S2
237.4
32.3
12.1-13.1
1
20.0
-32.1
13.1
RTIRGO21
234.2
1
52.7
55.7
24.7
-55.3
-31.5RTIRGO5B
110.3
1
3.4
1.4
1.00
00
1.05
25
-12.4
38.6
14.9
1.00
00
1.05
25
-38.4
-12.4 14.923.7
38.6
RTIRGO22
237.1
2.0
-10.7
RTIRGO5A
112.0
112.2
9.3
1.00
00
-9.3
2.3
RBRAZI2A
237.0
14.4
-7.6
-14.3
-0.2
75.0-74.5
-22.0RBRAZI5
113.1
1.05
25
1.00
00
25.2
-6.6
-25.1
8.6RBRAZ 5
113.0
1.05
25
1.00
00
25.4
-6.2
-25.3
8.1
RTELEA2
236.8
41.2
-4.8
-40.7
-2.1
RSTILP2
236.0
RSTILP5
111.4
1
3.6
3.5
1.00
00
1.05
25
-40.0
-9.4 11.9
40.7
2.1
-40.1
-11.9RBRAZI1
414.3
1.00
00
1.05
25 108.7
44.0
-108.2
-38.0
RDIRST1
415.1
SW
107.7
RDIRST5
113.5
1
3.3 1.00
00
1.00
00 34.6-34.4
-6.9
-28.3
-22.9
29.5
-45.4
8.8
11.0
RDOMNE1
18.2
-95.5
-15.6
-54.9
RDOMNE5B
110.4
SW
82.3
1.00
00
1.00
00
3.6
43.3
-3.4
-41.0RDOMNE5A
111.3
1
5.1
1.8 1.00
00
1.00
00 8.6
31.7
-8.4
-30.0
139.1
-37.3
-138.2
1.4
RROMAN2
416.4
RROMAN5N
1
1.7
0.71.00
00
1.00
00
-13.3
48.8
16.2
RSUCEA1
32.3
-80.3
-32.
2
-86.
8
112.8
1.00
00
1.00
00 87.4
11.7
-87.1
-5.1
-158
.9
113.3
-48.6
RSUCEA2
240.4
1.00
00
1.05
21
57.4
-21.5
-57.0
24.9
RFAI 2
242.0
-2.3
-20.
4
2.9
-10.
3
-56.2
9.1
57.0
-24.9 RFAI 5B
114.4
1.05
25
1.00
00
35.2
10.5
-35.1
-8.211.3
-83.3
28.8
RBACAU2
417.2
RBACAU5
112.7
1
18.5
12.7
1.00
00
1.00
00 59.7
26.5
-59.4
-109
.4
11.2
110.
1
-45.
0
-22.5
417.9
-49.7
4.3
49.7
-37.7
1.00
00
1.05
21 65.2
24.9
-64.9
-21.2
RMUNTE2
242.0
-17.9
-2.6
18.1
-9.3
RMUNTN5
114.7
1
6.5
2.2
1.00
00
28.6
4.9
-28.5
-2.9
1.0521
1.0000
-8.8
55.5
12.1
11.1
-16.4
-2.3
RBORZE51
112.9
1
43.1
20.2
1.05
25
1.00
00
44.0 -43.9
-22.3
1.05
25
-55.1
241.0
25.3
RGUTIN1
RSMIRD1
416.9
108.6
-59.7
-114.1
-18.3
RSMIRD5B
113.0
1
12.8
4.8
1.00
00
1.00
00
40.7
21.6
-40.6
RSMIRD5A
111.1
1
38.1
1.00
00
1.00
00
44.8
-77.7
-38.1
77.7
-19.1
418.6
SW
109.5
-139.3
-27.1
139.7
-68.6
36.5
16.1
-35.9
-54.8
RISACC1
418.5
186.
0-1
85.5
RTULCE51
113.9
1
1.00
00
1.00
00
44.0
15.5
-43.8
RTULCE52
113.9
1.00
00
1.00
00
43.6 -43.4
-12.8
31.0
68.6
-12.9
15.0
RTULCE1
RCONST1
418.0
RCTA B5
114.3
1.00
00
1.00
00
25.0
9.4
-24.8
-7.9
1.00
00
1.00
00
25.0
9.4 -7.9
-24.8
-67.9
RBRASO1
416.0
43.1-41.8
-51.3
6.4
86.0
-6.2
-93.6
60.1
-42.7
-58.4
-47.3
-93.2
-14.6
94.8
RBRASO5A
113.5
1
22.7
11.0
1.00
00
1.00
00-34.9
-9.9
RBRASO5B
113.6
1
1.7 1.00
00 33.5-33.3
-9.0
11.9
10.9
-22.9
115.91.00
004.3
-68.1
35.1
RFUNDE21
235.9
RFUND15
1 -22.6
RFUNDE22
232.8
1
120.5
1
3.4
-15.6
15.9
10.9
RSLATI2
1
49.3
407.4
-34.
5
25.9
35.4
-74.4
160.5
-58.4
-158.1
-111.5
111.9 -111.5
96.9
1.00
00
-1.9
RSLATI1
-25.0
3.3
-9.2
-2.9
-12.9
108.5
229.6
-6.0
17.9
RGRADI5
109.2
1
1.05
25
1.00
00
3.8
-3.7
1.0
1.05
25
1.00
00
-3.7
1.0
96.9
111.9
1.05
00
159.5
RGUTIN22
-10.7
77.9
230.0
-25.
4
RISALN5B
108.5
1.04
57
28.3
15.7
-27.7
-13.5
24.0
1
0.0
13.8
1
165.2
4.9R1.04
19
1.00
00
20.3
165.2
-8.9
0.4
337.3
151.8
RISALN2A
0.4
RCRAIO2A
230.3
-34.0
-7.8
34.2
1.0
-28.0
19.5
28.0
-20.8
-3.5
410.6
-310
.9
210.7
1.00
00
RT.MAG2
233.1
-6.3
-20.62.9
RTR.MA5A
110.0
1
10.1
6.8
1.00
00
1.05
25
-10.512.3
229.3
RISALNG7
1.05
21
1.00
00
3.8
407.4
-164.7
RGHIZD2
235.1
RGHIZD51
110.21
1.1
0.5
1.00
00
1.05
25
-33.8
-21.0 27.2
3.2
-26.9
-15.2
235.9
-19.5
-8.9
19.8
-1.1 RMOSTI2
235.2
RMOSTI5
111.3
1
0.8
0.31.00
00
1.05
25 -14.6
-7.0
14.7
8.7
-14.7
-8.7
14.9
0.6
RBUC.S2B
235.9
SW
69.0
RBUC.S5A
112.6
1
40.0
17.3 1.05
25
1.00
00 -10.5
-5.7
10.6
7.3
RBUC.S5B
112.8
1
3.9
0.9 1.05
25 -11.4
-9.6
11.6
11.2
21.0
-2.0
-20.8
-8.9
34.7
-1.4
154.3
46.6
-153.4
-45.6
RBUCSTG1
11
1.10
00
1.00
00
0.5
RBUC.S1
413.5
-98.
3
-81.
5
-16.0
-135.6
17.2
136.2
-41.8
1.00
00 74.8
50.7
-74.4
-46.2
1.00
00
1.05
21 74.8
50.7
-74.4
-46.2
13.8
1.05
21
1.00
00
RRAC.M2
-34.6
2.6
-17.8
-5.1
RPELIC1
416.9
-230.8
-48.0
233.2
-18.5RC.S.P5
114.2
1
11.4
2.8
1.00
00
1.00
00 22.6
6.0
-22.4
-4.6
1.00
00
1.00
00 22.6
6.0
-22.4
-4.6
RCERNA1
417.0
SW
108.7
-278.3
6.5
280.8
-49.7
-144.2
12.5
145.3
-53.9
RCNE 5
114.7
1.00
00
1.00
00 0.0
0.0
0.2
1.0
1.00
00
1.00
00 0.0
0.0
0.2
1.0
RCERNAG1
24.0
1
0.0
38.1
1
659.0
36.6R
1.03
75
1.00
00
41.3
329.5
-0.7
1.00
00 -328.4
41.3-0.7RCERNAG2
24.0
1
0.0
38.6
1
659.0
37.1R
1.03
75 -328.4
41.3
329.5
-0.7
1.03
75
1.00
00 -328.4
41.3
329.5
-0.7
RCERNAG3
24.0
1
1.03
75
1.00
00
1.03
75
1.00
00
RMEDGI1
417.3
RMEDGI5S
114.3
1
5.1
2.3
1.00
00
1.00
00
-33.8 34.0
6.3
1.00
00
1.00
00
-33.8
-4.4
34.0
6.3
251.1
-56.5
-250.6
45.1
-4.4
1.00
00
329.5
-328.4
1.03
75
RG.IAL1
417.5
-230.1
-46.2
233.0
-23.6
RGURA 51
114.1
1
1.7
1.0
1.00
00 -314.4
27.7
316.4
-60.1
-318.0
31.0
319.9
-55.5
RL.SAR1
417.3
351.5
-45.2
-349.1
18.9
-53.9
10.1
54.7
-50.5
163.3
-13.4
-162.7
-5.6
RFOCSA2
238.2
-18.6
5.3
5.0
RFOCSA5V
112.4
1
8.5
3.5 1.00
00-38.5
-10.9 13.3
-5.1
240.0
1.00
00
1.05
25 65.6
22.5
-65.2
-18.8
1.00
00
1.05
25 65.6
22.5
-65.2
-18.8
RLACUL5A
113.8
1
4.5
1.6 1.05
25
1.00
00-26.0
-2.4RLACUL5B
113.8
1.05
25
1.00
00 25.8
4.2-2.3
-25.7
26.1
4.3
RFILES2
237.8
78.5
29.1
-78.1
-32.3
RFILES52
112.5
1.05
25
1.00
00 15.0
7.8
-14.9
-6.1
RBARBO2
-33.5
5.2
34.0
-18.2
63.1
24.4
-63.1
-25.3
RBARBO51
110.1
1
78.6
38.4 1.05
25
1.00
00 29.0
42.0
-28.9
-39.0
RBARBO52
112.8
1.05
25
1.00
00-0.0
0.0 1.5
0.1
38.6
1.05
25
SW
-54.8
-35.9
36.5
-30.
9
276.6
-273
.5 0.1 15.3
237.3
RL.SAR2
7.5
-82.8
-10.4
RP.D.F1
15.0
6.1
RP.D.F2B
RPITES5S
6.9
-38.4
SW
RROVING5
-32.3
33.7
-28.9
-72.2
XBE_OR11
RNADAB1
RSUCEA5B
413.2
1.00
00
RMINTIG1
1
0.0
12.6
1
-164.4
39.41.10
00
-24.8
165.0RMINTI5
1.00
32
15.0 1.05
25
34.6
0.5
-39.7
-49.6
43.1
1.05
21
49.934.9 -33.5
-49.1
163.7
-51.0
32.4
72.2 10.7
-12.2R
165.0
105.5
1.00
00
75.2
21.1
68.5
30.330.4
RFUND25B-30.3
-10.9414.0
-44.1
4.7
44.2
-8.2
13.1
SW
23.4
34.0
40.1
100.4
110.0
1.05
25
1.00
00
RISALN2B
220.0
RISALNG8
24.01
1.04
19
1.00
00
RDRAGA1
-88.6
RISALN5A
108.5
1
0.71.0 4
57
1.0 0
001.
9
RROVING6
24.0
111.
0500
1.00
00
RROVING4
24.0
11 1.
0000
1.05
00
RROVING7
-310
.9
29.9
312.
1
-59.8
RTURCEG7
11
1.00
00
1.05
00
24.0
111.
0000
RIERNUG5
15.8
11
1.10
00
1.00
32
RIERNUG2
13.8
1
1.10
00
1.00
00
1.00
32-6
3.0
1.10
00
-5.4
44.7-44.5
0.0
0.0
18.2
1.3
7.2
20.1 -5.0
-19.0
-82.4
409.8
RCRAIO2B
230.0
RCRAIO5A
108.7
1.05
25
1.00
001.
0525
1.00
00
20.3
-20.
2
RBRAZI2B
220.0
16.4
RGHIZD52
110.2
1.00
00
1.05
25
RBUC.S2A
235.9
SW
69.019.3
-6.8
-19.3
6.8
1.00
00
1.00
00
10.1-7.4
-47.8
1.00
0048
.0
-143.1
-33.8
143.5
-73.6
16.1
RGUTIN51
112.9
1.05
25
1.00
00
-59.1
RBORZEG7
15.8
1
1.00
32
1.10
00
RDOICE2A
220.0
RDOICE2B
220.0
-50.3
29.9
-1.8
SW
25.6
-5.0 -3.2
-5.0
-29.7-88.6RSLATI52
-32.9 33.1
1.05
21
-49.6
5.6
49.6
-6.8
RSARDA2
-12.4
2.6
RCRAIO5B
108.7
13.
9
1.4
1.05
25
1.00
008.
5-6
.6
27.1
231.0
111.3
1.05
25
14.0
-57.
4
57.9
32.8
1.05
25
9.0
-42.3
1.00
00
RFU
ND
25A
48.9
94.3
7.6
-27.0
6.6
108.7
115
.5
9.4
1.05
2536
.2
16.2
-36.1
-7.4
-12.2
1.05
2512.
3
10.9RSARDA5
RGRADI2
1.00
00
-13.
8
RURECH5
RCETAT2
RURECH2
1.00
0092
.7
-16.4
-9.8
13.6
-47.9
112.0
53.3
-92.3
1.05
21
9.9
44.2
9.9
-43.8
-18.8
1.05
25
1.00
0057
.9
24.5
-57.8
-21.5
233.8
-308.8
1.05
00
32.1
11.7
-32.0
-10.8
1.00
0032
.3
1.05
25
54.3
1.00
00
RCALAF2
220.0
1.00
00
RCALAF5
108.5
11.
4
1.05
25
1.00
00
2.8
SW
RDRAG.5O
111.4
13.
4
1.1
1.0000
1.0000
-3.39.2
3.4-8.
1
RP.D.FG1
15.8
111.
0032
RP.D.FG6
15.0
10.
0
0.4
183
.1
9.2R
1.10
00
1.00
32-8
2.8
-2.4
83.1
8.8
1.10
00
410.
1
11.2
-6.5
12.7
5.2
106.0
133.4
39.5
118.2
54.4
-118.1
-56.1
RISACC0
773.3
1.00
00
0.97
40-1
.5
-120.6
2.1
135.9
1.00
00
1.00
002.
7
152.1
-2.1
-135.9
XDO_IS11
XVK_IS11
XVA_IS11
XRO_UA01
100.0%RATEA1.100OV 0.900UVKV: <=30.000 <=120.000 <=150.000 <=220.000 <=330.000 <=400.000 <=500.000 >500.000
BLACKSEA REGIONAL MODELW¼SUMMER MINIMUM LOAD 2010¼
MON, MAR 19 2007 15:53
Bus - VOLTAGE (KV)Branch - MW/MVAREquipment - MW/MVAR
RUSSIA
4.18
4.3.5. RUSSIA
RUSSIA
4.19
Figure 4.9 – Russia – Load flows for Winter 2010 regime part 1
509204VGGES91
1.010505
1
147
302
602
-122
509214VGGES21
1.024225
1
57
1.0
000
1.0
670
281
91
-263
509344FROLO91
1.028514
375
-190
-374
92
514204VGGESG7
1.00014
7
115
45R
1.0
500
1.0
000
-115
-30
115
45
514214VGGESG8
1.00014
8
115
45R
1.0
500
1.0
000
-115
-30
115
45
514224VGGESG9
1.00014
9
115
45R
1.0
500
1.0
000
-115
-30
115
45
514234VGGESG0
1.00014
10115
45R
1.0
500
1.0
000
-31
115
45
514244VGGESGA
1.00014
11115
45R
1.0
500
1.0
000
-115
-31
115
45
514254VGGESGB
1.00014
12115
45R
1.0
500
1.0
000
-115
-31
115
514264VGGESGG
1.00014 1
7
1.0
500
1.0
000
514274VGGESGH
1.00014
18
1.0
500
1.0
000
514284VGGESGI
1.00014
19
1.0
500
1.0
000
514294VGGESGJ
1.00014
20 115
45R
1.0
500
1.0
000 -115
-30
115
45
514304VGGESGK
1.00014
21 115
45R
1.0
500
1.0
000 -115
-30
115
45
514314VGGESGL
1.00014
22 115
45R
1.0
500
1.0
000 -115
-30
115
45
-91
0
-115
45
565XRU_UA2R
1.000220
509194ALUM221
1.019224
1
234
97-283
-79
283
82 -283
-79
283
82
-283
-79
283
82
-40
60
-40
60
514324VGG34G
1.00014
3
115
48R
4
115
48R
1.1
000
1.0
000
-230
-26
514334VGG56G
1.00014
5
115
48R
6
115
48R
1.1
000
1.0
000
-230
-26
514344VGG13G
1.00014
13115
48R
14115
48R
1.1
000
1.0
000
-230
96
514354VGG15G
1.00014
15115
48R
16115
48R
1.1
000
1.0
000
-230
96
-26
-26
96
230
96
230
230
230
507134LIPEC91
1.045522-5
2
-146
202
-178
509404OTPNV91
1.048524 -5
9
-103
509354FROLO21
0.993219
1
28
41.0
000
0.9
822
172 -172
-7886
507034BORIN91
1.039519 -2
94
-108
295
59
507124LIPEC21
1.101242
1.0665
1.0000
-116
-58
116
61
1.0665
1.0000
-133
-66
133
69
1.0000
-58
116
61
1.0665
1.0000
-66
133
69
508604TAMBO91
1.036518
1
-21732
21090
G
21379
-20964
-119
34
119
-138
-59
-107
59
76
509624RGRES91
1.040520
1
77
34
-281
-50
283
-126
-281
-50
283
-126
-133
-116
1.0665
507084BORIN21
1.062234
1.0000
1.0239
127
11
-127
-7
1.0000
1.0239
127
11
-127
-7
507174ELEC 91
1.056528
143
-235
-143
507584NVAES91
1.031515
-103
-30
104
-132
152
512XRU_UA92
1.023512
-228
-92
229
-74
1.00020
13
500
104R
1.0000
1.0500
500
104
-499
-44
507334NVAESGD
1.00020
14
500
104R
1.0000
1.0500
500
104
-499
-44
507574NVAES21
1.099242
1
106
61
1
400
257R
1.0862
1.0000
-64
-99
64
101
1.0862
1.0000
-64
64
101
507784NOVAJ22
1.081238
1.0000
1.0455
49
-18
-49
19
1.0000
1.0455
49
-18
-49
18
508014STOSK91
1.009504
440
125
-438
-191
0
-178
-0 26
-99 50732
4NVAESGC
508594TAMBO21
1.048231
1.0
227
1.0
000
-226
-44
226
55
1.0
227
1.0
000
-226
-44
226
55-219
-96
509634MIHAI91
1.021511
1
-30751
38753
G
30630
-38430
-61
183
62
-272
-61
183
62
-272
514004RGRESG4
1.00020
4
241
34R
1.0500
-241
-15
241
34 51401
4RGRESG5
1.00024
5500
75R
1.0500
1.0000
-500
-38
500
75 51402
4RGRESG6
1.00024
6
514034RGRESG7
1.00020
7
1.0500
1.0000
-94
220
1.0000
1.0500
1.0000
505134S AES91
1.027514
1
-1794
4533
162
-241
-161
-244
132
13
-132
-2
509644MIHAI21
1.038228
1
-3290
G
3528
-7063
1.0000
1.0664
236
-146
1.0000
1.0664
144
231
-144
-216
147
-221
7307
508024STOSK51
1.055116
1
298
102
1.0000
1.1000
147
100
-147
1.0000
1.1000
148
101
-148
-84
508034STOSK81
1.004331
1.0000
1.0000
121
28
-121
-25
1.0000
1.0000
121
28
-121
-25
508134METAL91
1.011506
-99
-66
99
36
505554NBRAN91
1.022511
107
-258
-106
-54
506864ELEC 21
1.025225
0.9612
1.0000
-124
52
124
-49
0.9612
1.0000
-124
52
124
-49
-83
508164METAL01
1.009757
1.0
060
1.0
000 -99
-36
99
37
508064GUBKI81
0.998329
200
47
-200
-54
508284OEMK 81
1.004331
1
278
27
21 2
-21
-9
21 2
-21
-9
508144METAL81
1.0043311
18 1
-118
-4
118 1
-118
-4
508074LEBED81
0.996329
-274
275
73
508094VALUI81
0.991327
50 5
508154GOLOF51
1.051116
1
1 -0
1.0000
1.0455
35 -2
-35
3
1.0000
1.0455
35 -2
-35
3
1.0000
1.0000
-325
-36
325
51
1.0000
1.0000
-307
-38
307
49
508044GUBKI51
1.036114
1
259
79
G
-25
0
1.0
455
1.0
000
-86 86
13
1.0
455
1.0
000
-86
-8
86
13
28
28
-28
-8
506784K AES02
1.007755
1
191
98
734
-267
-731
-137
-77
-35
508114BELGO81
0.956315
117
89
-115
-118
508184LEBED51
1.035114 1
195
301.0
000
1.0
455
93
11
-93
-6
1.0
000
1.0
455
92
11
-91
-6
-48
518XRU_UA86
0.95931656
10
-56
-24
506624UZNAJ81
0.981324
179
10
-177
-45
508124BELGO51
0.975107
1
378
144
G
-27
-0 1.0
000
1.0
455 125
45
-124
-34
1.0
000
1.1
171 81
107
-80
-92
1.0
000
1.0
455 129
46
-128
-35
508234SHEBE81
0.956315
13
-11
-13
-6
514XRU_UA82
0.993328
31
-3
-31
-14
507604LISKI81
0.979323
20
-58
-20
4
508084VALUI51
1.006111
1
123
57
1.0455
1.0000
-101
-50
101
57
507614LISKI21
1.068235
1
91
15
1.0
000
1.1
000
-10
29
10
1.0
000
1.1
000
-10
29
10
-29
-28
-50
515XRU_UA83
0.957316
-1
-46
-12 508224SHEBE51
0.983108
1
40
12
1.0
455
1.0
00060
18 -14
-5946
506524ZELEZ81
0.954315
-197
-57
200
32
506554SADOV81
0.970320
-181
-101
182
95506614UZNAJ51
1.041115
1
76
1.1
291
1.0
000
-115
-105
116
118
1.1
291
1.0
000
-99
506694KURSK81
0.983324
-20
61
12
1.005332
1
205
100
-428
-204
431
213
-294
-143
296
141
77-107 107
112
-61
506XRU_UA01
1.006755
-389
-93
390
-137
506634K AES81
1.008333
1.0139
1.0000
-399
-113
400
133
506754K AES01
1.006755
-284
-135
284
122
506794K AESG3
1.00024
1
500
212R
2
500
212R
1.0493
1.0000
-999
-287
1000
423
506804K AESG4
1.00024
3
500
212R
4
500
212R
1.0493
1.0000
-999
-287
1000
423
516XRU_UA84
1.016335
-105 106
-60
517XRU_UA85
1.006332
-156
7
157
-31
137
203
-136
-203
26
1.006755
0
305
103-103
-214
1.0000
1.0024
387
44
-386
-26
-348
355
113
-231
-122
232
514604KAES2G1
1.00020
1
500
283R
1.0
515
1.0
000 -499
-228
500
283
514614KAES2G2
1.00020
2
500
282R
1.0
515
1.0
000 -499
-226
500
282
514624KAES2G3
1.00020
3
1.0
515
1.0
000
514634KAES2G4
1.00020
4
1.0
515
1.0
000
115
506764K AES82
-107
0.9
892
1.0
000
471
-47
-471
67
0.9
892
1.0
000
447
-43
-447
505564NBRAN21
1.057233
1
8
5
1.0
000
1.0
455
410
65
-409
-30
1.0
000
1.0
455
402
64
-402
-30
-228
506704KURSK51
1.034114
1
34
115
1.0
000
1.0
873 47
56
-47
-53 1.0
000
1.0
873
60
-50
-57 506734SEIMS81
0.981324
72
-6 -9
50
506514ZELEZ21
1.041229
1.1000
1.0000
-98
98
24
1.1000
1.0000
-98
-21
24
506534ZELEZ51
1.006111
1
344 0
1.0000
1.0664
58
19
-58
-17
1.0000
1.0664
60
19
-60
-17
1.0000
1.0664
58
19
-58
-17
1.0000
1.0664
56
18
-56
-16
1.0000
1.0664
19
-58
-17
1.0000
1.0664
20
-60
-18
98
58
60
-21
62
505544NBRAN01
505404S AES01
1.001751
1
100
50
1025
-243
-1022
14
1.026113
1
58
1.0873
1.0000
-93
-45
93
51
1.0873
1.0000
-88
-44
89
50
52 50654
4SADOV51
506724SEIMS51
1.020112
1
1
3
1.0
455
1.0
000 -72
-6
72
9
-72
553XBY_RU01
1.022767
-686
33
690
-478
1.0
290
1.0
000
408
-28
-408
44
1.0
290
1.0
000
408
-28
-408
44
514434S AESG
1.00020
5
500
236R
6
500
236R
1.0
493
1.0
000 -999
-335
1000
472
505004S AESG1
1.00020
1
500
118R
1.0000
1.0500
500
118
-499
-55
505054S AESG2
1.00020
2
500
118R
1.0000
1.0500
500
118
-499
-54
505304S AES81
1.067352
1.0000
1.0453
254
41
-253
-30
1.0000
1.0453
256
41
-256
-30
515634S AESG3
1.00020
3
500
117R
1.0500
1.0000
-499
-53
500
117
515644S AESG4
1.00020
4
500
119R
1.0500
1.0000
-499
-55
500
119
505284ROSL381
1.058349
-254
-45
255
30
-254
-45
255
30
554XBY_RU81
1.058349 -2
17
12
218
-28
505094TAL3381
1.021337
-133
-132
134
103
505294ROSL 51
1.058116
1
44
20
1.0
000
1.0
036
78
8
-78
-4
1.0
000
1.0
036
78
8
-78
-4
555XBY_RU82
1.0243387
0 -7
-70
-18505104TAL 21
1.065234
1.0
000
1.0
557
49
28
-49
1.0
000
1.0
537
72
34
-72
-31
505114TAL 51
1.072118
1
49
29
1.0
000
1.0
873
42
45
-42
1.0
000
1.0
873
43
-39
-40
39-42
-26
187
62
-185
-56
195
50
-192
-44
507624LISKI51
1.088120
1
46
24 1.0
455
1.0
780 39
23
-39
-21 1.0
455
1.0
780 38
22
-38
-21
507684BOBRO21
1.045230
1
2
048
46
-48
-51
507704PRIDO21
1.026226
76
29
-75
-38
64
22
-63
-34
507664PRIDO51
1.059116
1
135
45
1.1
000
1.0
455
-68
-32
68
36
1.1
000
1.0
455
-69
-32
69
36
507634BOBRO51
1.091120
1
103
1.1440
1.0455
-45
45
51
31
-47
RUSSIA
4.20
Figure 4.10 – Russia – Load flows for Winter 2010 regime part 2
581004SH-345
1.034114
1
25
-1
581354SH-305
1.044115
1
76
17
-20
3
20
-13
1
581694SH-145
1.033114
1
7
8 -42-8
581014G-20 5
1.027113
1
55
34
581214G-20 2
1.011222
1
1.1
000
1.0
455
-55
-34
55
581024SYSOE2
1.028226
1.029226
-0 0
-5
508XRU_UA22
1.025226
39
-16
-39
11
581034SYSOE5
1.033114
1
28
2
1.0
455
1.0
477
19
-3 3
1.0
455
1.0
477
19
-3 3
507XRU_UA21
0
581084B-10 2
1.013223
0
-1
-3
-7
581124EKSPT2
1.021225
0
2
52
29
-52
31
-32
3
-19-19
581054POGOR5
1.036114
1
38
17
12
-10
-11
4
581654VESHE5
1.015112
1
44
12-1
2 -7
1
581044POGOR2
0.994219
0
0
1.0
455
1.1
082 27
22
-27
-21
56
19
581714DONEC2
0.990218
0
1 29
3
-29
-7
581094B-10 5
1.075118
1
35
16
1.0
000
1.0
500
18
-14
-18
14
1.0
455
1.1
439
17 -17
-31
1.039229
0
1
-80
-37
80
581644VESHE2
0.991218
0
0
-14
-1
14
-28
32
32
-111
-36
112
35
1.0
455
1.0
561
57
7
-57
-4
1.0
455
1.0
561
57
7
-57
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581394CGEC 2
1.092240
1 7
-80
-33
82
20
581474NCHGP2
1 9
-44
-66
44
-44
-66
62
1.010505
1.0
245
1.0
000
-124
23
124
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1.0
245
1.0
000
-124
23
124
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1.028226
0
109
38-39
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1.0
455
1.0
780 46
7
-46
581904VDAES9
1.023511
509324UZNAJ91
1.009504 3
10
-171
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6-401
-89
405
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581894SNAES2
1.067235
1.0
244
1.0
000 -8282
-95
581914VDAESG
1.00020
1
17
1
1014
292R
1.0500
1.0000
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-156
991
275
581924VDAES9J
1.023511
171
-302
177
302
-177581934VDAES95
1.023511
1
171
498
43
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581944VDAES97
1.0235111
71
614
95
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62
0.997498
-187 129
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581804SH-309
152511XRU_UA91
581344SH-302
581814SH-502
-5
0.991218
1
6
-26
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21
612
509284ANDRI2
-55
38
1
-75
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19
1.086119
1
33
1.0
455
1.1
220 33-33
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581824SH-505
17
75
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1.093120
1
251
137 1.0
455
1.1
220 79
7
-79
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1.0
455
1.1
439 83
49
-83
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581274HZB 2
1.034227
0 2
-28
-31
29
25
581134EKSPT5
581724DONEC5
0.952105
1
29
6 1.0
455
1.0
121 29
7
-29
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23
1
581284HZB 5
1.049115
1
120
71
1.0000
1.0520
62
41
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1.0000
1.0520
58
39
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150
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581224P-20 2
1.019224
0 2-1
71
-47
174
56
174
56
581254P-4 2
1.033227
0 5
-183
-83
185
90
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-83
185
90
0-5
6
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57
26
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57
26
581464HCHGP8
1.008333
0 2
1.0515
1.1000
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-3
12 3
1.1000
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12 3
1.0515
1.1000
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12 3
581494NCHGRG1
1.00020
1 1
1.1000
1.0000
581514KOJSU2
1.034228
176
31
-173
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183
33
-180
581834NCHGRG2
1.00020
2
8 0
2
220
114R
1.1000
1.0000
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212
114
1.00020
3
8 0
3
204
110R
1.1000
1.0000
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196
110 58185
4NCHGRG4
1.00020
4
8 0
4
220
114R
1.1000
1.0000
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212
114 58186
4NCHGRG5
1.00020
5
8 0
5
220
115R
1.1000
1.0000
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212
115 58187
4NCHGRG6
1.00020
6
8 0
6
220
89R
1.1000
1.0000
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212
89 58195
4NCHGRG7
1.00020
7
8 0
7
220
1.1000
1.0000
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212
114 58196
4NCHGRG8
1.00020
8
8 0
8
220
112R
1.1000
1.0000
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-96
212
44
1.0515
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1.115123
1
113
48
1.0
455
1.1
220
56
27
-56
1.0
455
1.1
220
56
-56
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1
271.062
234
581294HEZ 2
1.067235
581844NCHGRG3
114R
112
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581304HEZ 5
513XRU_UA81
0.993328
108
-76
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36
0 3
143
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581184T-10 2
0.982216
0
2
-65
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65
65
581234P-20 5
1.094120
1
308
137
1.0455
1.1439
85
34
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1.1439
83
34
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1.022225
0
1
108
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40 -25
111
581264P-4 5
1.107122
1
101
45
G
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1.0455
1.1439
135
48
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1.0000
1.1000
49
19
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581664P-40 2
1.021225
0
1
-181
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95
182
581154T-15 2
0.983216
0
1
-60
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61
26
581674P-40 5
1.041115
1
120
57
1.0
455
1.1
000
60
33
-60
1.0
455
1.1
000
60
33
-60
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510XRU_UA24
0.990218
94
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1581164T-15 5
1.087120
1
94
29 1.0
455
1.1
659 27
9
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1.0
455
1.1
659 27-27
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455
1.1
659
13
-40
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60
1
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-8
40
9
28
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581544A-20 5
1.085119
1
63
19
G
0
-42 1.0
455
1.1
220 31
11
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455
1.0
780 32
-32
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34
581624A-30 2
1.011222
0 1
168
-166
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7
581534A-20 2
26
22
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4
581504BG-2 5
1.056116
1
12 5
-5 8
5
-11
581574OBLIV5
1.035114
1
33
14
1 -1
-1 -2
581524KOJSU5
1.100121
1
71
39
1.0000
1.1000
40
-52
-36
1.0000
1.1000
581554ZERNO2
1.034228
0
69
-18
-69
13
582714KRYLO2
1.055232
1
-42
32
55
-54
581634A-30 5
1.053116
1
26
11
1.0
455
1.1
165
27
12
-26
582154ST.MI2
1.002220
0
2
139
-10
-138
11
-11
1.042115
1
14
1.0
455
1.0
561
20
3 -2
1.0
561
19 -19
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581584SALJS2
0
1
30
-19
-30
-36
40
124
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582014TIHOR2
1.070235
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1.053116
1
40
G
-9
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582734TIHOR95
1.008504
0
166
497
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582704TIHOR9
1.008504
0
-488
65
488
-65
1.0000
228
228
31
-112
1.0
341
76
14
-15
-2
13
-24
3
-10
1.0664
1.0664
1.0000
-10
-228
4
21
-228
21
1.0821
1.0000
4
-40
-4 41
1.0821
1.0000
4-4
582024TIHOR5
1.067117
1
105
69
G
-13
1.0873
1.0000
-69
69
40
79
-100
-37
-39
40
0
-17
1.0
455
582544TIHOR8
582724KRYLO5
17
-3
-16
582054KUSHH5
1.034114
1
32
18
G
0
-5
-17
-2 1
582164ST.MI5
1.041114
1
101
47
G
-4
-54
-13
1
13
-8
1
24
-7
17
52
52
1.0
000
1.0
088
40
13
-40
-12
20
22
13
1.000330
1
1.0
455
-20
581594SALJS5
1.040114
1
67
0
1.0
455
1.0
561
20
10
-20
-10
22
11
-22
-11
581604PESCH2
1.0522320
-11
-24
11
12
0
1.039228
1.0
455
1.0
561
581324PROLE5
1.030113
1
42
8
21
-20
-20
20
6
-5
0
-6
2
5 4
-6
-5
5 -7
-5
43
2
614
-761
-95
509154KOTEL2
1.062234 1
5
-18
-15
7
1.082238
1
1
0
-96
105
97
-105581364VDTEC2
1.087239
1
1 1
-95
105
95
-105
1
581374VDTEC5
1.182130
1
83
21
G
-3 -2
1.0455
1.1220
-38
-30
39
31
25
-35
-25
32
581424ZIMOV2
1.089240
0-5
1
15
-51
15
581794VDTECG4
1.00018
4
1.0455
1.0000
1.117123
1
33
15
G
-1
1.0455
1.0477
-18
18
1.0455
1.0477
-40
-40
40
42
-1
-18
51
0
581434ZIMOV5
1.103121
1
53 1
G
0 -1
1.0455
1.0473
-7
-22
8
1.0455
1.0473
-7
-22
8
588014ELIST2
1.077237
0 1
58
-57
-7
22
22
588024ELIST5
1.017112
1
57 5
1.0455
0.9902
57 6
-57
4
98
581884GOROD2
-21
-21
51
2
581614PESCH5
1.075118
1
211.0
455
1.0
780
10
2
-10
1.0
455
1.0
780
10
2
-10
582034SVETL2
1.058233
1
5
4
-32
-17
13
32
-2-2
4
38
8
-37
-17
0
581564ZERNO5
-5
190
30
160
32
73
-24
1.0
455
1.1
000
33
5
-33
-3
1.1
000
32
6 -3
-32
1.0
455
-171
-83
1.0455
-40
6
44 -4
581484B.MAR5
1.050115
1
14 2
-23
624 -8
-17
82
10
-77
-039
6-39
-6
19
581144EKSPTG
1.00411
1
89
90H
1.1
000
1.0
000 -89
-88
89
90
581204PTEC25
1.107122
0
1 140
-140
-77
79
581784RTEC G
1.00011
1
141
93R
1.1
545
1.0
000 -141141
93 -80
581334ZHUKO5
1.160128
1
3 -1
-13
-12
13
30
97
-29
-91
55
14
-52
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581704VDTECG1
1.1978
1
14 5
1
46
113L
1.1000
1.0000
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-96
32 58177
4VDTECG3
1.15013
1
7 2
2
7 2
1
100
55L
2
100
55L
1.1000
1.0000
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-75
186
105
108
10
581414CGES G
1.01611
1
142
0L
1.1000
1.0000
-142 6
142
0
581404CGEC 5
581194T-10 5
0.956105
1
124
51
1.0
000
0.9
500 63
-27
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32
1.0
000
1.0
659 62-61
-83 95
581314SHGTU5
1.045115
1
13
3
G
-2
17
-1
-17
1
-30
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14
509134VOLGA91
1.013507
1
2
196
-53
-196
-66
509334UZNAJ22
1.008222
1.0
000
1.0
244
27
120
-27
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509494TRUBN91
0.980490
1
-20048
14601G
19397
-14419
115
452
-239
0
-446
509294TRUBI21
1.018224
1
1
0
1.0
455
1.0
000 -99
-26
99
29 1.0
455
1.0
000 -99
-26
99
29
509024BALAS91
1.046523
-217
-26
219
509084VOLGA21
1.018224
1
67
17
1.0244
1.0000
-91
-85
91
90
1.0244
1.0000
-92
-88
91
-601
93
108
-236
225
1.020224
40
-61
40
-61
509174JUBIL21
1.015223
-82
-86
509224VOLZ151
1.043115
1
87
134 1.1
000
1.0
455
43
-29
-42
32
-61
31
61
-33
-61
61
-33
509424VOLZS51
1.057116
1
46
12
1.0
455
1.1
000
18
43
-16
509434PRIMO21
1.011222
45
4
-45
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31
-4382
509234VOLZ 21
52
-148
509014BALAS51
1.123124
1
157
95
1.1
000
1.0
000
-111
-60
111
67
1.1
000
1.0
000
-84
-45
84
51
1.1
000
1.0
000
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-58
108
65
509034BALAS21
1.073236
1
-4482
5899
G
4388
-5818
1.0
000
1.0
455
4
98
-4
-95
-201
22
59
-129
RUSSIA
4.21
Figure 4.11 – Russia – Load flows for Winter 2010 regime part 3
583624STGRE92
1
168
1.014507
582534KROPO8
0 1-7
9
81
582124BRJUH5
1.026113
1
114
48
G
-3 -35
-23
3
-45
-31
582304KROPO5
1.070118
1
51
G
-5
1.0664
1.0000
-127
-11
127
19
582334ARMAV8
1
-48
-101
-44
583604STGRE90
-30
123
30
-123
583444STGRE8
1.0450
1.0000
44
-44
12
1.0450
1.0000
43
-12
-43
12
583584STGRSG7
1.00020 7
150
1.0
000
1.0
500-150
-97
583594STGRSG8
1.00020
8
12
11
8
150
1.0
000
1.0
500 138
108
-137583614STGRE91
1
404
42
-98
108
150108R
1.126248
1.0
000
1.1
000
90
29
-90
-26
582354ARMAV5
1
126
68
G
1.0000
1.0664
80
25
1.0000
1.0664
25
-78
-20
1.0000
1.0664
118
38
-118
-31
583104NEVGR8
1.027339
1
5
-30
-247
12
-378
-100
99
-378
-100
-20
99
-12
-404
1.058349
4
0
119R
786
-80
583014STGRSG1
1.02521
1
24
24
1
300
94R
1.0000
1.0515
276
70
-275
-47
1.124124
1
26
10
G
0 -1
1.0664
1.0000
-83
-0
1.0873
1.0000
-41
118
583034STAVR8
1.025338
1
-428
-74
85
583804STGRSG2
1.02521
2
200
1.0515
1.0000
-200
-54
200
67
583814STGRSG3
1.02521
3
1.0515
-55
200
6758382
4STGRSG4
1.02521
4
211
67R
1.0000
1.02521
5
300
78R
1.0000
300
78
1.02521
6
300
79R
1.0515
-54
300
79
583024STGRE5-1
18
83
1.0000583844STGRSG6
1.0515
67
-54
1.0000
-3005
583834STGRSG5 2
11
1.0515-300
381
-53
-2114
-200
48
582604CENTR9
1.016508
1
403
-20
67R
200
1.080119-1
0
-13
-7 -3
7 -0
-44 -2
582364KURGA5
1.019112
1
54
30
G
-6 -7
77
10
-73
582424CENTR5
1.079119
1
157
77
G
-24
-30
23
-11
-21
582514HPCUS5
1.031113
1
27
G
-3 -2
349
-9
582784ZABAJ5
1.058116
1
18
10
G
-0 -1
18
8
-18
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-4
583114NEVGRG1
1.01718
1
11
5
1
150
80R
1.0
515
1.0
000
-139
-63
139
76
583124NEVGR5
1.048115
1
90
1
6
1.0
000
1.0
664
40
92
-39
-87
1.0
000
0.9
618
37
-131
-36
139
583154GEC-28
0.990327
0
2
320
117
-316
-119
583494GEC-48
1.021337
0
1251
159
-251
583874NEVGRG2
1.01718 2
150
75R
1.0
515
1.0
000
-150
583884NEVGRG3
1.01718 3
150
76R
1.0
515
1.0
000
-149
-62
150
76
583894NEVGRG4
1.01718 4
77R
1.0
515
1.0
000
-149
-62
150
77
583904NEVGRG8
1.01718 8
150
75R
1.0
515
1.0
000
-149 150
75
585104V-2 8
0.935309
0
337
52
-324
-54
100 -3
- 33
11
9
582414CENTR2
0 1
90
26
-88
90
26
-88
-38
-38
582374TVERS2
1.060233
0
1 -199
-61
200
63
582394GORJA2
1.031227
0
0
-186
189
45
1.0455
1.0780
70
24
-70
-19
1.0455
1.0780
71
24
0
149
25
1.0
664
1.0
000
-337
-65
1.0
664
1.0
000
-306
307
582614SHEPS2
0 0
139
20
-19
-147
1
582434DAGOM2 -3
2
-19
-71
-137
-74
-5
75 -1
582624SHEPS5
1.029113
1
14 4
1.0455
1.0561
62
20
-62
-16
-37
582084U-LAB5
1.003110
1
89
50
G
-41
43
10
-10-4
4331.013
334
49
77
150
-7
1.022225
0 0
1.0455
13
24
-22
-20
20
1.0455
1.08351.0506
-11
0
1.066234-5
9
81
88
337
168
-26
1.0
000
1.1
000
90
29 1.032
341
1.036228
582444DAGOM5
1.016112
1
21
G
0
1.0455
1.0561
61
25
-61
-22
1.0455
1.0561
61
25
-61
-22
582474PSOU 2
1.026226
57 -7 -7
-5
-12
49
543XGE_RU91
1.035518
-44
-245
-149
604XGE_RU92
1.000500
200006HENGU9
0
0
-247
44
249
-231
-42
3
-57
1.028226
546XGE_RU21
1.033227
-37
27
37
-32
582494PSOU 5
1.007111
1
5
2
1.0
455
1.0
561
61
34
-61
-30
200306BZYBI21
1
60
30
37
-27
70
-82
1.009222
200336SOUKH2
0.991218
1
100
50
-130
52
133
-49
1.020224
1
20
10
238
23
-233
-1
200096VARDI2
1.046230
262
46
-258
-33
200056HENGU2
1.053232
1
24
12
89
126-128
200106ZUGDI2
1.037228
1
80
4056
-99
200176BATUM2
1.004221
1
50
25
-93
46
95
201156VARDNG1
0.96713
1
60
13R
1.0
000
60
0.96713
2
60
13R
1.1
000
1.0
000
-60 60
13
201176VARDNG3
0.96713
3
60
13R
1.1
000
1.0
000
-60 60
13
542XGE_TR21
1.002221
310
-64
200116MENJI2
1.027226
1
80
40
-157
61
161
-7
-7
99
-89
-53
78
-58
19 -19
-24
61103THOPA 2
1.000220
-310
64 -53
-51
-306
18
201166VARDNG2
200326TKVAR2
-60
1.1
000
13-7
0.995498
335
4
-333
-103
1.0
206
1.1
000
113
145
-113
-138
201016HENGUG1
0.99716
1
233
1.0
000
1.0
000
51
233
-34
201026HENGUG2
1.00716 2232
0L
232
201036HENGUG3
1.00716
3
232
0L
1.0
000
1.0
000
-232
16
232
-0
201046HENGUG4
4
1.0
000
1.0
000
201056HENGUG5
1.00016 5
1.0
000
1.0
000
-233
16 1.0
000
1.0
000
-0
-232
1.008504
-34R247
582504MOSTO5
0.992109
1
57
24
G
-29
-25
26-4
583694ZAVET5
1.033114
1
7
-184
1 8
3
7
-4
25 2
- 25
- 3
30 -2
-29
2
583054CENGE5
1
2
-1
-55
15
-3
-17
0
-1
1.057116-1
67
19
-65-13 5834643-JPO5
1.050115
1
26
6
0
1
45
12
-4517
3
-17
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583094ZAPAD5
1.041115
1
52
26
-19
19
5
583424LESNA5
1.044115
1
11
8-16
-4
16
3
-5
-0
-60
250
75
-125 1.014
507
-399
150
-59
583044STAVR5
1.077118 1
33
1.0
000
1.0
664 42
19
-42
1.0
000
1.0
664 42
19
-42
-17
1.0
000
1.0
873 39
42
-39
-39
116
-115
-13
583634BLAGO8
1.010333
0
1
188
5
-186
-34
14
-17
583324PRIKU8
0.996329
0
2-128
-49
129
21
583644BLAGO5
1.024113
1
57
10
1.0245
57
12
-57
-10
381
-12
0
1.0000
583334PRIKU5
1.005111
1
191
48
1.0
000
1.0
245
30
-97
-24
1.0
000
1.0
245
94
29 -24
583714BUDEN8
-63
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64
6
-94
97
0.978489
1.0
000
1.0
301 297
57
-297
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1.0
000
1.0
301 297-297
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583724BUDEN5
1.012111
1
39
10
1.0
000
1.0
245 39
11
-39
583734BUDEN82
0 100
239
10
-239
-10
584024PROHL8
0.947312
253
52
-248
-74
57
0.997329
-10
587734CHI298
1.017336
239
-91
-228
8
587144CHIRJ8
1.017336
-228228
-8 8
-162
-50
102
587014CHIRJ5
1.038114
1
482
141
1.0
455
1.0
000
-180
180
49
1.0
455
1.0
000
-118
-20
118
587034CHIRG8
1.030340
300
153-155
587044CHGES8
1.030340
300
153
-299
-155
587104MAHAC8
0.977322
-568
-71
579
583744BUDEN95
0.978489
0
-595
-113
595
113
0-595
-113
583254MASHU8
0.949313
0
143
-23
-142
584034PROHL5
0.968106
1
119
44
1.0
000
1.0
455
62
26
-62
-23
1.0
000
1.0
455
57 -57
-21
584044BAKSA8
0.946312
0
1 -43
2-23
0.934308
0313
18
-310
-18
1
1
584054BAKSA5
1.003110
1
123
451.0
000
1.0
873
61
27
-61
1.0
000
1.0
873
27
-62
-23
584304NALJC8
0.940310
93
-93
-49
589014CHERK8
0.990327
0
1
-72
264
56
-22
386
117
-381
-113
1.011111
1
117
48
1.0
000
1.0
455
58
27
-58
-24
1.0
000
1.0
455
28
-5959
62-259
0.971107
1
261
75
1.0
664
1.0
000
-130
-37
130
48
1.0
664
1.0
000
132
585054V-5008
0.931307
0
-10
-123
10
119
10.980108
1
218
1.0
000
1.0
873 112
56
-112
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1.0
000
1.0
873 107
54-46
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11
211
-25
-132
-106
587114MAHAC5
1.031113
1
185
77
1.0000
1.0873
76
37
-76
-31
1.0000
1.0873
109
54
-109
-46
587124DERBE8
0.919303
432
113
-421
-77
587504IGES 8
1.008333
-49
-133
50
119
108
587394IRGAN5
0.981108
1
0.9827
1.0000
30
0.98716
1
0 8
2
0
1
40
70H
2
40
70H
1.0515
1.0000
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-120
80
-11
11
-30
125
587524IGES-G
547XAZ_RU81
0.894295
-270
-27
275
22
587134DERBE5
1.030113
1
146
44
1.0000
1.1500
72
27
-22
1.0000
1.1500
74
28
-74
-22
-72
80500AJASHM81
0.868287
1
265
30
270
27
-265
-30
32
-4
-31
31
587444CHGESG3
1.00016
1
2
62
1
200
133R
1.0
515
1.0
000
-198
-57
198
71
587454CHGESG1
1.00016
1
2
62
1
100
131R
1.0
515
1.0
000
-98
-64
98
69
587464CHGESG2
1.01016
1
1
33
1
200
136R
1.0
515
1.0
000
-88
199
587474CHGESG4
1.01016
1
1
33
1
107
135R
1.0
515
1.0
000
102
-198
-106
-95
107
103
200126TSCHA2
1.033227
1
60
3050
-42
-50
28
200136QUTAI2
1.039229
1
50
25
45
-35
-45
27
200066ZESTA2
1.047230
1
200
100
-27
-41-32
47
33
-4965
-41
-64
38
38
60612THOPA 3
1.015152
1
1.0
267
1.0
000 151-151
26
1.0
267
1.0
000 160-160
27
14
2-11
27
311
1
52
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1.0206
1.1000
118
115
-118
-109
1.0206
1.1000
118
115
-118
-109
200146MOLUT2
1.000220
1
200156KHASH2
1.016223
1
60
30
94
34
-93
200166GORI 2
1.010222
1
70
35
33
8
-33
-13
200076QSANI2
1.022225
1
37-37
-22 15
40
80
200016ZESTA9
200026QSANI9
0.984492
0
092
-24
-92
200286ACHAL9
1.001501
-6
33
-120
1.00016
589024CHERK5
-24
49-38
93
0585064V-5005
1.0
206
1.1
000
241
169
-240
-150
200196JHINV2
1.030227
1
36
18
-24
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24
13
200206LISI 2
1.013223
1
156
60
40
-59
-42
40
-59
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200226GLDAN2
1.012223
1
144
28
33
-28
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41
43
-103
6
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60
201216JHINVG1
0.96210
1
15
2
15
9R
1.1
000
1.0
000
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30
18
201236JHINVG3
0.96210
3
15
9R
4
15
9R1.1
000
1.0
000
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30
18
9R
200086TGARD2
1.045230
1
100
50
119
46
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200216DIDUB2
1.009222
1
170
85
85
42
-85
85 -85
1.027226
1
36-89
-33
90
31
-43
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163
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200236NAVTL2
1.014223
1
160
-52
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52
2
200246RUSTA2
1.027226
1
120
-6465
26
72
78
69
131-130
-66
157
81
-157
-79
200276GURJA2
0.973214
1
100
60
102
60
-100
-60
154
84
-153
-80
1.019224
1
50
25
-59
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59
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67
200256KHRAM2
200266MARNE2
80
60
541XGE_AR21
1.046230
G
0
0-4
200036TGARD9
0.986493
0
0
1.0
143
1.1
000 337
285
-336
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200046TGARD8
1.051347
1.1
020 100-100
201096TGARDG7
0.97818 1
130
50R
1.1
000
1.0
000
-130 130
201106TGARDG8
0.97818
2
130
50R
1.1
000
1.0
000
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130
50
201116TGARDG9
0.97818 3
130
50R
1.1
000
1.0
000
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-39
130
50
201126TGARDG0
1.00018 41
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1.0
000
1.00018 51
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1.0
000
201146TGARDGB
1.00018 61
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1.0
000
72
-162
50
0
-39
1.1
000
-5 9
-31
201136TGARDGA
585074MOZDO5
0.938103 1
98
1.0
245
1.0
000 -4949
21 1.0
245
1.0
000 -49
21 38-19-19
584314NALJC5
1
92
401.0
000
0.9
409
93
49
-92
-40
0.84893
0
0
326
109
0.938103
1
178
113
1.0
000
1.0
245
90
64
-90
-57
1.0
000
1.0
245
88
63
-88
-106
-56 583264MASHU5
587164MGES151
1.073118
1
94
49R
-93
-45
94
49
587274MGES152
1.073118
1
94
-93
94
49
-31
-45
25585134MOZDO8
49
4
-299
12
585014V-2 5
8
30
49R
583704BUDEN9
222
0.997329
3
-32242
582244KTEC 2
1
-130
-15
132
15 582384TVERS5
1.081119
1
28
6
1.0
000
1.0
552
34
23
-34
-20
1.0
000
1.0
555
33
23
-33
-20
5
582104KTEC-G
1.00011
1
3
2
1
0
73R 1.0
000
1.1
000
-2
71
3
-67
1.015223
0
1
-53
-68
54
66
-53
-68
54
66
582254KTEC G1
0.99218
1
9
71
150
90H
1.1
000
1.0
000 -140
-6583
582264KTEC 5
1.020112 1
255
148
G
-2
-24
1.0
455
1.0
780
122
53
-122
-39
1.0
455
1.0
780
120
52
-120
-38
582524AFIPS2
1.012223
0
1174
47
-172
582634VOSTO2
0.930205
0
1
163
56
-155
-38
582804KTEC G2
0.99218
2
9
7
2
150
90H
1.1
000
1.0
000 -140141
83
582814KTEC G3
0.98418
3
9
7
3
150
90H
1.1
000
1.0
000 -140
-68
141
83
582824KTEC G4
0.99218
4
9
7
4
150
90H
1.1
000
1.0
000 -140
-65
141
83
-65
-43
141
-9058234
4ARMAV2-2
424
582074U-LAB2
140
-20
-137
22
582114BRJUH2
1.013223
0 4
109
-107
27
582134SLAVJ2
0.967213
0
0
-130
-25
133
28
582234B.KOM5
1.024113
1
227
75
G
1.0
455
1.0
780
109
28
-108
-17
1.0
455
1.0
780
109
28
-108
-17
-184
-17
67R
-40
-10
-29
582194KIRIL2
0.916202
0
1
-79
80
11
582644VOSTO5
0.933103
1
75
19
1.0
455
1.0
780 75
26
-75
-13
-19
582174KRYMS2
0.937206
0
3
111
36
-110
-34
582204KIRIL5
0.968107
1
189
86
G
0
-51 1.0
455
1.1
220 95-94
-17 1.0
455
1.1
220 95
24
-94
-1724
582184KRYMS5
1.002110
1
127
48
G
0
-46
1.0
000
1.0
760
65
6
-65
-2
1.0
455
1.1
220
62
4
-62
0
-239
-48
248
81
582214AFIPS5
1.075118
1
93
38
G
-15
-64
1.1
000
1.0
455 -3737
-11
1.1
000
1.0
455 -41
14
156
19
-154
-16
12-12
41
1.031227
582404GORJA5
1.042115
1
26
14
1.0
455
1.1
000 29
18
-29
-16
582144SLAVJ5
0.998110
1
129
43
G
0
-361.0
455
1.1
000
129
25
-129
-7
-156
-25
582094KANEV2
1.004221
1
30
20
G
0 -7
-33
-42
28
1.0455
1.0605
31
-0
-31 2
1.0455
1.0780
57
-57
-18
42
-72
20
21
582224B.KOM2
582274KTEC G5
1.0006
5
76
80
5
87
128R
1.0
455
1.0
000
-11
-48
11
49
582454KPGEC5
1.013111
1
12
4
0
-5
-7
3
582694VOLKO5
1.021112
1
25 4
3
11 -4
-9 2
-3
582744SOCHI5
1.001110
1
68
40
26
10
-10
24
11
-24
-11
35
13
-13
-35
-26
9
0
582464KPGECG
0.9706
1
12
15H
1.1
000
1.0
00012
582484XOSTA5
0.998110
1
21
11
7
7
-6
-8
15 -14
-12
-16
5
17
-5
582754KUDEP5
1
11 3
-0
0 5
582764ADLER5
0.999110
1
18
7
2
-4
-2
3
0.999110
7
21 -2
-20
2
24 -2
-24
2
-11
-5
11
7
-11 -8
15
8
-15
-8
582774JUZN15
1.000110
1
28
11-1
-2
1
2
30
13
-30
-13
583504GEC-45
1.065117
1
117
61
1.0
000
-10
10
1.0
000
1.0
664
-10
10
-27
-27
28
28
-160
-2
5
583514GES-4G
1.03811
1
0 0
1
14L
1.0455
1.0000
-70
70 58355
4GES-35
1.074118
1
1 1
G
-70 -1
69
-014
70
2-6
9 2-51.0
664
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583144NEVGRG5
1.02811
5
6
5
5
70
1.0
455
1.0
000
-64
-28
65
32
583454NEVGRG
1.0006
1
92
33
1
49
31R
23
1.0
455
1.0
000
43
3
-43
-1
583474JUZN25
1.042115
1
37
20
7
-1
-7
-1
583854NEVGRG6
0.98918
6
6
5
6
90
74R
1.1
000
1.0
000
-84
-63
85
69
583864NEVGRG7
0.98918
7
6
5
7
80
71R
1.0
000
-74
-61
75
66
-42
1.1
000
37R
583164GEC-25
1.106122
1
68
0
4
1.0
515
1.1
789
-5
4
5
1.0
515
1.1
789
-5 5
-4-4
4
583174GES-2G
1.03611
1
0 0
1
30
20H
2
20
3
20
17R
4
20
17R
1.1000
1.0000
-90
-65
90
70
583214GES-15
1.112122
1
1
0
G
-25
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1
61
-0
583364GES-1G
1.01111
1
0
0
1
37
0L
1.1
000
1.0
000
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2
37
0
17R
139
1.014507
RUSSIA
4.22
Figure 4.12 – Russia – Load flows for Summer 2010 regime part1
509204VGGES91
1.016508
1
74
151
191
-187
509214VGGES21
1.033227
1
29
1.0
000
1.0
670
259
-61
-244
509344FROLO91
1.046523
133
-269
-132
154
514204VGGESG7
0.96413
7
115
2R
1.0
500
1.0
000
-115
11
115
2
514214VGGESG8
0.96413
8
115
2R
1.0
500
1.0
000
-115
11
115
2
514224VGGESG9
0.96413
9
115
2R
1.0
500
1.0
000
-115
11
115
2
514234VGGESG0
0.96413
10115
2R
1.0
500
1.0
000
11
115
2
514244VGGESGA
1.00014
11
1.0
500
1.0
000
514254VGGESGB
1.00014
12
1.0
500
1.0
000
514264VGGESGG
1.00014 1
7
1.0
500
1.0
000
514274VGGESGH
1.00014
18
1.0
500
1.0
000
514284VGGESGI
1.00014
19
1.0
500
1.0
000
514294VGGESGJ
1.00014
20
1.0
500
1.0
000
514304VGGESGK
1.00014
21
1.0
500
1.0
000
514314VGGESGL
1.00014
22
1.0
500
1.0
000
62
0
-115
565XRU_UA2R
1.000220
509194ALUM221
1.031227
1
189
80-106
-46
106
46 -106
-46
106
46
-106
-46
106
46
-28
46
-28
46
514324VGG34G
1.00014
341.1
000
1.0
000
514334VGG56G
1.00014
561.1
000
1.0
000
514344VGG13G
1.00014
13
14
1.1
000
1.0
000
514354VGG15G
0.96413
15115
27R
16115
27R
1.1
000
1.0
000
-230
5315
230
507134LIPEC91
1.047524S
W
179
88
-199
36
-165
509404OTPNV91
1.056528 1
21
-149
509354FROLO21
1.026226
1
14
21.0
000
0.9
822
96 -96
-810
507034BORIN91
1.050525
SW
23
16
-23
-71
507124LIPEC21
1.105243
1.0665
1.0000
-49
-55
49
56
1.0665
1.0000
-56
-63
56
64
1.0000
-55
49
56
1.0665
1.0000
-63
56
64
508604TAMBO91
1.017508
1
-12520
12694
G
12827
-12579SW
338
174
175
-173
-270
-64
-270
64
240
509624RGRES91
1.035517
1
39
17
-192
-28
193
-157
-192
-28
193
-157
-56
360
-49
1.0665
507084BORIN21
1.079237
1.0000
1.0239
69
-20
-69
21
1.0000
1.0239
69
-20
-69
21
507174ELEC 91
1.066533
11
-209
-11
507584NVAES91
1.061530S
W
184
-171
-126
172
-39
121
512XRU_UA92
1.059529
-172
-79
173
-102
-170
-83
170
-100
1.02220
13
500
75L
1.0000
1.0500
500
75
-499
-19
507334NVAESGD
1.02220
14
500
75L
1.0000
1.0500
500
75
-499
-19
507574NVAES21
1.132249
1
53
30
1
1.0862
1.0000
-39
-100
39
102
1.0862
1.0000
-39
39
102
507784NOVAJ22
1.114245
1.0000
1.0454
23
-27
-23
28
1.0000
1.0454
23
-27
-23
27
508014STOSK91
1.053526
174
11
-174
-103
185
-63
-185
-91
-100
507324NVAESGC
508594TAMBO21
1.044230
1.0
227
1.0
000
-72
21
72
-20
1.0
227
1.0
000
-72
21
72
-20-278
-142
509634MIHAI91
1.026513
1
-18040
23132
G
18378
-23058
SW
0
56
55
-55
-148
56
55
-55
-148
514004RGRESG4
0.97019
4
190
-43R
1.0500
-190
56
190
-43 51401
4RGRESG5
0.96723
5
625
-103R
1.0500
1.0000
-624
166
625
-103
514024RGRESG6
1.00024
6
514034RGRESG7
1.00020
7
1.0500
1.0000
-36
279
1.0000
1.0500
1.0000
505134S AES91
1.015507
1
-1076
2394
G
1335
-2166
SW
336
161
-266
-160
-214
132
-13
-132
24
509644MIHAI21
1.049231
1
-1974
G
2117
-4238
1.0000
1.0664
208
-33
1.0000
1.0664
32
204
-32
-196
33
-199
4384
508024STOSK51
1.121123
1
149
51
1.0000
1.1000
77
68
-76
1.0000
1.1000
77
69
-77
-63
508034STOSK81
1.052347
1.0000
1.0000
59 4
-59
-3
1.0000
1.0000
59 4
-59
-3
508134METAL91
1.054527
-98
-41
98
9
505554NBRAN91
1.038519
134
-247
-133
-72
506864ELEC 21
1.070235
1.0000
1.0000
-72
26
72
-25
1.0000
1.0000
-72
26
72
-25
-62
508164METAL01
1.049787
1.0
060
1.0
000 -98
-9
98
9
508064GUBKI81
1.051347
111 -9
-111
-2
508284OEMK 81
1.052347
1
139
14
4 8
-4
-15
4 8
-4
-15
508144METAL81
1.0513476
6
-13
-66
9
66
-13
-66
9
508074LEBED81
1.049346
-169
169
1
508094VALUI81
1.047346
83
-24
508154GOLOF51
1.104121
1
1 -0
1.0000
1.0454
19
-10
-19
10
1.0000
1.0454
19
-10
-19
10
1.0000
1.0000
-217
37
218
-28
1.0000
1.0000
-205
32
205
-27
508044GUBKI51
1.105122
1
129
40
G
-13
0
1.0
454
1.0
000
-40 40
-12
1.0
454
1.0
000
-40
13
40
-12
30
25
-30
13
506784K AES02
1.026770
1
95
49
SW
631
523
-496
-521
46
-9
-32
508114BELGO81
1.024338
108
46
-107
-84
508184LEBED51
1.098121 1
98
151.0
000
1.0
454
46
-2
-45
4
1.0
000
1.0
454
45
-2
-45
4
-22
518XRU_UA86
1.024338-77
-1
77
-15
506624UZNAJ81
1.022337
193
-56
-190
16
508124BELGO51
1.068117
1
189
72
G
-14
-0 1.0
000
1.0
454 58
5
-58
-2
1.0
000
1.1
171 39
94
-39
-86
1.0
000
1.0
454 60
5
-60
-2
508234SHEBE81
1.025338
63
-20
-63
2
514XRU_UA82
1.045345
-63
-16
63 -3
507604LISKI81
1.031340
20
-70
-20
10
508084VALUI51
1.087120
1
61
29
1.0454
1.0000
-41
-14
41
15
507614LISKI21
1.124247
1
46
7
1.0
000
1.1
000
-10
34
10
1.0
000
1.1
000
-10
35
10
-34
-33
-83
515XRU_UA83
1.024338
-9
41
-6 508224SHEBE51
1.067117
1
20
6
1.0
454
1.0
00022
5 -4
-22-41
506524ZELEZ81
1.001330
-109
-64
110
25
506554SADOV81
1.017336
-101
-48
101
38506614UZNAJ51
1.113122
1
38
1.1
291
1.0
000
-65
-71
65
75
1.1
291
1.0
000
-66
506694KURSK81
1.024338
-30
50
21
1.032340
1
102
50
-284
-71
285
66
-195
-52
196
41
38-60 60
71
-50
506XRU_UA01
1.032774
-264
8
264
-253
506634K AES81
1.033341
1.0139
1.0000
-75
-77
75
82
506754K AES01
1.026770
SW
315-42
-130
42
116
506794K AESG3
1.00024
1 2
1.0493
1.0000
506804K AESG4
1.00024
3
500
126R
4
500
126R
1.0493
1.0000
-999
-129
1000
252
516XRU_UA84
1.053347
-45 45
-95
517XRU_UA85
1.038343
-131
30
131
-57
-102
229
103
-229
55
1.018763
0
312
2-2
-154
1.0000
1.0024
44
-31
-43
35
-205
207
58
-148
-36
149
514604KAES2G1
0.99020
1
500
65R
1.0
515
1.0
000 -499
-21
500
65
514614KAES2G2
0.99020
2
500
66R
1.0
515
1.0
000 -499
-21
500
66
514624KAES2G3
1.00020
3
1.0
515
1.0
000
514634KAES2G4
1.00020
4
1.0
515
1.0
000
20
506764K AES82
-83
0.9
892
1.0
000
313
-105
-313
114
0.9
892
1.0
000
297
-98
-297
505564NBRAN21
1.083238
1
4
3
1.0
000
1.0
454
240
13
-240
-2
1.0
000
1.0
454
236
13
-236
-2
-302
506704KURSK51
1.100121
1
17
58
1.0
000
1.0
873 27
24
-27
-23 1.0
000
1.0
873
26
-29
-25 506734SEIMS81
1.027339
42
-35 18
29
506514ZELEZ21
1.084239
1.1000
1.0000
-73
73
55
1.1000
1.0000
-73
-52
54
506534ZELEZ51
1.064117
1
172 0
1.0000
1.0664
28 6
-28
-6
1.0000
1.0664
29 6
-29
-61.0000
1.0664
27 6
-27
-6
1.0000
1.0664
26 6
-26
-61.0000
1.0664
6
-28
-61.0000
1.0664
7
-29
-6
73
28
29
-52
107
505544NBRAN01
505404S AES01
0.999749
1
50
25
SW
895
614
-462
-612
194
1.093120
1
29
1.0873
1.0000
-52
-23
52
24
1.0873
1.0000
-49
-22
49
24
26 50654
4SADOV51
506724SEIMS51
1.083119
1
1
2
1.0
454
1.0
000 -42
19
42
-18
-42
553XBY_RU01
1.022766 -5
77
44
579
-499
1.0
290
1.0
000
122
-131
-122
134
1.0
290
1.0
000
122
-130
-122
134
514434S AESG
0.98520
5
500
178R
6
500
178R
1.0
493
1.0
000 -999
-226
1000
355
505004S AESG1
1.00020
1
1.0000
1.0500
505054S AESG2
1.00020
2
1.0000
1.0500
505304S AES81
1.063351
1.0000
1.0453
100
-15
-100
16
1.0000
1.0453
101
-15
-101
17
515634S AESG3
0.97520
3
500
61R
1.0500
1.0000
-499 3
500
61 51564
4S AESG4
0.97520
4
500
61R
1.0500
1.0000
-499 3
500
61
505284ROSL381
1.062351
-100
-6
100
-16
-100
-6
100
-16
554XBY_RU81
1.064351 -1
49
18
149
-37
505094TAL3381
1.041344
3
-100
-2
63
505294ROSL 51
1.070118
1
22
10
1.0
000
1.0
036
27
-7
-27
8
1.0
000
1.0
036
27
-7
-27
8
555XBY_RU82
1.0393436
1
-36
-61
10505104TAL 21
1.094241
1.0
000
1.0
557
3
12
-3
1.0
000
1.0
537
4
10
-4
-9
505114TAL 51
1.103121
1
24
14
1.0
000
1.0
873
26
35
-26
1.0
000
1.0
873
33
-24
-31
25-33
-11
109 3
-109
-7
111 -5
-111
1
507624LISKI51
1.153127
1
23
12 1.0
454
1.0
780 20
11
-20
-10 1.0
454
1.0
780 20
11
-20
-10
507684BOBRO21
1.107243
1
1
036
37
-36
-44
507704PRIDO21
1.107244
42
5
-41
-20
35
2
-35
-19
507664PRIDO51
1.154127
1
68
23
1.1
000
1.0
454
-38
-18
38
20
1.1
000
1.0
454
-38
-18
38
20
507634BOBRO51
1.169129
1
52
1.1440
1.0454
-35
35
43
16
-41
RUSSIA
4.23
Figure 4.13 – Russia – Load flows for Summer 2010 regime part2
581004SH-345
1.057116
1
12
-0
581354SH-305
1.058116
1
37
7
-9 3
9
-6 2
581694SH-145
1.062117
1
3
2 -53-2
581014G-20 5
1.073118
1
27
14
581214G-20 2
1.033227
1
1.1
000
1.0
455
-27
-14
27
581024SYSOE2
1.073236
1.074236
-0 0
-6
508XRU_UA22
1.067235
9
-21
-9
15
581034SYSOE5
1.080119
1
14
1
1.0
455
1.0
477
5
-5 5
1.0
455
1.0
477
5
-5 5
507XRU_UA21
0
581084B-10 2
1.042229
0
12
-5
-20
581124EKSPT2
1.033227
0
2
22
-8
-22
51
5
3
-5-5
581054POGOR5
1.090120
1
19
7
-1
-9
1
2
581654VESHE5
1.081119
1
22
5-4
-1 -4
4
581044POGOR2
1.036228
0
0
1.0
455
1.1
082 20
9
-20
-9
34
-0
581714DONEC2
1.034228
0
1 14
-2
-14
-3
581094B-10 5
1.112122
1
17
7
1.0
000
1.0
500
9
-21
-9
21
1.0
455
1.1
439
9 -9
-28
1.046230
0
1
-49
-2
49
581644VESHE2
1.050231
0
0
-7
-19
7
-14
28
-5
-79
-27
79
24
1.0
455
1.0
561
26
-3
-26
3
1.0
455
1.0
561
26
-3
-26
3
581394CGEC 2
1.069235
1 6
-72
-10
74
-4
581474NCHGP2
1 8
3
-4
-3
3
-4
-3
1.023511
1.0
245
1.0
000
-93
-9
94
11
1.0
245
1.0
000
-93
-9
94
11
1.038228
0
74
23-25
-8
1.0
455
1.0
780 25
1
-25
581904VDAES9
1.019509
509324UZNAJ91
1.012506
SW
167
58
-129
-58
-58-262
-53
263
-133
581894SNAES2
1.053232
1.0
244
1.0
000 -1313
-44
581914VDAESG
0.95519
1
17
1
900
-80R
1.0500
1.0000
-876
193
877
-97
581924VDAES9J
1.019509
SW
0
169
1
169
-1
-169581934VDAES95
1.019509
SW
01
169
344
-8
-344
8
581944VDAES97
1.019510S
W 0170
313
-120
-313
-3
1.018509
-94 31
-75
581804SH-309
75511XRU_UA91
581344SH-302
581814SH-502
-0
1.048231
1
3
-20
-33
13
331
509284ANDRI2
-34
14
1
-57
-19
17
1.108122
1
16
1.0
455
1.1
220 16-16
-7
581824SH-505
7
57
-737
1.105121
1
123
54 1.0
455
1.1
220 60
8
-60
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1.0
455
1.1
439 63
51
-63
-48
581274HZB 2
1.035228
0 2
-10
-7
10
1
581134EKSPT5
581724DONEC5
0.999110
1
14
2 1.0
455
1.0
121 14
2
-14
-2
23
1
581284HZB 5
1.074118
1
59
28
1.0000
1.0520
30
16
-30
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1.0000
1.0520
28
15
-28
-14
-33
69
-69
581224P-20 2
1.030227
0 2-7
5
-17
75
10
75
10
581254P-4 2
1.035228
0 5
-88
-23
89
20
-88
-23
89
20
0-2
8
-11
28
9
-11
28
9
581464HCHGP8
1.020337
0 2
1.0515
1.1000
-7 5
7 -5
1.1000
-7 5
7 -5
1.0515
1.1000
5
7 -5
581494NCHGRG1
1.00020
1 1
1.1000
1.0000
581514KOJSU2
1.045230
82
-16
-81
11
85
-17
-84
581834NCHGRG2
0.96019
2
8 0
2
220
34R
1.1000
1.0000
-212
-21
212
34
0.96019
3
8 0
3
220
35R
1.1000
1.0000
-212
-21
212
35 58185
4NCHGRG4
0.96019
4
8 0
4
220
34R
1.1000
1.0000
-212
-21
212
34 58186
4NCHGRG5
1.00020
5 5
1.1000
1.0000
581874NCHGRG6
1.00020
6 6
1.1000
1.0000
581954NCHGRG7
1.00020
7 7
1.1000
1.0000
581964NCHGRG8
1.00020
8 8
1.1000
1.0000
-3
1.0515
-7
-28
1.110122
1
55
191.0
455
1.1
220
28
10
-28
1.0
455
1.1
220
28
-28
-10
-10
1
101.044
230
581294HEZ 2
1.046230
581844NCHGRG3
-17
581304HEZ 5
513XRU_UA81
1.005332
61
-72
-60
28
0 3
81
-45
-81
-18
581184T-10 2
1.011222
0
2
-37
-36
38
30
581234P-20 5
1.109122
1
151
54
1.0455
1.1439
26
30
-26
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1.1439
25
29
-29
1.038228
0
1
60
-59
-60
57 11
30
581264P-4 5
1.119123
1
49
18
G
-2 -1
1.0455
1.1439
67
28
-67
1.0455
1.1000
21
-22
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23
581664P-40 2
1.030227
0
1
-88
-36
-26
35
88
581154T-15 2
1.011222
0
1
-29
-22
29
10
581674P-40 5
1.071118
1
59
23
1.0
455
1.1
000
29
12
-29
1.0
455
1.1
000
29
12
-29
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510XRU_UA24
1.007221
21
-17
-21
1121
-17
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11581164T-15 5
1.124124
1
46
11 1.0
455
1.1
659 13
3
-13
1.0
455
1.1
659 13-13
-3 1.0
455
1.1
659
5
-20
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24
-13
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12
-3
20
3
16
-55
-19
581544A-20 5
1.096121
1
31
7
G
0
-17 1.0
455
1.1
220 16
18
-16
-18 1.0
455
1.0
780 15
-26
-15
27
581624A-30 2
1.041229
0 1
84
-84
29
-31
581534A-20 2
13
8
-6
-8 6
581504BG-2 5
1.088120
1
6 2
-2 8
3
-11
581574OBLIV5
1.071118
1
16 6
5 -2
-5 -1
581524KOJSU5
1.124124
1
35
15
1.0000
1.1000
27
-28
-26
1.0000
1.1000
581554ZERNO2
1.058233
0
26
-38
-25
31
582714KRYLO2
1.082238
1
-57
46
27
-27
581634A-30 5
1.102121
1
13
4
1.0
455
1.1
165
13 5
-13
582154ST.MI2
1.048231
0
2
71
-35
-70
30
-4
1.071118
1
5
1.0
455
1.0
561
7
-3 3
1.0
561
6 -6
3
581584SALJS2
0
1
13
-26
-13
-26
27
55
-28
582014TIHOR2
1.094241
-8
1.090120
1
19
G
-23
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582734TIHOR95
1.020510S
W 0 0
170
343
-177
-339
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582704TIHOR9
1.020510
0
-339
66
339
-66
1.0000
114
114
111
-18
1.0
341
35
25
-6
-1
5
-23
3
29
1.0664
1.0664
1.0000
29
-114
4
-27
-114
-27
1.0821
1.0000
7
-41
-7 42
1.0821
1.0000
7-7
582024TIHOR5
1.102121
1
51
27
G
-6
1.0873
1.0000
-32
32
20
62
-88
-19
-40
41
0
-7
1.0
455
582544TIHOR8
582724KRYLO5
7
-0
-7
582054KUSHH5
1.092120
1
15
7
G
0
-2
-6
3 -5
582164ST.MI5
1.097121
1
49
19
G
-2
-21
-6
-1
6
-8
-3
11
-8
6
28
28
1.0
000
1.0
088
20 2
-20
-1
20
8 12
1.023337
1
1.0
455
-7
581594SALJS5
1.076118
1
33
0
1.0
455
1.0
561
6
9
-6
-9
6
9
-6
-9
581604PESCH2
1.0852390
0
-26
-0
13
0
1.073236
1.0
455
1.0
561
581324PROLE5
1.067117
1
21
3
19
-19
-18
18
2
-5
-0
-2
-3
5 7
-8
-6
6 -7
-5
21
1
313
-2891
120
509154KOTEL2
1.054232
-6 -3
6
-8
1.059233
1
1
0
-7
33
7
-36581364VDTEC2
1.061233
1
0 1
-6 32
6
-33
1
581374VDTEC5
1.110122
1
41 8
G
-1 -1
1.0455
1.1220
-43
60
43
-58
-4
-46
4
44
581424ZIMOV2
1.066234
0-2
5
17
-25
17
581794VDTECG4
1.00018
4
1.0455
1.0000
1.090120
1
16 6
G
-0
1.0455
1.0477
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24
1.0455
1.0477
-54
-32
54
34
-1
-15
25
0
581434ZIMOV5
1.079119
1
26 0
G
0 -0
1.0455
1.0473
-6
-11
6
1.0455
1.0473
-6
-11
6
588014ELIST2
1.070235
0 1
28
-28
-3
11
11
588024ELIST5
1.013111
1
28 2
1.0455
0.9902
28 2
-28
2
44
581884GOROD2
-24
-24
25
7
581614PESCH5
1.115123
1
101.0
455
1.0
780
5
1
-5
1.0
455
1.0
780
5
1
-5
582034SVETL2
1.089240
1
3
1
-10
-15
10
10
-1-1
2
13
2
-13
-12
0
581564ZERNO5
-2
94 -278 7
37
-36
1.0
455
1.1
000
17
2
-16
-1
1.1
000
16
2 -2
-16
1.0
455
-75
-25
1.0455
-23
10
25
-12
581484B.MAR5
1.075118
1
7 1
-16
6
17 -8
-23
53 -8
-51
11
27
-4-27
3
16
581144EKSPTG
1.00411
1
1.1
000
1.0
000 -0
0
0
-0
581204PTEC25
1.111122
0
1 100
-100
4
-3
581784RTEC G
0.96411
1
100
2R
1.1
545
1.0
000 -100100
2 2
581334ZHUKO5
1.109122
1
1 -0
-11 3
11
-2 30
2 -30
30 -1
-29
-0
581704VDTECG1
1.0006
1
14 5
1
42
-2R
1.1000
1.0000
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28 58177
4VDTECG3
1.00011
1
7 2
21
100
-7R
2
1.1000
1.0000
-93
17
93
-10
-7
-5
581414CGES G
1.00011
1
149
24R
1.1000
1.0000
-149
-17
149
24
581404CGEC 5
581194T-10 5
1.060117
1
61
20
0.9
500
1.0
000 31
4
-31
-3
1.0
000
1.0
659 30-29
-17 18
581314SHGTU5
1.059117
1
6
1
G
-1
8
-0
-8
-0
-15
-3-4
6
509134VOLGA91
1.021511
1
1
24
-10
-24
-117
509334UZNAJ22
1.045230
1.0
000
1.0
244
-3
-38
3
41
509494TRUBN91
0.967483
1
-11729
8760G
11638
-8652SW
305
117
33
-283
0
-32
509294TRUBI21
1.025226
1
0
0
1.0
454
1.0
000 -29
67
29
-66 1.0
454
1.0
000 -29
67
29
-66
509024BALAS91
1.062531
-59
-24
59
509084VOLGA21
1.035228
1
33 8
1.0244
1.0000
-52
-51
53
53
1.0244
1.0000
-54
-53
54
-191
54
161
-258
1.030227
28
-47
28
-47
509174JUBIL21
1.029226
-33
-1-2
509224VOLZ151
1.067117
1
43
67 1.1
000
1.0
454
32
-17
-32
18
-23
40
23
-42
-23
23
-42
509424VOLZS51
1.073118
1
23
6
1.0
454
1.1
000
12
32
-11
509434PRIMO21
1.034227
21
-16
-21
8
40
-3234
509234VOLZ 21
-88
-98
509014BALAS51
1.151127
1
79
48
1.1
000
1.0
000
-65
-39
66
42
1.1
000
1.0
000
-49
-29
50
32
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000
1.0
000
-64
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64
41
509034BALAS21
1.090240
1
-2509
3590
G
2633
-3491
1.0
000
1.0
454
124
96
-123
-91
-36
-4
-120
-85
RUSSIA
4.24
Figure 4.14 – Russia – Load flows for Summer 2010 regime part3
583624STGRE92
1
168
1.014507
582534KROPO8
0 1-7
9
81
582124BRJUH5
1.026113
1
114
48
G
-3 -35
-23
3
-45
-31
582304KROPO5
1.070118
1
51
G
-5
1.0664
1.0000
-127
-11
127
19
582334ARMAV8
1
-48
-101
-44
583604STGRE90
-30
123
30
-123
583444STGRE8
1.0450
1.0000
44
-44
12
1.0450
1.0000
43
-12
-43
12
583584STGRSG7
1.00020 7
150
1.0
000
1.0
500-150
-97
583594STGRSG8
1.00020
8
12
11
8
150
1.0
000
1.0
500 138
108
-137583614STGRE91
1
404
42
-98
108
150108R
1.126248
1.0
000
1.1
000
90
29
-90
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582354ARMAV5
1
126
68
G
1.0000
1.0664
80
25
1.0000
1.0664
25
-78
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1.0000
1.0664
118
38
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583104NEVGR8
1.027339
1
5
-30
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12
-378
-100
99
-378
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-20
99
-12
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1.058349
4
0
119R
786
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583014STGRSG1
1.02521
1
24
24
1
300
94R
1.0000
1.0515
276
70
-275
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1.124124
1
26
10
G
0 -1
1.0664
1.0000
-83
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1.0873
1.0000
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118
583034STAVR8
1.025338
1
-428
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85
583804STGRSG2
1.02521
2
200
1.0515
1.0000
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-54
200
67
583814STGRSG3
1.02521
3
1.0515
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200
6758382
4STGRSG4
1.02521
4
211
67R
1.0000
1.02521
5
300
78R
1.0000
300
78
1.02521
6
300
79R
1.0515
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300
79
583024STGRE5-1
18
83
1.0000583844STGRSG6
1.0515
67
-54
1.0000
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583834STGRSG5 2
11
1.0515-300
381
-53
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48
582604CENTR9
1.016508
1
403
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67R
200
1.080119-1
0
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7 -0
-44 -2
582364KURGA5
1.019112
1
54
30
G
-6 -7
77
10
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582424CENTR5
1.079119
1
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77
G
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23
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582514HPCUS5
1.031113
1
27
G
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349
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582784ZABAJ5
1.058116
1
18
10
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8
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583114NEVGRG1
1.01718
1
11
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1
150
80R
1.0
515
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000
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139
76
583124NEVGR5
1.048115
1
90
1
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664
40
92
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0.9
618
37
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139
583154GEC-28
0.990327
0
2
320
117
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583494GEC-48
1.021337
0
1251
159
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583874NEVGRG2
1.01718 2
150
75R
1.0
515
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000
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583884NEVGRG3
1.01718 3
150
76R
1.0
515
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000
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76
583894NEVGRG4
1.01718 4
77R
1.0
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77
583904NEVGRG8
1.01718 8
150
75R
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515
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75
585104V-2 8
0.935309
0
337
52
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- 33
11
9
582414CENTR2
0 1
90
26
-88
90
26
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582374TVERS2
1.060233
0
1 -199
-61
200
63
582394GORJA2
1.031227
0
0
-186
189
45
1.0455
1.0780
70
24
-70
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1.0455
1.0780
71
24
0
149
25
1.0
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000
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307
582614SHEPS2
0 0
139
20
-19
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1
582434DAGOM2 -3
2
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75 -1
582624SHEPS5
1.029113
1
14 4
1.0455
1.0561
62
20
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582084U-LAB5
1.003110
1
89
50
G
-41
43
10
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4331.013
334
49
77
150
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1.022225
0 0
1.0455
13
24
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1.0455
1.08351.0506
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0
1.066234-5
9
81
88
337
168
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000
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000
90
29 1.032
341
1.036228
582444DAGOM5
1.016112
1
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G
0
1.0455
1.0561
61
25
-61
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1.0561
61
25
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582474PSOU 2
1.026226
57 -7 -7
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543XGE_RU91
1.035518
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604XGE_RU92
1.000500
200006HENGU9
0
0
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249
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3
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1.028226
546XGE_RU21
1.033227
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27
37
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582494PSOU 5
1.007111
1
5
2
1.0
455
1.0
561
61
34
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200306BZYBI21
1
60
30
37
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1.009222
200336SOUKH2
0.991218
1
100
50
-130
52
133
-49
1.020224
1
20
10
238
23
-233
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200096VARDI2
1.046230
262
46
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200056HENGU2
1.053232
1
24
12
89
126-128
200106ZUGDI2
1.037228
1
80
4056
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200176BATUM2
1.004221
1
50
25
-93
46
95
201156VARDNG1
0.96713
1
60
13R
1.0
000
60
0.96713
2
60
13R
1.1
000
1.0
000
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13
201176VARDNG3
0.96713
3
60
13R
1.1
000
1.0
000
-60 60
13
542XGE_TR21
1.002221
310
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200116MENJI2
1.027226
1
80
40
-157
61
161
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99
-89
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78
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19 -19
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61103THOPA 2
1.000220
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64 -53
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18
201166VARDNG2
200326TKVAR2
-60
1.1
000
13-7
0.995498
335
4
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1.0
206
1.1
000
113
145
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201016HENGUG1
0.99716
1
233
1.0
000
1.0
000
51
233
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201026HENGUG2
1.00716 2
232
0L
232
201036HENGUG3
1.00716
3
232
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1.0
000
1.0
000
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16
232
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201046HENGUG4
4
1.0
000
1.0
000
201056HENGUG5
1.00016 5
1.0
000
1.0
000
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16 1.0
000
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000
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1.008504
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582504MOSTO5
0.992109
1
57
24
G
-29
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26-4
583694ZAVET5
1.033114
1
7
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1 8
3
7
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25 2
- 25
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30 -2
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2
583054CENGE5
1
2
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15
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0
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1.057116-1
67
19
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1.050115
1
26
6
0
1
45
12
-4517
3
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583094ZAPAD5
1.041115
1
52
26
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19
5
583424LESNA5
1.044115
1
11
8-16
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16
3
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250
75
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507
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150
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583044STAVR5
1.077118 1
33
1.0
000
1.0
664 42
19
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1.0
000
1.0
664 42
19
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1.0
000
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873 39
42
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116
-115
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583634BLAGO8
1.010333
0
1
188
5
-186
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14
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583324PRIKU8
0.996329
0
2-128
-49
129
21
583644BLAGO5
1.024113
1
57
10
1.0245
57
12
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381
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0
1.0000
583334PRIKU5
1.005111
1
191
48
1.0
000
1.0
245
30
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000
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245
94
29 -24
583714BUDEN8
-63
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6
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97
0.978489
1.0
000
1.0
301 297
57
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000
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583724BUDEN5
1.012111
1
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10
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000
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245 39
11
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583734BUDEN82
0 100
239
10
-239
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584024PROHL8
0.947312
253
52
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57
0.997329
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587734CHI298
1.017336
239
-91
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8
587144CHIRJ8
1.017336
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-8 8
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102
587014CHIRJ5
1.038114
1
482
141
1.0
455
1.0
000
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180
49
1.0
455
1.0
000
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118
587034CHIRG8
1.030340
300
153-155
587044CHGES8
1.030340
300
153
-299
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587104MAHAC8
0.977322
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579
583744BUDEN95
0.978489
0
-595
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595
113
0-595
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583254MASHU8
0.949313
0
143
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584034PROHL5
0.968106
1
119
44
1.0
000
1.0
455
62
26
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1.0
000
1.0
455
57 -57
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584044BAKSA8
0.946312
0
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0.934308
0313
18
-310
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1
1
584054BAKSA5
1.003110
1
123
451.0
000
1.0
873
61
27
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1.0
000
1.0
873
27
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584304NALJC8
0.940310
93
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589014CHERK8
0.990327
0
1
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264
56
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386
117
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1.011111
1
117
48
1.0
000
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58
27
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000
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28
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0.971107
1
261
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000
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130
48
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664
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000
132
585054V-5008
0.931307
0
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10
119
10.980108
1
218
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000
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587114MAHAC5
1.031113
1
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587124DERBE8
0.919303
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587504IGES 8
1.008333
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119
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587394IRGAN5
0.981108
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1.0515
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587524IGES-G
547XAZ_RU81
0.894295
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275
22
587134DERBE5
1.030113
1
146
44
1.0000
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72
27
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74
28
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80500AJASHM81
0.868287
1
265
30
270
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32
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587444CHGESG3
1.00016
1
2
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1.0
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587454CHGESG1
1.00016
1
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62
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1.0
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587464CHGESG2
1.01016
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1.0
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587474CHGESG4
1.01016
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107
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000
102
-198
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107
103
200126TSCHA2
1.033227
1
60
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200136QUTAI2
1.039229
1
50
25
45
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27
200066ZESTA2
1.047230
1
200
100
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47
33
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38
38
60612THOPA 3
1.015152
1
1.0
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267
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27
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311
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1.0206
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118
115
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118
115
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200146MOLUT2
1.000220
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1.016223
1
60
30
94
34
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200166GORI 2
1.010222
1
70
35
33
8
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200076QSANI2
1.022225
1
37-37
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40
80
200016ZESTA9
200026QSANI9
0.984492
0
092
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200286ACHAL9
1.001501
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1.00016
589024CHERK5
-24
49-38
93
0585064V-5005
1.0
206
1.1
000
241
169
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200196JHINV2
1.030227
1
36
18
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24
13
200206LISI 2
1.013223
1
156
60
40
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200226GLDAN2
1.012223
1
144
28
33
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0.96210
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201236JHINVG3
0.96210
3
15
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4
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30
18
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200086TGARD2
1.045230
1
100
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200216DIDUB2
1.009222
1
170
85
85
42
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1.027226
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200236NAVTL2
1.014223
1
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200246RUSTA2
1.027226
1
120
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200276GURJA2
0.973214
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102
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154
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200256KHRAM2
200266MARNE2
80
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1.046230
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0
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200036TGARD9
0.986493
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0
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200046TGARD8
1.051347
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201096TGARDG7
0.97818 1
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1.1
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201106TGARDG8
0.97818
2
130
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1.1
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50
201116TGARDG9
0.97818 3
130
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1.1
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130
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201126TGARDG0
1.00018 41
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1.00018 51
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201146TGARDGB
1.00018 61
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72
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0
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201136TGARDGA
585074MOZDO5
0.938103 1
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1.0
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000 -4949
21 1.0
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21 38-19-19
584314NALJC5
1
92
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0.9
409
93
49
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0.84893
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109
0.938103
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178
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245
90
64
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88
63
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587164MGES151
1.073118
1
94
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94
49
587274MGES152
1.073118
1
94
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94
49
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25585134MOZDO8
49
4
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12
585014V-2 5
8
30
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583704BUDEN9
222
0.997329
3
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582244KTEC 2
1
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132
15 582384TVERS5
1.081119
1
28
6
1.0
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34
23
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000
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555
33
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5
582104KTEC-G
1.00011
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3
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0
73R 1.0
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71
3
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1.015223
0
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54
66
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66
582254KTEC G1
0.99218
1
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71
150
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1.1
000
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582264KTEC 5
1.020112 1
255
148
G
-2
-24
1.0
455
1.0
780
122
53
-122
-39
1.0
455
1.0
780
120
52
-120
-38
582524AFIPS2
1.012223
0
1174
47
-172
582634VOSTO2
0.930205
0
1
163
56
-155
-38
582804KTEC G2
0.99218
2
9
7
2
150
90H
1.1
000
1.0
000 -140141
83
582814KTEC G3
0.98418
3
9
7
3
150
90H
1.1
000
1.0
000 -140
-68
141
83
582824KTEC G4
0.99218
4
9
7
4
150
90H
1.1
000
1.0
000 -140
-65
141
83
-65
-43
141
-9058234
4ARMAV2
-24
24
582074U-LAB2
140
-20
-137
22
582114BRJUH2
1.013223
0 4
109
-107
27
582134SLAVJ2
0.967213
0
0
-130
-25
133
28
582234B.KOM5
1.024113
1
227
75
G
1.0
455
1.0
780
109
28
-108
-17
1.0
455
1.0
780
109
28
-108
-17
-184
-17
67R
-40
-10
-29
582194KIRIL2
0.916202
0
1
-79
80
11
582644VOSTO5
0.933103
1
75
19
1.0
455
1.0
780 75
26
-75
-13
-19
582174KRYMS2
0.937206
0
3
111
36
-110
-34
582204KIRIL5
0.968107
1
189
86
G
0
-51 1.0
455
1.1
220 95-94
-17 1.0
455
1.1
220 95
24
-94
-1724
582184KRYMS5
1.002110
1
127
48
G
0
-46
1.0
000
1.0
760
65
6
-65
-2
1.0
455
1.1
220
62
4
-62
0
-239
-48
248
81
582214AFIPS5
1.075118
1
93
38
G
-15
-64
1.1
000
1.0
455 -3737
-11
1.1
000
1.0
455 -41
14
156
19
-154
-16
12-12
41
1.031227
582404GORJA5
1.042115
1
26
14
1.0
455
1.1
000 29
18
-29
-16
582144SLAVJ5
0.998110
1
129
43
G
0
-361.0
455
1.1
000
129
25
-129
-7
-156
-25
582094KANEV2
1.004221
1
30
20
G
0 -7
-33
-42
28
1.0455
1.0605
31
-0
-31 2
1.0455
1.0780
57
-57
-18
42
-72
20
21
582224B.KOM2
582274KTEC G5
1.0006
5
76
80
5
87
128R
1.0
455
1.0
000
-11
-48
11
49
582454KPGEC5
1.013111
1
12
4
0
-5
-7
3
582694VOLKO5
1.021112
1
25 4
3
11 -4
-9 2
-3
582744SOCHI5
1.001110
1
68
40
26
10
-10
24
11
-24
-11
35
13
-13
-35
-26
9
0
582464KPGECG
0.9706
1
12
15H
1.1
000
1.0
00012
582484XOSTA5
0.998110
1
21
11
7
7
-6
-8
15 -14
-12
-16
5
17
-5
582754KUDEP5
1
11 3
-0
0 5
582764ADLER5
0.999110
1
18
7
2
-4
-2
3
0.999110
7
21 -2
-20
2
24 -2
-24
2
-11
-5
11
7
-11 -8
15
8
-15
-8
582774JUZN15
1.000110
1
28
11-1
-2
1
2
30
13
-30
-13
583504GEC-45
1.065117
1
117
61
1.0
000
-10
10
1.0
000
1.0
664
-10
10
-27
-27
28
28
-160
-2
5
583514GES-4G
1.03811
1
0 0
1
14L
1.0455
1.0000
-70
70 58355
4GES-35
1.074118
1
1 1
G
-70 -1
69
-014
70
2-6
9 2-51.0
664
-5
583144NEVGRG5
1.02811
5
6
5
5
70
1.0
455
1.0
000
-64
-28
65
32
583454NEVGRG
1.0006
1
92
33
1
49
31R
23
1.0
455
1.0
000
43
3
-43
-1
583474JUZN25
1.042115
1
37
20
7
-1
-7
-1
583854NEVGRG6
0.98918
6
6
5
6
90
74R
1.1
000
1.0
000
-84
-63
85
69
583864NEVGRG7
0.98918
7
6
5
7
80
71R
1.0
000
-74
-61
75
66
-42
1.1
000
37R
583164GEC-25
1.106122
1
68
0
4
1.0
515
1.1
789
-5
4
5
1.0
515
1.1
789
-5 5
-4-4
4
583174GES-2G
1.03611
1
0 0
1
30
20H
2
20
3
20
17R
4
20
17R
1.1000
1.0000
-90
-65
90
70
583214GES-15
1.112122
1
1
0
G
-25
-2-61
1
61
-0
583364GES-1G
1.01111
1
0
0
1
37
0L
1.1
000
1.0
000
-37
2
37
0
17R
139
1.014507
TURKEY
4.25
4.3.6. TURKEY
TURKEY
4.26
Figure 4.11 – Turkey – Load flows for Winter 2010 regime – North West
TURKEY
4.27
Figure 4.12 – Turkey – Load flows for Winter 2010 regime – South West
TURKEY
4.28
Figure 4.13 – Turkey – Load flows for Winter 2010 regime - EAST
TURKEY
4.29
Figure 4.14 – Turkey – Load flows for Winter 2010 regime – North West
TURKEY
4.30
Figure 4.15 – Turkey – Load flows for Summer 2010 regime – South West
TURKEY
4.31
Figure 4.16 – Turkey – Load flows for Summer 2010 regime - EAST
UKRAINE
4.32
4.3.7. UKRAINE
UKRAINE
4.33
Figure 4.21 – Ukraina – Load flows for Winter 2010 regime – part1
1.043344.2
70928UNVOLJ51
1
61.5
10.2
1.0664
1.0000
159.5
26.6
1.051347.0
0.9
-159.1
-26.6
1.083119.2
1
148.9
55.8
1
200.0
1.066234.4
1.0309
1.0000
1.3
-13.2
1.099120.9
1.059233.0
-4.9
63.7
-2.5
70900UDTEC_21
1.059233.0
1
17.0
29.8
1
116.2
41.2
R-4
7.7
0.0
1.0000
1.0527
-76.6
53.8
77.2
1.060233.2
-6.9
-5.0
6.9
-5.6
1.077236.8
-131.6
-0.2
-1.3
1.059233.1
370.3
-52.8
-367.0
62.3
0.96917.4
7
140.0
56.9
R
1.0000
0.8889
140.0
56.9
79927UDTEC_G8
1.00018.0
8
1.0000
0.8889
-40.8
6.5
R
1.088119.7
79926UDTEC_G7
63.9
-44.3
1.0000
-6.9
7.0
1.0309
-5.1
-139.4
133.9
-0.2
-20.3
1.111122.2
1
84.8
13.0
1.0000
1.0664
111.3
-111.0
-12.4
1
124.9
22.6
1.082238.0
1.0000
1.0309
6.8
33.4
-5.3
19.4
-271.6
1.0455
170.3
-3.7
1.098120.8
1
237.7
38.1
-159.5
16.0
1.0000
-33.3
-33.1
-4.4
-6.8
70942UKOVEL21
-169.5
70955UKOVEL81
160.370954
UNVOLJ81
70927UDTEC_51
0.0
-63.4
47.7
70926UDTEC_22
70956UKOVEL51
1.062350.5
70901URAVNA81
1.048345.9
-411.3
0.1
416.6
3.7
1.049346.2
435.2
7.6
-0.9
70949ULUCKS81
1.054347.9
70985URAEC_01
1.024768.0
1.0470
1.0000
230.2
104.6
1.01124.3
5
57.0
40.0
5
1000.0
100.0
L
1.0000
0.9500
-941.0
943.0
60.0
1
16.0
13.0
1
210.0
5.0
L
1.0000
0.9397
-193.4
194.0
-8.0
0.99215.6
3
16.5
13.0
3
210.0
5.0
L
1.0000
0.9397
193.5
1.00815.9
2
13.0
2
210.0
1.0000
0.9397
-193.4
1.01316.0
4
16.5
13.0
4
210.0
54.5
R
1.0000
0.9397
-192.9
193.5
41.3
R
16.0
194.0
28.3
-10.0
47.7
41.5
-23.2
-192.9
26.4
-230.1
-89.5
496.8
-428.2
1.008756.02
.9
-661.9
-382.1
665.2
-237.4
0.99223.8
6
65.0
35.0
6
1000.0
205.0
R
0.9542
-67.7
935.0
170.0
1.0000
-933.8
105.4
181.6
1.058232.7
-185.2
-46.8
185.3
45.8
-181.1
-108.2
1.114122.6
1
201.8
G
-40.5
1.0000
185.2
46.8
-184.7
-30.1
199 G
-2.5
1.0000
1.0518
159.5
9.4
3.9
1.012333.9
1.0000
1.066234.6
145.8
-23.3
-145.4
15.2
53.4
-56.1
-2.5
59.1
232.7
1
93.4
24.4
99
20.4
-7.0
G
1.118123.0
199
25.7
G
-7.0
-4.0
1.1082
1.0000
-220.1
7.2
221.0
9.3
1.116122.8
1
60.3
7.8
1
84.1
19.1
-17.0
1.133124.6
1.118123.0
-4.5
210.9
1.110122.0
1.0736
-91.5
1.07542.16
124.5
96.9
-124.1
70935ULJUZN81
1.067234.7
1.010333.3
1.0000
1.1082
80.6
-80.3
-0.9
70933UBORIS51
70923ULJUZN51
-159.1
1.133124.6
1
101.9
12.8
99
7.0
1.063233.9
106.5
19.2
-106.3
-13.4
-20.4
-19.2
106.7
14.8
70921URAZDO51
-11.0
22.7
38.7
-30.0
-38.6
-106.5
1.0000
1.0736
70920URAZDO21
1.008332.8
1.0000
1.1082
14.0
-80.6
-9.7
80.9
70947ULJVZA81
81.0
6.4
-14.0
5.3
-80.970982
UJAVOR81
70983UJAVOR51
1.022337.4
-233.2
-55.2
234.1
44.2
1.013334.4
-112.3
-51.1
112.4
48.3
162.1
-0.4
-161.6
-11.7
275.6
42.0
-274.4
-47.9
70946UOTPLZ81
70948ULJVZA51
-8.0
1.0664
1.0000
-87.2
-19.9
87.5
25.0
5.6
1.033341.0
1.081237.9
-106.6
-13.7
106.8
12.5
1.079118.7
1
80.8
12.4
1.0000
1.0100
5.8
-5.7
-18.6
33.3
19.4
70961ULUCKJ51
1.092240.3
-70.3
-15.7
1.091120.0
1
11.0
1.0100
-36.5
3.2
1.0000
36.7
-1.7
0.99215.6
1.0000
1.0455
-186.2
-5.3
24.0
-4.9
-24.0
-186.7
273.770902
URAEC_81
187.7
1.035341.5
-87.5
-25.0
87.5
20.1
1.0000
1.0459
70.9
10.7
-8.5
70.7
8.5
-70.770940
UGRABO21
21.2
341.5
-22.3
1.114122.6
1
130.6
13.3
G
-113.0
-3.0
1.0000
1.0664
17.9
12.4
-17.6
-10.3
70903URAVNA51
-341.0
70930URADOV51
70929URADOV21
374.4
-5.0
-369.2
-277.1
-0.7
281.7
-23.5
1.0000
1.0664
75.0
-221.1
-59.3
221.9
628.7
2.0
70936URADOV81
70904URAEC_51
70944ULUCKS21
70931ULUCK221
65.9
86.0
-65.8
-99.9
1.0106-11.24
1.0000
-59.0
44.3
59.6
-39.6
1.0106-11.24
1.0000
-59.0
44.3
-39.6
1.024337.8
71.7
-32.9
-71.5
-120.4
120.4
0.0
1.022337.4
70941UZAPUK81
3.4
59.6
1217.5
70808UHAEC_01
1.043782.50
.0
651.5
505.0
20.4
-503.2
-506.0
94.6
-429.5
1.7
-943.0
1.008756.0
0.0
196XAL_ZA01
1.023767.3
-881.6
1.8
1.0106-11.24
1.0000
60.2
-40.1
609.2
886.4
943.0
0.0
70945UZUKR701
-59.6
43.6
56.7
-63.7
1.0946
1.0000
40.6
57.3
-57.1
-28.6
1.066234.5
-23.4
4.5
1.056232.3
1.090239.9
221.870909
UBUTEC21
143.8
57.6
23.8
1.068235.0
-220.1
1.0000
57.1
28.6
-56.9
-25.5
1.0800
-142.9
-36.2
-57.4
10.1
84.9
-29.7
1.064234.1
-48.6
1.072235.8
-122.7
36.0
123.3
-50.4
-19.5
19.6
45.9
70915UVOLOV51
1
18.4
99
30.5
G
-6.0
-9.0
1.0000
1.0736
19.5
48.6
-19.4
-46.8
1.118123.0
70914UVOLOV21
70969UOTPVO21
115.0
-203.01.068
235.0
-10.3
7.5
155XTI_MU21
1.070235.5
-16.2
-7.8
16.2
3.6
1.118123.0
1
299.3
63.4
G
-3.2
-14.0
1.0
736
1.0
000
-224.7
-98.8
225.4
116.3
1.034413.6
1.08322.55
1.0000
-184.2
-163.5
185.0
183.370919
UMUKAC11
65.4
154XKI_MU21
-65.2
1.037414.6
47.7
43.3
-47.7
-59.0
84XRO_MU11
1.035414.0
424.9
-66.3
504XVK_MU11
1.035414.1
276.1
-275.8
-20.7
1.042416.7
-286.3
-37.3
289.2
-51.3
78XSA_MU11
-424.3
62.6
13.1
0.9939
1.0000
-14.0
18.0
1.0500
1.0000
152.5
-24.9
70908UBUTEC82
1.0
000
1.0
354
-1.1
6
-100.0
-96.3
108.0
70957UBUGRE51
1.104121.4
1
21.1
4.1
1.0000
1.0100
48.9
-3.3
-48.8
5.6
70970UKALUS21
1.087239.1
133.3
3.4
-132.9
-10.6
1
11.8
7.5
1
130.0
40.0
R
1.0000
0.9079
-117.6
-22.9
118.2
32.5
1.00315.8
2
11.8
7.5
2
130.0
38.9
R
1.0000
0.9079
-21.6
118.2
31.4
1.00315.8
3
11.8
7.5
3
130.0
1.0000
0.9079
-117.6
-22.9
118.2
32.5
1.00315.8
4
11.8
7.5
4
130.0
1.0000
0.9079
-117.6
-23.1
32.7
1.00315.8
5
11.8
7.5
5
130.0
39.7
R
1.0000
0.9079
-22.6
118.2
32.2
1.00315.8
6
11.8
7.5
6
81.0
1.0000
0.9079
-68.8
-26.9
69.2
32.5
1.00015.8
7 7
1.0000
0.9079
100.3
40.0
R
40.0
R
-117.6
-117.6
40.2
R
118.2
1.00315.8
-151.9
33.3
1.033340.9
1.087239.1
1.5
39.6
-3.6
1.139125.3
1
80.4
13.8
G
-23.0
-10.0
1.0000
1.0518
14.2
-93.0
-10.6
-39.6
93.3
70910UKGPP_21
1.143125.8
1
30.0
4.5
G
-24.0
-10.0
1.0000
39.6
-1.5
-39.3
3.6
1.0518
137.7
-137.3
-460.3
0.0
460.3
0.0
61.2
-61.0
-85.0
8
10.0
8
200.0
73.8
R
1.0000
0.9397
-185.8
-44.6
186.7
63.8
0.99215.6
9
13.3
9
200.0
1.0000
0.9397
-185.8
-34.2
186.7
1.00015.8
10 10
1.0000
0.9397
11
13.3
10.0
11
73.7
R
1.0000
0.9397
-185.8
-44.5
186.7
63.7
1.00015.8
12 12
1.0000
0.9397
0.99715.7
200.0
10.0
63.0
H
53.0
0.99715.7
-389.7
0.0
69.6
1.033340.9
70907UBUTEC81
13.3
79911UBUTECGA
26.4
1.024337.9
-44.5
85.8
14.4
1.023337.5
-305.9
-68.6
307.0
63.7
-85.6
-10.0
-36.4
36.4
1.9
1
19.6
7.0
1.0000
1.0873
35.1
8.1
-35.0
-6.5
1.105121.6
-12.0
0.991327.0
232.0
56.2
70906UI_FRA51
1.105121.5
1
51.6
13.0
1.0000
1.0873
110.3
24.4
-109.8
-19.3
70958UBOGOR81
70959UBOGOR51
68.7
156.0
-91.3
-155.2
1.059349.6
70809UHAEC_81
501XPL_UA01
1.063797.0
-343.6
-26.1
344.4
-482.2
355.2
-307.8
1.0000
1.0236-6.04
-258.0
95.2
260.4
-78.4
1.00024.0
2
52.0
28.0
2
1000.0
1.0000
0.9542
-946.7
22.8
948.0
78.0
106.0
R
378.4
31.1
1.034341.2
463.0
26.5
1.02024.5
1
52.0
25.0
1
1.0000
0.9500
-946.6
-47.8
948.0
159.3
184.3
R
1000.0
173.4
-2.2
70814UTERNO51
1.047115.2
1
233.4
52.7
G
-2.0
-10.2
1.0000
1.0436
257.9
75.8
-257.0
-54.9
73.3
70950ULUCKS51
186.7
-31.3
-172.4
1.083119.2
1
280.6
111.9
G
-1.0
-0.4
1.1491
1.0000
-145.3
324.7
185.2
-95.7
-109.5
-323.4
-63.7
2.5
70943UNVOLJ21
70967UOTPL221
70922ULJUZN21
70924ULJVOV21
70925ULJVOV51
70968UOTRPO21
70913USTRIJ21
70932UBORIS21
70912USTRIJ51
70917UMUKAC21
70916UMUKAC51
79917UBUTECG5
79919UBUTECG7
79918UBUTECG6
79916UBUTECG4
79914UBUTECG2
79909UBUTECG1
79915UBUTECG3
70911UKGPP_51
70971UKALUS51
70934UBUTEC11
79913UBUTECGC
79910UBUTECG9
79908UBUTECG8
79912UBUTECGB
70991UZAPUK82
70981UOTPRA81
70938UGRABO51
-430.3 70937
UGRABO81
79985URAEC_G6
79904URAEC_G4
79900URAEC_G5
79902URAEC_G3
79903URAEC_G2
79901URAEC_G1
79809UHAEC_G1
79808UHAEC_G2
70820UCERNC51
-229.0
-75.7
70821UCERNO81
70905UIFRAK81
1.098120.8
1
258.5
68.2
G
-5.0
-3.3
1.0864
87.8
-249.7
30.2
-76.0
-9.7
-454.570810
UHMELJ8170813UTERNO81
-62.6
251.0
1.0000
70811UHMELJ51
70818UBAR3 81
70995UZUKR702
UKRAINE
4.34
Figure 4.22 – Ukraina – Load flows for Winter 2010 regime – part2
0.0
622.3
1.007755.40
.0
608.3
-94.5
-424.3
70827UVN_7501
99127.0
-353.9
-517.1
70803USEPET81
1.047345.4
-375.3
-33.3
1.019336.1
32
96.6
82.3
1.058349.0
1
260.0
245.2
133.2
-242.7
-147.0
1
153.9
72.0
G
-8.4
-15.6
1.0000
1.0864
-145.5
-56.4
64.7
70839UKPODO51
146.0
70828UKPODO81
1.053347.3
-316.6
-34.1
29.6
1.112122.3
1
98.4
46.3
1
117.0
38.6
R
1.0000
1.0655
135.7
53.3
-135.1
-45.9
1.067352.2
1
324.0
156.0
H
-438.4
-86.4
317.5
70805UDSGEC81
519XMD_UA81
88.1
1.049346.1
51.3
-87.5
-51.1
1.043344.1
65.4
-95.4
-65.0
24.8
-30.0
35.4
70822ULDTEC81
129.7
R
70806UDSGEC51
440.1
43.1
1.046345.1
77.1
-76.9
14.7
70819UBAR1 51
1.107121.7
1
29.8
9.1
1.0000
1.0864
37.3
-55.3
-33.6
55.5
1.037342.1
-30.1
-38.0
30.1
-16.1
0.984324.9
-499.1
-92.5
509.9
135.6
2.5
-4.1
-2.5
-29.8
70823ULDTEC51
1.105121.5
1
219.8
91.3
G
-13.0
-10.2
1.0864
207.5
96.2
-81.1
1.051346.9
-79.5
-44.5
79.7
14.3
1.00520.1
2
15.7
8.0
2
260.0
42.6
R
1.0000
0.9550
-243.6
-15.3
34.6
1.00520.1
3
15.7
8.0
3
260.0
42.6
R
1.0000
0.9550
-243.6
-15.3
244.3
34.6
1.00520.1
4
15.7
8.0
4
260.0
42.6
R
1.0000
0.9550
-243.6
-15.3
244.3
34.6
1.00020.0
5 5
1.0000
0.9550
1.00020.0
6 6
1.0000
0.9550
70530UKOTOV81
70851UDNGAE81
1.0000
-206.8
1.00020.0
1 1
1.0000
0.9550
79823ULDTECG1
79824ULDTECG3
244.3
79822ULDTECG2
79825ULDTECG4
79827ULDTECG6
79826ULDTECG5
70802UVINNI51
1.022112.4
1
337.6
117.1
G
-3.6
-2.0
1.0000
1.0018
273.8
101.0
-272.9
-77.9
-353.4
53.4
354.3
-55.2
-41.7 70801
UVINNI81
1.039114.3
1
21.8
9.1
1.0018
1.0000
-84.1
-11.8
84.4
17.9
1.0546-4.53
1.0000
-545.6
-68.3
546.8
109.1
1.050346.6
27.2
-17.3
-27.2
-17.1
70825UVN_7551
70826UVN_7581
70840UKAZAT81
70599UJUAZS01
0.959719.3
305.2
-644.9
-302.8
15.0
149.6
-54.5
-149.5
-308.2
0.981323.6
-34.7
74.8
26.0
0.978322.6
-58.5
127.2
50.8
0.986325.4
169.3
-45.1
70529UKOTOV51
1.084119.2
1
76.7
33.2
G
-4.0
-1.5
1.1291
1.0000
-127.4
-51.3
127.8
60.9
-126.9
-74.7
522XMD_UA84
-167.4
14.7
524XMD_UA86
523XMD_UA85
70344UPOBUZ81
1
68.9
35.2
1.0000
1.0320
280.3
75.0
-279.6
-57.2
70520UJUAZS81
1.050346.4
-250.3
-37.0
251.9
17.0
1.055158.2
70345UPOBUZ31
0.972320.8
0.983324.2
116.1
13.4
-115.5
-35.4
0.962317.5
25.2
-51.4
70515UARCIZ51
0.986108.5
1
93.5
27.7
G
0.0
-3.5
1.0000
-140.2
-26.2
140.6
34.7
-25.1
1.0264
70545UARCIZ81
0.7
0.983324.3
128.9
-135.4
70508UUSATO81
0.959316.6
70513UNODES51
0.984108.2
1
281.5
113.7
1.0000
1.0655
313.2
150.9
-312.4
-114.9
190.3
525XMD_UA87
-189.4
521XMD_UA83
70512UNODES81
70710UBCERK81
-21.9
-82.8
-41.9
1.087119.6
1
28.6
14.1
1.0655
1.0000
-109.6
109.9
59.0
-50.570830
UKAZTN51
70703UCAEC_01
0.973729.42
.7
850.8
-339.8
-743.4
341.7
1.033340.7
1.0000
1.0033
356.9
-105.8
-356.7
127.7
1.030339.8
1
11.6
4.7
1.0000
1.0530-4.17
168.5
-53.7
-167.8
1.0000
1.0530-4.17
168.5
-53.7
-167.8
60.1
60.1
1.033340.9
-20.6
70804USEPET51
1.071117.8
1
144.0
41.2
G
0.0
-7.2
1.0000
1.0436
163.8
50.5
-163.2
-38.0
-209.0
211.6
-17.2
70713UZITOM51
1.159127.5
1
249.5
63.7
1.0000
1.1491
289.4
97.3
-288.4
-70.7 70720
UTPTEC81
1.071353.4
1
63.7
13.5
-158.6
-81.2
160.7
21.1
1.026338.7
78.1
4.6
-77.9
-32.9
70712UZITOM81
107.5
-34.4
-106.8
-15.7
70730ULESNA51
1.016111.7
1
184.1
38.0
1.0018
184.7
48.6
-184.1
-38.0
1.0000
70729ULESNA81
1.019764.0
-424.4
-494.3
539XUA_BY81
1.032340.4
-153.4
41.7
-50.0
70723USEVER81
1.022337.3
-127.5
27.3
70728UCAEC_51
1.052115.8
1
44.5
-1.1
1.0000
1.0227
0.8
145.5
-68.5
-145.1
50.2
44.8
153.670727
UCAEC_81
479.570772
UKIEV01
-44.5
1.1
1.055348.2
109.5
189.6
-133.7
-166.1
-34.0
167.0
6.0
-188.0
70773UKIEV81
70721UKTEC_86
1.033340.9
123.3
-66.8
-132.5
1.129124.2
1
443.8
176.2
1
448.0
87.9
R
1.0000
1.1700
104.5
231.6
-212.6
-103.6
70724USEVER51
1.058116.4
1
15.1
1.1
-15.1
1.039342.8
129.9
36.9
-129.6
-51.7
-1.1
1.0227
1.0000
1.036341.8
15.2
70722UKTEC 56
1.127124.0
1
223.7
91.8
1.0000
1.1073
-6.9
60.6
7.4
1.040343.0
223.5
-91.9
-222.3
80.8
1.01520.3
3
15.5
5.0
3
300.0
125.2
R
1.0000
0.9500
-283.6
-91.9
284.5
-57.7
67.0
120.2
70733UCERNI81
70731USLAVU81
128.4
-65.1
1.5
1.054348.0
-196.1
24.5
196.7
1.071117.8
1
304.5
95.2
210.0
122.4
70719UKTEC_85
1.053347.5
-3.8
31.9
3.8
-39.9
-214.8
-228.5
215.8
193.5
-209.2
70708UNKIEV51
1.0000
1.0455
-105.9
-35.2
70709UNKIEV81
1.085119.3
1
358.8
59.8
1.0227
1.0000
-195.5
35.3
196.1
-24.5
70705UOKTOB51
70706UOKTOB81
1.05021.0
1
17.5
7.0
1
58.5
R
0.9100
-36.5
1.05021.0
2
17.5
7.0
2
250.0
59.7
R
1.0000
0.9100
-229.2
-37.6
232.5
52.7
250.0
79721UKTEC6G3
51.5
1.0000
-229.2
232.5
79723UKTEC6G2
79722UKTEC6G1
1.076118.4
1
227.0
56.4
G
-117.0
-21.0
1.0000
1.0227
171.7
38.0
-171.1
-29.9
-254.9
-16.1
257.0
-3.2
70711UBCERK51
540XUA_BY82
1.040343.31
.9
13.0
-22.2 70701
UNEZIN81
1
2.4
1.4
-45.5
13.1
1.6
70734UCERNI51
1.093120.2
1
52.8
17.3
1.0455
-16.3
-103.1
22.0
1.0000
103.5
-13.0
70732USLAVU51
70707UKTEC 55
1.096120.5
1
296.9
105.2
1.0436
1.0000
-8.4
69.1
11.9
151.1
64.0
-150.4
-81.2
1.01520.3
4
15.5
5.0
4
240.0
57.1
R
1.0000
0.9500
-223.9
-36.0
52.1
-68.6
1.09010.9
1
25.0
7.6
1
108.0
25.7
R
1.0000
-82.6
1.09010.9
2
25.0
7.6
2
108.0
25.7
R
1.0000
0.9800
-82.6
-11.3
83.0
1.01520.3
3
14.0
4.0
3
245.0
79.1
R
1.0000
0.9100
-230.4
-59.2
231.0
18.1
0.9800
-11.3
18.1
224.5
79707UKTEC5G3
83.0
79700UKTEC5G1
79701UKTEC5G2
79719UKTEC5G4
75.1
1.060349.8
-339.1
8.0
343.8
-20.1
1.03020.6
1
12.7
1
140.0
48.3
R
1.0000
0.9500
-127.0
-37.7
127.3
44.0
2
4.3
2
48.3
R
1.0000
0.9500
-127.0
-37.7
127.3
44.0
3
12.7
4.3
3
140.0
48.3
R
1.0000
0.9500
-37.7
127.3
1.03020.6
4
12.7
4.3
4
240.0
50.5
R
1.0000
0.9500
-226.7
-29.9
1.03020.6
5
12.7
4.3
5
230.0
50.3
R
1.0000
0.9500
-216.7
-30.9
217.3
45.9
6
4.3
6
230.0
50.3
R
1.0000
0.9500
-216.7
-31.0
217.3
46.0
83.3
1.061350.1
140.0
1.03020.6
70714UKANGE81
1.03020.6
12.7
44.0
1.03020.6
-127.0
79720UTPTECG1
227.3
46.2
4.3
79725UTPTECG3
79727UTPTECG5
79728UTPTECG6
79726UTPTECG4
79724UTPTECG2
12.7
0.983324.3
50.7
107.4
-124.5
70510UUSATO51
0.988108.7
1
389.5
140.0
G
-40.0
-32.0
1.0000
1.0864
348.6
179.1
-347.7
-128.8
0.964318.2
-352.0
13.0
354.2
-10.9
-21.0
96.1
-20.4
-50.4
35.9
-149.0
-46.6
149.3
520XMD_UA82
-95.6
-112.6
5.5
579.0
166.6
-560.8
-69.1
0.968106.5
1
41.9
7.4
1.0000
1.0455
223.1
94.9
-222.2
-67.5
70523UADZAL81
0.0
275.7
70351UUKRAI81
-39.3
249.2
2.9
1.033341.0
-248.8
-30.9
251.4
-0.3
-708.9
-129.1
727.2
262.7
1.055158.3
1
91.1
23.0
1.0000
1.0473
265.2
98.8
-264.3
-62.4
1.046345.0
1
292.0
-410.5
R
-145.8
203.2
146.0
-205.2
-145.8
203.2
146.0
-205.2
1.2176-8.36
1.0000
-81.3
-822.8
82.5
919.7
1.01224.3
1
22.4
10.0
1
1000.0
189.4
R
1.0000
0.9500
-975.5
-66.8
977.6
179.4
1.01224.3
2
22.4
2
1000.0
189.8
R
1.0000
0.9500
-975.5
-64.5
179.8
70598TGAES81
1.000750.0
560.6
-348.5
0.94922.8
3
22.0
3
1000.0
350.0
H
1.0000
0.9542
-948.3
-202.1
950.0
328.0
505XRO_UA01
50.0
10.0
977.6
70521UJUAZS31
79599UJUAZSG3
79521UJUAZSG2
79520UJUAZSG1
70501UTRIHA81
70352UUKRAI31
1.031154.6
1
66.5
23.5
G
-8.0
-3.0
1.0000
1.0113
192.3
47.1
-191.8
-38.1
54.0
-7.9
1.029339.4
-246.3
183.6
70386UKVARC31
1.043156.4
1
30.4
9.4
1.0000
1.0113
65.2
4.6
-65.0
-2.2
-118.6
-80.0
1
139.2
50.0
G
-16.0
0.0
1.0000
1.0540
154.9
-130.1
444.6
89.0
-269.1
0.980147.0
269.6
113.3
-34.8
70503UTRIHA31
1.049230.8
1.0000
0.9153
81.0
69.8
0.964318.0
70552UADZAL51
70588UBEREZ21
1.016223.5
1
14.5
5.7
-79.8
-67.7
0.986217.0
-64.5
65.3
62.0
-65.7
80.8
-80.8
65.7
-64.2
0.994109.3
1
47.6
17.2
1.0000
1.0536
43.3
40.8
-43.0
-36.3
0.979215.4
21.2
23.4
-21.2
-26.6
70502UTRIHA21
70506UKOMIN21
70548UCENTR21
0.940103.5
1
198.6
75.6
1.0000
1.0200
21.2
26.6
-21.1
-24.0
70507UKOMIN51
70551UCENT151
1.031340.3
-13.1
120.4
-1.5
1
44.6
12.4
G
0.0
-2.7
-43.0
-208.1
-8.6
210.1
-18.9
70702UNEZIN51
1.137125.1
54.1
-97.9
1.0000
98.4
1.1491
70735UBROVA81
1.124123.6
1
136.6
27.0
1.0000
1.0864
162.6
19.3
-162.0
-11.070736
UBROVA51
70715UKANGE51
1.091120.0
1
103.2
53.4
1
252.0
1.0000
1.0227
38.6
-30.2
-38.2
33.5
300.5
22.2
113.8
R
26.2
70385UKVARC81
1
7.5
4.0
1
154.6
1.0000
0.9250
147.1
2
29.1
79345UKRTECG2
7.5
33.1
R
79340UKRTECG1
-146.7
-20.4
1.087119.6
0.96019.2
UKRAINE
4.35
Figure 4.23 – Ukraina – Load flows for Winter 2010 regime – part3
70356UDNEPR01
0.957717.80
.0
274.6
-556.5
-288.0
1.018336.1
-53.8
-45.7
-49.6
1.000330.0
0.944311.4
-440.1
-75.4
70525UNIKOL81
-119.8
-32.1
1.022337.1
1.042344.0
-297.3
-36.8
1.044344.6
-108.2
54.0
108.3
-61.0
1
79.0
22.8
1.0000
1.0655
189.0
97.7
-188.4
-84.8
70726UPALJN51
1.085119.3
70725UPALJN81
70328UKRGEC81
1.048345.9
1
3.5
23.5
1
238.0
221.7
R
5.4
-16.1
-5.4
-37.1
1.075118.3
1
168.6
40.8
1.0000
1.0227
113.5
-16.9
-113.2
23.2
70717UCERKA51
70716UCERKA81
1.023337.7
-138.5
139.5
1.012333.8
-103.4
63.8
70329UKRGEC31
1.080162.0
1
51.3
25.8
1
159.0
58.2
R
1.0000
1.0360-4.63
-36.6
27.6
36.9
126.3
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123.0
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1.003331.0
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22.4
70219UKREME31
1.027154.1
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270.5
67.6
1.0000
1.0267
108.5
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1.015334.9
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11.5
37.6
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1.035341.5
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146.4
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299.270218
UKREME81
56.4
312.9
80.8
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321.6
75.1
1.044156.5
1
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47.0
1.0000
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225.7
101.6
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70370URUDNA81
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70371URUDNA31
0.998329.4
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79.8
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50.2
1.000330.0
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0.0
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0.0
70360UGORNA81
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0.997329.1
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0.994328.1
50.2
40.8
1.029154.3
1
416.8
145.6
1.0533
1.0000
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218.1
115.5
158.6
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0.969319.7
520.2
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0.9250
1.00020.0
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0.9250
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1.0000
0.9250
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10 10
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1.00020.0
3
5.0
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242.0
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237.0
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4
242.0
155.6
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1.0000
0.9550
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135.0
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237.0
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1.016152.3
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29.4
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240.0
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57.4
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00
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0.96019.2
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34.5
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40.0
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79339UKRTECG7
150.1
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79344UKRTECGA
70358UKRTEC81
1.00020.0
70342UKAHGE31
20.4
1
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109.2
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-14.0
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19.9
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1.003150.4
1
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-23.0
1.0000
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-43.0
146.5
0.988326.2
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0.994328.1
72.2
70372UGORNA32
141.1
38.6
1.004150.6
1
136.6
86.8
1.0000
1.0320
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141.2
70.4
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1.0000
1.0113
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43.2
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1.0113
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42.7
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38.6
1.0320
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141.1
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72.2
31.2
158.6
120.0
40.8
70339UKRTEC82
70335UJUZNA82
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70333UJUZNA81
70357UJUZNA32
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556.9
169.9
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1
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-33.0
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0.983147.5
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70332UKIROV31
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70526UNIKOL31
0.980147.0
1
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-14.0
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133.7
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0.949313.3
176.4
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98.5
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70550UHERSO31
0.981147.2
1.0000
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151.1
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70531UHERSO81
402.2
101.5
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1.011333.7
16.9
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1.018152.8
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52.9
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1.018152.8
1
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47.0
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70325UPM_DN81
70326UPERVO31
70365UPERVO32
324.7
75.2
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1.1015-3.55
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671.0
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1.1015-3.55
1.0000
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671.0
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1.034341.3
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70308UDNEPR81
70375UVDGMK31
1.030154.5
1
133.1
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G
-35.0
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0.9960
152.6
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70374UVDGMK81
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330.4
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1
150.6
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311.0
184.5
R
1.0000
1.0113
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75.3
70346UPROME81
0.975731.00
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113.9
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673.6
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0.952713.7
1.008332.7
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3.5
0.973107.0
1
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38.9
1.0000
0.9627
119.3
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28.5
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70215UKANAT51
1.017335.5
70214UKANAT81
516XRU_UA84
1.016335.3
105.2
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5.7
70223USOSTK51
1.005110.5
1
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12.4
1.0055
1.0000
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70245USOSTK81
0.984324.7
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70222USUMI151
0.991109.1
1
133.6
67.6
G
-45.0
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1.003331.0
122.8
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70247USUMIS81
517XRU_UA85
1.006332.1
156.2
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1.022337.3
39.0
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70248USUMIS51
1
129.2
41.7
1.1073
191.3
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109.7
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18.7
1.0000
110.3
171.5
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70244UMIRGO51
1.085119.3
1
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45.7
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0.0
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1.0000
1.1009
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70312UPRAVO81
1.014334.5
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85.1
154.0
1.041156.1
1
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47.0
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-7.0
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168.9
44.5
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85.9
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1.041156.1
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171.6
30.5
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178.6
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426.9
1.0000
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0.998329.3
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70334UJUZNA31
70331UKIROV81
70387UNIKOP31
70315UNIKOP32
1.015152.3
1
213.6
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214.1
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1.001330.3
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28.1
574.6
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28.1
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574.6
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1.0000
1.0000-8.31
462.9
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281.4
79338UZATECG6
0.98823.7
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11.0
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700.0
340.0
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1.0000
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1.015335.0
36.4
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70311UDGEC131
1
396.9
180.8
1
274.0
1.0000
56.2
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196.6
386.5
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70314UNIKOP81
1.0320
1.059158.9
1.029339.7
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317.7
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0.958316.2
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329.9
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1
1.0000
147.3
22.8
70522UKAHGP81 2
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1.0473
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0.0
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44.3
0.915302.0
52.8
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473.0
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399.0
1.0000
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499.6
1.009151.4
0.2
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114.0
70415UOSTRO81
0.956315.4
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1.4
1.058116.4
1
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15.1
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0.0
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2.4
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0.982324.2
497.8
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148.670424
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70517UKAHGP31
70401UDZANK81
70419USIMFE81
70413USIMFE21
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328.6
110.7
0.932307.5
155.4
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70430UZPKRI81
108.1
406.3
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0.998329.4
419.1
17.1
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1
149.5
1.0000
1.1000
315.6
117.5
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70402UDZANK21
0.993218.5
1
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12.8
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0.0205.8
0.943207.5
1
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12.0
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18.4
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0.956210.4
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70408UNS_2_21
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70479UOSTRO51
55.8
30.4
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70412UMARJA21
70403UKRPER21
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0.993218.5
50.2
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44.2
70518UKAHGP21
1.065234.3
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162.9
58.3
70404UTITAN21
0.9293
1.0000
163.2
68.4
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1
51.0
14.4
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0.0
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70406UDONUZ51
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120.6
1.6
49.7
21.6
70405UDONUZ21
70432UZPKRI51
0.931204.7
6.2
97.0
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0.965212.4
51.3
156.8
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70411UZLEVA21
70409USIMTE51
1.035113.8
1
175.5
48.0
G
-44.0
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1.0946
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20.5
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70410USIMTE21
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3.7
70420UNS_3_21
0.961211.4
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22.8
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0.0
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1.088119.7
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5.2
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0.0
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81.9
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70407UFEOBO21
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1.066117.3
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70457UFEODO51
70421UKRIM_21
0.961211.5
71.2
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15.6
1.041114.5
1
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11.0
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70475UKBURU51
70414USIMFE51
1.049115.3
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26.5
G
0.0
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179.4
71.4
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G
0.0
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1
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1.0455
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70417USEVAS51
70423UKBURU81
0.960211.3
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70418UBAHCI21
1.015335.0
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1.048157.1
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25.8
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239.8
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79300UZATECG3
0.99820.0
3
25.0
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3
240.0
1.0000
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215.0
103.5
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1.00824.2
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800.0
288.9
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1.0000
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282.9
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70310UZATEC31
79310UZATECG1
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79311UZATECG2
1.00020.0
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0.9400
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79301UZATECG4
1.00020.0
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70309UZATEC81
79309UZATECG5
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1.055158.2
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70355UMELIT31
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70354UMELIT81
408.3
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70350UMALAC31
1.017152.6
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0.0
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UZAEC_81
1549.1
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0.99223.8
1
50.0
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1000.0
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R
1.0000
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-69.4
950.0
219.2
0.99223.8
2
50.0
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1000.0
243.2
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1.0000
1.0000
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950.0
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3
50.0
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1.0000
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950.0
219.2
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1000.0
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1.0000
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950.0
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1000.0
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1.0000
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219.2
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50.0
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79313UZAEC_G1
79314UZAEC_G2
79321UZAEC_G6
79319UZAEC_G4
79315UZAEC_G3
79320UZAEC_G5
1.032340.4
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0.977322.47
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70220UPOLTA51
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1
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138.7
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741.6
214.3
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741.6
214.3
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70347UPROME31
153.8
1.019336.4
0.983324.3
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95.2
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0.984108.2
1
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1.4
1.8
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70207UZALJU52
79207UZALJUG3
1.03020.6
1
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1.0000
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0.990108.9
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2
105.5
1.0100
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1.05010.5
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3.0
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105.5
58.3
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1.0000
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55.379238
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111.3
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3.0
1.05010.5
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1.008110.9 70213
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70206UZALJU81
0.994745.70
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70241USEVUK81
77.8
1.006754.7
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506XRU_UA01
70242USEVUK01
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1
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0.957315.8
238.0
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6.8
3.5
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84.7
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1.0000
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81.2
79205UZMTZSG8
1.01320.3
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6.8
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8
250.0
84.7
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1.0000
1.0050
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243.3
0.95915.1
3
14.0
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3
175.0
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1.0000
0.9397
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161.0
79255UZMTZSG5
1.00015.8
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0.9397
103.2
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0.967319.2-6
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70204UZMTZS82
81.2
79254UZMTZSG3
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243.279204
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81.8
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70202UZMTZS52
0.993327.7
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1.1573
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-71.2
56.0
70299UOTPLO81
0.960316.8
201.0
-199.7
-92.1
1.03920.8
9
4.0
9
275.0
30.0
L
1.0000
1.0500
-1.6
267.9
26.0
10
7.2
4.0
10
275.0
30.0
L
1.0000
1.0500
-267.3
-2.0
267.8
26.0
4
14.5
6.5
4
150.0
36.4
R
1.0000
0.9841
-135.2
135.5
29.9
0.98215.5
6
14.5
6.5
6
150.0
36.5
R
1.0000
0.9841
-135.2
-20.6
135.5
30.0
514XRU_UA82
-20.5
0.983324.3
1.03920.8
-267.3
170.6
7.2
0.98215.5
30.7
0.957315.90
.7
46.2
-13.5
70210ULOSEV52
0.958105.4
1
149.2
74.4
1.0664
1.0000
-165.9
-86.7
166.9
109.1
0.958105.4
1
138.9
62.0
1.0000
1.0664
167.1
-86.5
-143.8
-46.2
515XRU_UA83
70211ULOSEV81
-109.8
92.5
101.4
108.8
70246ULOSEV51
-166.1
-94.6
143.9
78.4
0.959316.4
-55.8
-9.6
55.8
-0.4
518XRU_UA86
-29.0
75.9
1.00016.5
2
13.0
7.0
2
1.0000
-161.5
162.0
0.9333
-39.9
54.2
61.2
R
175.0
-244.7
101.9
79237UZALJUG1
70237UZALJU51
70205UARTE151
55.0
185.4
258.4
96.9
70216UPOLTA81
-751.9
-104.6
758.8
97.6
-656.7
-112.6
661.3
135.6
1.006331.9
-83.3
57.9
-76.3
76.4
-24.5
1.028154.2
1
189.1
103.3
1
8.0
-2.7
R
1.0000
1.0320
209.8
93.1
-209.2
-81.1
70359UZAPAR32
1
630.3
225.4
1
274.0
131.7
R
1.0000
1.0320
277.4
115.1
-276.7
-98.5
70304UZAPAR81
184.5
21.6
70349UMALAC81
70380UZAPAR01
-182.9
70381UZAP7S81
29.7
-25.3
-29.7
17.2
60.1
87.4
-60.0
-94.3
70367UDNPET31
1
58.4
22.3
1.0000
1.0533
145.2
75.6
-144.8
-64.1
70368UDNPET32
1.021153.2
1
68.9
23.5
1.0000
1.0540
127.4
84.8
-127.0
-74.1
-162.6
-132.0
163.7
1
266.1
74.0
1.0000
1.0320
155.4
74.2
-155.0
-60.2
70369UPAVLO31
0.975146.2
1.028154.2
15.7
43.8
70320UDDZ_132
1.051157.7
1
25.7
11.8
1.0320
-16.5
-18.1
16.7
19.2
1.031154.6
1
212.4
70.4
G
-35.0
-14.0
1.0000
1.0320
253.6
62.4
-252.9
-47.2
1.0000
-15.6
-53.9
70321UDDZ_131
70319UDDZ 81
70366UDNPET81
70317UPDTEC31
1.022153.3
1
76.1
31.7
1.0440
166.1
97.2
1.024153.5
1
9.4
1.0000
1.0440
128.0
90.0
-127.7
-82.5
11.3
-35.3
-11.3
-2.8
0.99519.9
11
7.5
4.0
11
250.0
125.0
H
0.99519.9
13
7.5
13
1.0000
0.9550
-241.6
-96.2
1.00020.0
12 12
1.0000
0.9550
1.00020.0
14 14
1.0000
0.9550
0.96817.4
9
5.0
3.0
9
137.5
33.9
R
0.96817.4
10
5.0
3.0
10
137.5
33.9
R
1.0000
0.9333
-132.1
-21.6
132.5
30.9
-86.5
30.9
7
6.5
3.0
7
137.5
38.9
R
0.9333
-26.9
131.0
35.9
8
6.5
3.0
8
137.5
38.9
R
1.0000
0.9333
-26.9
131.0
1.0000
0.9550
-241.5
-93.5
242.5
121.0
0.97117.5
250.0
121.0
125.0
H
4.0
242.5
-130.6
1.0000
-130.6
18.7
35.9
1.0000
0.9333
132.5
1.0000
-21.6
-132.1
117.0
1.005331.7
-165.770318
UPDTEC32
0.97117.5
79318UPDTECG7
79325UPDTECGA
79323UPDTECGC
79324UPDTECGE
79326UPDTECG8
1.030154.5
1
22.2
9.4
1.0000
1.0320
91.5
42.0
-91.2
-36.9
1.047157.0
1
318.6
96.3
1.0320
284.7
7.5
10.6
43.8
1.0000
-284.070302
UDD1503270382UDD15231
70301UDD 81
79317UPDTECG9
79316UPDTECGB
79322UPDTECGD
70316UPDTEC81
1.028154.2
1262.1
-157.2
70305UZAPAR31
70201UZMTZS81
79251UZMTZSG4
79201UZMTZSG9
79200UZMTZSG2
79203UZMTZSGA
79252UZMTZSG6
30.5
-15.2
1.0000
-208.9
70340UKRTEC31
UKRAINE
4.36
Figure 4.24 – Ukraina – Load flows for Winter 2010 regime – part4
-82.3
-52.1
70109UMIHAI21
1.002220.5
205.0
192.4
-30.1
-36.8
-104.6
-41.1
105.4
40.3
35.9
-10.9
32.7
-15.1
-35.4
78.1
5.6
1.025225.5
161.1
-159.9
-71.3
66.5
37.3
0.0
-9.2
1.0000
1.0800
226.4
152.2
-225.0
-129.9
1.000220.0
-4.2
-3.7
4.2
-10.0
1.001220.2
-0.4
1.9
0.4
-6.3
70173UMIHAJ81
0.930306.9
1.0996
1.0000
-453.5
-211.6
454.7
235.2
0.964318.0
-454.7
-235.2
458.7
254.7
70185UDONBA91
0.986493.00
.0
175.0
286.8
-118.1
-187.2
-93.5
187.4
59.6
0.962721.30
.0
277.3
1.0200
1.0000
-123.9
57.3
124.5
-54.4
1.0200
1.0000
-123.9
57.3
124.5
-54.4
1.0000
1.0659187.2
-187.1
-84.0
1.009222.1
22.2
11.6
9.3
-562.3
-58.3
70171UMAKEE81
92.4
169.4
-107.6
70180UUGTEC51
75.5
53.3
1.0000
1.0682
208.7
8.9
-207.9
5.1
0.964318.0
76.3
617.7
-78.3
1.00020.0
1.0000
1.1400
1.00020.0
1.0000
1.1400
1.0000
0.9500
1.0000
0.9500
13.0
10.0
800.0
390.0
H
1.0000
0.9500
-784.8
-282.2
70136UCAJKI81
0.988326.1
234.1
218.1
-233.6
-219.0
127.7
-57.6
-27.6
1.0000
1.0655
402.3
126.6
-400.7
-92.0
1.0454
1.0000
-225.1
225.6
110.5
70140UKUTEC81
1.023337.6
-469.5
-175.6
475.1
169.4
1.0000
1.0454
139.8
78.2
-139.3
-66.6
70170UHARCI81
0.998329.5
-130.0
-231.1
130.3
213.1
380.0
103.7
1.016335.2
-90.9
-56.1
91.4
7.1
70198UHARCI51
1.041114.5
187.6
55.4
-9.0
-2.0
1.0000
1.0655
381.0
130.0
-379.5
-99.6
0.98519.7
12.1
12.8
212.5
128.0
R
1.0000
0.9550
-200.1
-97.9
200.4
115.2
0.98519.7
12.1
12.8
212.5
127.9
R
1.0000
0.9550
-200.1
-97.8
200.4
115.1
0.98519.7
12.1
12.8
212.5
127.6
R
1.0000
0.9550
-200.1
-97.5
200.4
114.7
0.98519.7
12.1
12.8
212.5
127.6
R
1.0000
0.9550
-200.1
-97.5
200.4
114.7
66.5
35.0
-0.0
0.0
0.0
-4.4
70128USBTEC21
1.010222.2
26.8
2.4
51.6
45.6
-51.5
152.9
48.9
1.0518
1.0000
96.8
73.2
0.992218.3
23.4
-23.3
-26.6
115.2
20.9
1.025112.7
98.5
1.0000
1.0000
-84.5
-44.5
85.4
55.7
0.962211.7
141.3
167.1
-139.2
-193.2
-16.4
3.2
16.4
-8.6
61.0
223.3
123.4
9.9
5.2
140.0
93.1
R
1.0000
0.9079
-129.3
-71.7
130.1
87.9
0.96115.19
.9
5.2
140.0
104.6
R
1.0000
0.9079
-129.3
-86.0
130.1
9.9
140.0
1.0000
0.9079
-129.3
-72.4
130.1
0.96115.19
.9
5.2
101.3
R
1.0000
0.9079
-69.5
-88.0
70.1
96.1
1.00015.8
1.0000
0.9079
1.00015.8
1.0000
0.9079
1.00015.8
1.0000
0.9079
1.0000
0.9079
1.00183.38
1.0000
24.5
456.1
0.2
1.0000
24.5
456.1
1.026338.7
801.5
204.6
-798.2
1.013334.4
-108.5
-37.2
108.6
32.3
-108.5
108.6
32.3
1.021336.9
44.3
-44.2
-31.0
1.026112.8
272.5
-12.0
-8.0
1.0264
1.0000
-532.1
-123.7
533.8
159.9
128.9
0.7
-128.7
-11.8
125.2
-103.4
0.98415.5
1.0000
0.9397
-191.3
8.0
1.0000
0.9397
-191.3
-35.6
192.0
54.3
0.98415.58
.0
2.4
200.0
58.9
R
1.0000
-191.3
-38.7
192.0
56.5
0.98415.52
.4
200.0
59.1
R
1.0000
0.9397
-191.3
-39.0
192.0
56.7
0.98415.58
.0
2.4
200.0
58.3
R
0.9397
-37.9
192.0
-222.8
-16.7
223.8
6.8
0.952314.1
101.8
62.0
-101.7
-69.1
0.978322.7
-25.4
25.5
27.5
70159USLTEC81
0.952314.1
49.8
-13.2
-49.8
-0.7
1.0454
1.0000
-111.3
111.7
39.9
-290.7
-33.7
292.7
29.2
-137.7
-82.4
70228UKUPJA81
0.956315.5
60.7
-40.9
-60.4
7.2
1.00024.0
1.0000
1.0000
-44.1
55.2
42.2
121.2
-9.3
-120.7
-11.5
-6.9
-94.5
1
1G
1
1
3 3
4 4 6 6
7 7 5 5
1 G 1 G
1 1
2 2
3 3
4 4
1
1
1
1
1
6 6
7 7
8 8
9 9
10 10
11 11
12 12
13 13
1 G
66
7 7
8 8
9 9
8 8
-719.9
-33.7
70186UDONBA01
0.2
-25.6
0.986216.9
0.975214.5
70150ULIP_221
-55.0
83.3
1.044114.8
18.7
-170.1
-71.9
70227UPM_SE51
1.012111.3
1
92.4
31.6
G
-29.0
-9.0
10.7
0.982324.2
0.948104.3
1
64.5
19.2
70224ULAZAV51
-48.8
0.9627
1.0000
-94.9
95.2
-16.0
20.9
1.00016.5
1 1
1.0000
0.9333
1.0264
1.0000
70240ULAZOV81
48.9
-9.4
70226UPM_SE81
1.017111.8
1
1.0864
1.0000
-97.0
1.040114.4
1
25.0
8.4
1.0000
1.0264
84.4
14.6
-10.9
8.0
-2.8
55.9
56.7
R
200.0
2.4
-200.5
70155UIVANO81
-35.4
56.7
5
8.0
2.4
5
200.0
59.1
R
192.0
79140UKUTECG5
0.98415.5
79144UKUTECG7
0.9397
-191.3
1.0000
79146UKUTECG9
79143UKUTECG6
79145UKUTECG8
70184UZARJA81
-84.3
70195UIVANO51
1.004110.4
1
12.9
2.3
1.0000
1.0264
217.0
74.4
-216.3
-46.670012
UMIRNA51
-37.2 70011
UMIRNA81
70007UJDONB81
70006UJDONB01
0.957717.60
.0
1.0000
1.0794
111.6
-400.8
-102.3
1.0000
1.0794
400.9
111.6
-400.8
-102.3
274.5
400.9
443.1
-285.7
-441.3
-135.2
-1244.9
-212.0
70143UKRARM51
1.027112.9
-616.3
-455.2
1.00183.38
-455.2
1
30.0
25.0
1
280.0
1.0000
0.9100
-249.3
-146.0
250.0
2 2
1.0000
0.9100
185.0
H
160.0
0.95519.1
1.00024.0
-168.7
0.979323.0
1.020112.2
379.2
0.95823.0
-25.9
-21.6
-96.5
70022UDMZ_222
1.000220.1
22.8
-50.0
70168UZUTEC51
1.046115.0
1
85.1
21.0
G
-11.0
-4.0
1.0000
1.0818
23.3
26.6
-23.0
-22.4
-65.6
-96.0
1.019112.1
70135UCAJKI52
70166UZUTEC21
70142UCAJKI22
1.00024.0
74.7
93.5
80.0
93.7
R
88.6
0.96115.1
0.96115.1
99.5
5.2
23.3
0.977215.0
-110.4
-220.8
70139USMOLJ21
1.006110.6
1
229.1
69.9
1.0518
1.0000
-159.4
-77.9
159.8
87.1
70138USMOLJ51
70132UAZOVS21
1
365.6
184.2
1.0736
1.0000
-174.8
139.2
193.2
-138.2
1.000110.0
70131UAZOVS51
1.00015.8
70130USBTEC51
45.7
0.98415.5
4
5.5
2.5
5
5.5
4
72.4
R
5
150.0
72.4
R
1.0000
0.9079
-287.8
-96.3
139.8
70183UZARJA51
81.6
150.0
2.5
289.0
79130USBTECG5
79129USBTECG7
79133USBTECG9
79128USBTECG6
79132USBTECG8
79134USBTECGA
79136USBTECGC
79135USBTECGB
79137USBTECGD
79181UUGTECG2
1.00020.0
79009UUGTECG3
79010UUGTECG4
787.0
380.0
79179UUGTECG5
79174UUGTECG6
79175UUGTECG7
79180UUGTECG1
70181UDONBA81
0.982490.8
70030UNDONB91
70031UNDONB21
26.0
-43.1
1.013111.4
1
107.4
43.1
1.0264
1.0000
0.7
-3.9
-0.4
6.3
70156UMITEC51
1.052115.8
70157UMITEC21
70110UMIHAI52
70104ULISIC21
1
38.9
5.9
1.0300
1.0000
-24.8
62.8
1
42.0
14.0
1.0000
1.0300
60.0
27.8
-59.8
0.996109.6
1
57.9
54.3
1.0000
35.9
-63.9
-32.6
64.1
29.5
0.998109.8
-62.6
70017ULISIC54
1.0300
70106ULISIC53
0.984216.5
1.000110.0
-25.0
70105ULISIC52
70172UMEKEE51
79170UHARCIG1
79171UHARCIG2
79172UHARCIG3
79173UHARCIG4
1.009111.0
1
72.1
18.5
1.0655
1.0000
91.1
19.3
1.008110.9
1
123.9
32.2
1.0655
1.0000
-170.3
171.0
42.1
70162UMAJSK51
1.013111.4
1
83.1
29.2
1.0864
1.0000
-150.9
-59.4
151.5
69.9
70021UDMZ_221
0.997219.3
1
24.3
35.0
-30.8
103.6
29.3
1.024112.6
1
109.2
28.9
1.0000
1.0518
108.7
85.7
-108.1
-74.0
-103.1
70134UCAJKI51
70133UCAJKI21
-30.5
0.957315.9
-90.7
111.1
564.3
49.9
70179UUGTEC81
-12.7
70148UCENTR51
70149UCENTR52
0.951314.0
70144UKRARM81
141.6
49.0
-228.7
229.7
70151UCENTR81
70165UMAJSK81
79159USLTECG8
70158USLTEC21
79202UZMTZSG1
70200UZMTZS51
UKRAINE
4.37
Figure 4.25 – Ukraina – Load flows for Winter 2010 regime – part5
1.012222.7
1.022224.9
-109.8
-31.4
110.4
30.7
0.989217.5
104.7
59.4
-103.5
-59.9
1.003220.6
73.2
-35.9
7.6
1.027225.9
1.003220.7
74.9
50.0
-74.4
-52.9
70100UKIROV21
1.016223.5
-113.2
-38.1
113.8
1.000110.0
99.7
23.3
0.0
-0.5
1.0000
1.0000
43.3
13.5
-42.8
-3.8
35.7
35.7
70114UKOMMU21
118.2
74.1
-116.7
-72.8
0.994218.7
67.0
28.8
-66.3
-36.5
70189UPOBED21
1.038228.5
8.4
-22.4
-8.3
7.7
0.97515.4
15.5
170.0
100.0
H
1.0000
0.9079
-70.7
154.5
90.5
79103ULUTECGB
0.96915.3
15.5
9.5
170.0
90.0
H
1.0000
0.9079
-153.9
-62.2
154.5
0.97515.3
15.5
9.5
170.0
110.0
H
1.0000
0.9079
-153.7
-84.5
154.5
1.0000
508XRU_UA22
1.025225.6
-38.6
15.8
38.7
-22.1
1.0000
1.0518
41.9
35.0
-41.40.970
15.38.5
5.7
170.0
100.0
H
1.0000
0.9079
-160.8
-75.2
161.5
94.3
0.96915.38
.5
5.7
170.0
100.0
H
1.0000
0.9079
-160.9
-74.8
161.5
94.3
0.96915.38
.5
5.7
170.0
100.0
H
1.0000
0.9079
-76.1
161.5
94.3
1.00015.8
1.0000
0.9079
-77.7
-8.8
70025UANTRA21
1.018224.0
-158.4
-75.7
159.8
68.8
1.036228.0
-69.6
134.7
68.7
0.991495.6
1.0000
1.0659
143.2
78.4
-143.1
-72.6
1.0000
1.0659
143.2
78.4
-143.1
-72.6
511XRU_UA91
0.997498.3
152.7
186.1
-152.6
-203.2
-285.4
0.986325.4
-378.4
513XRU_UA81
0.993327.6
-107.1
75.0
107.3
-85.7
0.995218.9
-114.2
-21.4
510XRU_UA24
0.990217.9
-94.4
3.2
94.8
-4.3
1 G
9 9 11 11 13 1315 15
8 8 10 10 12 12 14 14
37.6
-23.8
28.8
83.4
30.2
48.6
79101ULUTECG9
9.5
100.5
79105ULUTECGF
79104ULUTECGD
80.5
-153.8
-160.8
1.00015.8
70116UKOMMU22
0.9079
79102ULUTECG8
79106ULUTECGA
79107ULUTECGC
79108ULUTECGE
70103ULUTEC51
0.987217.0
1.022112.4
1
107.1
43.1
1.0736
-116.3
-61.5
116.7
72.8
1.031113.4
1
84.2
32.7
-103.0
-49.7
103.5
59.9
1.0000
70113UKOMMU51
1.0736
1.0000
70115UKOMMU52
70013UREZSC51
0.995109.5
1
12.3
4.1
1.0100
1.0000
-69.1
-15.0
18.9
70176UJUBIL51
0.991109.1
1
32.6
14.0
1.0000
1.0100
26.5
-74.5
-22.7
1.032113.5
1
127.0
44.3
1.0000
1.0518
-106.7
-33.1
74.7
-32.6
11.6
41.3
107.0
69.3
70101ULUTEC21
70024UKIROV22
70102ULUTEC22
1.005110.6
1
53.9
17.4
1.0100
1.0000
-113.0
-30.4
113.2
38.1
1.0000
-109.7
109.8
31.4
1.0100
-24.270010
UKIROV51
1.2
70146UCERAK21
70175UJUBIL21
-48.4
-72.9
1.070117.7
1
141.9
44.3
1.0000
1.0518
134.6
69.6
-134.2
-62.4 70026
UANTRA51
1.048115.3
1
133.0
33.8
1.0000
1.0518
158.4
75.7
-158.0
-64.8
70121UKRASN51
-134.670120
UKRASN21
70178UPOBED91
70124UJOZNA51
1.060116.6
1
177.3
93.2
1.1282
1.0000
-269.7
-156.1
271.1
186.8
-101.0 70125
UJOZNA81
1.0000
40.9
-108.5
-32.7
108.7
1.0518
45.7
70145UCERKA21
70147UCERKA5S
1.053115.8
1
24.6
5.7
1.0818
1.0000
-19.1
-23.8
19.3
25.7
70126UAMVRO51
70127UAMVRO21
UKRAINE
4.38
Figure 4.26 – Ukraina – Load flows for Summer 2010 regime – part1
1.043344.2
70928UNVOLJ51
1
25.1
11.2
1.0664
1.0000
79.3
15.6 1.046
345.1
-14.1
-79.1
-15.6
1.093120.2
1
60.8
61.4
1
136.0
1.074236.4
1.0309
1.0000
-4.6
-11.9
1.104121.4
1.072235.8
-1.9
43.0
-6.7
70900UDTEC_21
1.072235.8
1
6.8
21.8
1
150.4
0.0
L143.6
1.7
1.0000
1.0527
-75.8
59.9
76.4
1.072235.82
.7
-5.9
-2.7
-5.1
1.080237.6
-78.6
-1.5
-8.2
1.072235.8
338.0
-48.9
-335.3
54.0
1.00018.0
7
1.0000
0.8889
79927UDTEC_G8
1.00018.0
8
1.0000
0.8889
0.0
L
1.100121.0
79926UDTEC_G7
43.2
-50.1
1.0000
2.7
-2.6
1.0309
-4.6
79.3
-31.0
-2.4
1.106121.7
1
34.6
14.3
1.0000
1.0666
54.0
-53.9
-14.2
1
51.1
24.9
1.081237.7
1.0000
1.0309
10.2
20.2
-9.2
16.5
-133.5
1.0000
66.7
8.5
1.094120.3
1
97.1
41.9
-79.3
-5.2
1.0000
-20.1
-20.0
-1.5
-10.2
70942UKOVEL21
-66.2
70955UKOVEL81
79.5
70954UNVOLJ81
70927UDTEC_51
-1.7
-42.9
-143.6 70926
UDTEC_22
70956UKOVEL51
1.046345.2
70901URAVNA81
1.044344.6
-242.4
10.0
244.2
-34.4
1.044344.5
258.7
-31.3
11.8
70949ULUCKS81
1.046345.1
70985URAEC_01
1.020764.7
1.0000
1.0000
-66.0
-271.6
1.00024.0
5 5
1.0000
0.9500
1
16.0
13.0
1
200.0
75.6
R
1.0000
0.9397
-183.4
184.0
62.6
1.00315.8
3
16.5
13.0
3
200.0
65.1
R
1.0000
0.9397
183.5
1.00815.9
2
13.0
2
200.0
1.0000
0.9397
-183.4
1.00315.8
4
16.5
13.0
4
200.0
65.1
R
1.0000
0.9397
-182.9
183.5
75.8
R
16.0
184.0
62.8
-44.9
52.1
-34.6
-182.9
-44.7
66.1
287.9
420.0
-486.9
1.007755.32
.9
-445.3
-384.9
446.8
-265.2
1.01624.4
6
65.0
35.0
6
1000.0
50.0
L
1.0000
88.6
935.0
15.0
1.0000
-933.8
96.7
214.7
1.070235.5
-120.6
-46.2
120.6
44.8
-214.1
-98.8
1.127124.0
1
82.4
G
-40.0
1.0000
120.6
46.2
-120.3
-38.2
1
1.0000
1.0518
105.6
16.5
-10.2
1.024337.9
1.0000
1.075236.6
132.1
-7.4
-131.8
-1.6
58.7
-2.5
65.0
1
38.1
26.8
G
1.125123.7
1G
-7.0
-4.0
1.1082
1.0000
-60.7
-25.2
61.2
28.6
1.126123.8
1
24.6
8.6
1
34.4
21.0
-20.0
1.141125.5
1.125123.7
86.2
1.121123.3
1.0736
-105.7
1.07542.16
23.9
108.6
-23.6
70935ULJUZN81
1.078237.1
1.023337.5
1.0000
1.1082
15.9
-15.6
-12.5
70933UBORIS51
70923ULJUZN51-1
05.3
1.141125.5
1
39.9
28.2
1.073236.14
8.6
25.0
-48.4
-22.6
-25.0
48.7
19.9
70921URAZDO51
-11.0
11.4
83.1
-18.3
-83.0
-48.6
1.0000
1.0736
70920URAZDO21
1.022337.1
1.0000
1.1082
19.7
-24.4
-18.2
24.7
70947ULJVZA81
24.7
11.4
-19.7
13.9
-24.770982
UJAVOR81
70983UJAVOR51
1.034341.1
-57.1
-72.4
57.2
54.2
1.026338.5
-28.0
-64.8
28.0
61.7
40.7
10.0
-40.7
-25.4
68.9
58.1
-68.7
-71.770946
UOTPLZ81
70948ULJVZA51
52.1
1.0664
1.0000
-18.4
-15.7
18.5
17.0
5.1
1.041343.5
1.082238.1
-54.5
-7.5
54.6
5.1
1.083119.2
1
33.0
13.6
1.0000
1.0100
-4.8
4.9
-16.5
20.1
17.2
70961ULUCKJ51
1.089239.6
-28.4
-14.6
1.090119.8
1
12.1
1.0100
-26.2
9.5
1.0000
26.4
-8.2 1.008
15.9
1.0000
1.0455
-94.5
-1.6
7.0
-27.2
-7.0
-94.8
134.170902
URAEC_81
95.0
1.042343.7
-18.5
-17.0
18.5
11.7
1.0000
1.0459
28.6
6.3
-5.7
28.5
5.7
-28.570940
UGRABO21
32.0
174.5
-35.6
1.107121.8
1
53.4
14.6
1.0000
1.0664
53.7
17.5
-53.4
-14.6
70903URAVNA51
-174.4
70930URADOV51
70929URADOV21
282.2
-38.8
-279.3
-256.9
3.8
260.8
-33.9
1.0000
1.0664
76.7
-90.9
-70.2
91.4
935.2
1.0
70936URADOV81
70904URAEC_51
70944ULUCKS21
70931ULUCK221
2.6
51.3
-2.6
-66.4
1.0252-10.80
1.0000
24.3
15.9
-23.7
-11.6
1.0252-10.80
1.0000
24.3
15.9
-11.6
1.037342.1
58.7
-38.4
-58.6
26.1
-26.1
43.0
1.034341.1
70941UZAPUK81
22.2
-23.7
1217.0
70808UHAEC_01
1.032773.60
.0
957.0
490.7
-69.1
-489.1
-416.1
192.3
-427.3
1.7
-786.6
1.007755.3
-43.0
196XAL_ZA01
1.008756.3
-812.7
-137.3
1.0252-10.80
1.0000
-31.8
-12.3
304.0
816.7
786.6
34.470945
UZUKR701
32.4
15.5
49.0
-65.0
1.0946
1.0000
41.0
28.9
-28.8
-31.9
1.070235.5
-13.6
-6.8
1.064234.1
1.093240.4
96.570909
UBUTEC21
131.5
18.7
26.3 1.076
236.7
-96.1
1.0000
28.8
31.9
-28.7
-30.3
1.0800
-130.8
-38.8
-18.6
22.1
33.3
1.069235.1
-47.4
1.072235.9
-160.7
25.6
161.5
-37.8
30.8
-30.8
44.6
70915UVOLOV51
1
40.4
G
-6.0
-9.0
1.0000
1.0736
-30.8
47.4
31.0
-45.4
1.125123.7
70914UVOLOV21
70969UOTPVO21
45.1
1.070235.55
.3
-7.3
155XTI_MU21
1.073236.0
-52.0
9.9
52.1
-13.7 1.106
121.7
1
117.3
139.2
G
-3.2
-14.0
1.0
736
1.0
000
-43.1
-148.3
43.6
156.3
1.031412.6
1.08322.55
1.0000
-28.9
-161.0
29.5
172.270919
UMUKAC11
93.9
154XKI_MU21
-93.7
1.034413.6
-58.5
49.6
58.5
-65.1
84XRO_MU11
1.029411.6
465.1
21.2
504XVK_MU11
1.035413.9
258.3
-258.1
-82.7
1.045417.9
-294.3
-50.1
297.3
-36.8
78XSA_MU11
-464.4
-23.4
75.0
0.9939
1.0000
11.9
-10.2
1.0500
1.0000
247.3
-34.3
70908UBUTEC82
1.0
000
1.0
354
-1.1
6
-219.9
-66.4
84.4
70957UBUGRE51
1.106121.7
1
8.3
9.0
1.0000
1.0100
29.1
-3.7
-29.1
4.8
70970UKALUS21
1.089239.6
45.5
18.1
-45.4
-26.9
1
11.5
7.5
1
130.0
35.3
R
1.0000
0.9079
-117.9
-18.3
118.5
27.8
1.00315.8
2
11.5
7.5
2
130.0
34.4
R
1.0000
0.9079
-17.1
118.5
26.9
1.00315.8
3
11.5
7.5
3
130.0
1.0000
0.9079
-117.9
-18.2
118.5
27.8
1.00315.8
4
11.5
7.5
4
130.0
1.0000
0.9079
-118.0
-18.5
28.0
1.00315.8
5
11.5
7.5
5
130.0
35.1
R
1.0000
0.9079
-18.0
118.5
27.6
1.00315.8
6
11.5
7.5
6
61.0
1.0000
0.9079
-49.1
-23.4
49.5
28.0
1.00015.8
7 7
1.0000
0.9079
220.4
35.3
R
35.5
R
-117.9
-117.9
35.5
R
118.5
1.00315.8
-246.5
47.0
1.040343.2
1.089239.6
-6.1
10.3
3.9
1.139125.3
1
31.5
30.3
G
-23.0
-10.0
1.0000
1.0518
23.0
-34.9
-21.1
-10.3
35.2
70910UKGPP_21
1.143125.7
1
11.8
10.0
G
-24.0
-10.0
1.0000
10.3
6.1
-10.0
-4.4
1.0518
51.2
-50.8
-162.4
-12.5
162.4
12.5
6.4
-6.3
-58.5
8 8
1.0000
0.9397
1.00015.8
9 9
1.0000
0.9397
1.00015.8
10 10
1.0000
0.9397
11 11
1.0000
0.9397
1.00015.8
12 12
1.0000
0.9397
1.00015.8
1.00015.8
-258.0
-33.8
42.0
1.040343.2
70907UBUTEC81
79911UBUTECGA
-34.6
1.047345.7
11.5
-45.3
-43.7
1.037342.1
-204.6
-16.3
205.0
4.9
45.4
-6.0
-36.4
36.4
-9.2
1
8.0
7.7
1.0000
1.0873
22.2
15.2
-22.0
-14.0
1.114122.5
-1.3
1.030340.0
198.3
-26.9
70906UI_FRA51
1.115122.6
1
21.1
14.3
1.0000
1.0873
42.7
44.4
-42.2
-41.5
70958UBOGOR81
70959UBOGOR51
52.9
43.1
-79.9
-43.0 1.056
348.5
70809UHAEC_81
501XPL_UA01
1.057792.9
-336.7
46.5
337.6
-543.3
430.7
-403.1
1.0000
1.0236-6.04
-312.3
7.0
314.8
12.0
1.03324.8
2
52.0
28.0
2
1000.0
1.0000
1.0000
-946.6
51.4
948.0
52.0
80.0
L
204.8
-65.5
1.055348.1
420.2
-46.2
1.05825.4
1
52.0
25.0
1
1.0000
1.0000
-896.8
46.8
898.0
55.0
80.0
L
950.0
102.8
-5.4
70814UTERNO51
1.086119.5
1
53.0
26.4
G
-2.0
-10.2
1.0000
1.0436
57.0
23.4
-56.7
-20.7
30.0
70950ULUCKS51
94.8
-34.9
-102.4
1.157127.2
1
63.7
56.1
1.1491
1.0000
-84.8
76.2
90.5
120.2
-90.0
-75.7
-43.0
6.7
70943UNVOLJ21
70967UOTPL221
70922ULJUZN21
70924ULJVOV21
70925ULJVOV51
70968UOTRPO21
70913USTRIJ21
70932UBORIS21
70912USTRIJ51
70917UMUKAC21
70916UMUKAC51
79917UBUTECG5
79919UBUTECG7
79918UBUTECG6
79916UBUTECG4
79914UBUTECG2
79909UBUTECG1
79915UBUTECG3
70911UKGPP_51
70971UKALUS51
70934UBUTEC11
79913UBUTECGC
79910UBUTECG9
79908UBUTECG8
79912UBUTECGB
70991UZAPUK82
70981UOTPRA81
70938UGRABO51
-256.9 70937
UGRABO81
79985URAEC_G6
79904URAEC_G4
79900URAEC_G5
79902URAEC_G3
79903URAEC_G2
79901URAEC_G1
79809UHAEC_G1
79808UHAEC_G2
70820UCERNC51
-196.4
-0.5
70821UCERNO81
70905UIFRAK81
1.135124.9
1
58.9
34.2
1.0864
35.4
-73.6
236.1
-79.9
50.0
-413.270810
UHMELJ8170813UTERNO81
-26.0
74.4
1.0000
70811UHMELJ51
70818UBAR3 81
70995UZUKR702
UKRAINE
4.39
Figure 4.27 – Ukraina – Load flows for Summer 2010 regime – part2
0.0
631.7
1.005754.00
.0
909.1
-191.8
-419.0
70827UVN_7501
-428.9
-409.9
70803USEPET81
1.059349.5
-203.8
50.6
1.042343.8
-119.3
60.8
1.058349.0
-83.4
70.8
83.9
-99.1
1
35.0
36.1
1.0000
1.0864
-35.0
-36.1
38.3
70839UKPODO51
35.4
70828UKPODO81
1.057348.7
-84.2
-7.9
-2.6
1.111122.2
1
22.6
23.2
1.0000
1.0655
91.8
56.7
-91.2
-51.6
1.067352.0
1
-400.0
156.0
H
-92.7
-124.9
84.3
70805UDSGEC81
519XMD_UA81
115.1
1.063350.7
302.6
-56.5
-299.6
1.062350.5
195.4
-63.2
-193.3
4.7
-233.4
53.1
70822ULDTEC81
70806UDSGEC51
92.8
36.2
1.068352.5
73.8
-73.6
-29.2
70819UBAR1 51
1.127123.9
1
6.8
4.6
1.0000
1.0864
32.6
-4.2
-31.5
4.4
1.035341.7
-50.1
-89.2
50.5
36.0
1.045345.0
-285.2
-28.3
288.3
5.4
72.4
0.3
-72.3
-34.5
70823ULDTEC51
1.139125.3
1
49.9
45.7
1.0864
50.3
48.4
-45.7
1.071353.4
-120.3
-41.4
120.7
11.6
1.01020.2
2
23.5
12.0
2
220.0
0.0
L
1.0000
0.9550
-196.0
24.6
-12.0
1.01020.2
3
23.5
12.0
3
220.0
0.0
L
1.0000
0.9550
-196.0
24.6
196.5
-12.0
1.00020.0
4 4
1.0000
0.9550
1.00020.0
5 5
1.0000
0.9550
1.00020.0
6 6
1.0000
0.9550
70530UKOTOV81
70851UDNGAE81
1.0000
-49.9
1.00020.0
1 1
1.0000
0.9550
79823ULDTECG1
79824ULDTECG3
196.5
79822ULDTECG2
79825ULDTECG4
79827ULDTECG6
79826ULDTECG5
70802UVINNI51
1.063116.9
1
76.7
58.6
1.0000
1.0018
48.6
28.3
-48.2
-25.7
-194.8
23.4
195.1
-29.6
1.0
70801UVINNI81
1.072117.9
1
4.9
4.6
1.0018
1.0000
-17.0
-0.6
17.2
1.3
1.0689-7.97
1.0000
-242.6
-18.1
243.5
34.4
1.075354.6
-90.3
-18.2
90.6
-15.9
70825UVN_7551
70826UVN_7581
70840UKAZAT81
70599UJUAZS01
0.969727.0
-136.3
-549.2
137.1
-107.5
189.1
56.7
-188.7
-417.0
1.043344.3
-21.6
52.9
11.4
1.041343.7
-37.6
89.9
27.5
1.046345.1
80.5
-35.9
70529UKOTOV51
1.107121.8
1
28.5
18.2
G
0.0
-1.5
1.0692
1.0000
-61.7
-22.4
62.0
25.3
-89.8
-52.9
522XMD_UA84
-80.1
-9.5
524XMD_UA86
523XMD_UA85
70344UPOBUZ81
1
48.3
31.2
1.0000
1.0320
152.6
46.7
-152.2
-40.1
70520UJUAZS81
1.025338.2
-102.5
42.6
102.9
-72.7
1.059158.8
70345UPOBUZ31
1.047345.3
1.046345.2
41.8
-23.2
-41.7
-5.8
1.036341.8
12.6
-58.3
70515UARCIZ51
1.072117.9
1
34.7
15.2
G
0.0
-3.5
1.0000
-53.9
-4.3
54.3
6.6
-12.6
1.0264
70545UARCIZ81
-0.9
1.043344.3
47.0
-62.0
70508UUSATO81
1.030339.9
70513UNODES51
1.085119.3
1
104.6
73.4
1.0000
1.0655
108.9
68.5
-108.4
-62.6
60.1
525XMD_UA87
-60.0
521XMD_UA83
70512UNODES81
70710UBCERK81 -4
8.3
-129.0
-14.1
1.129124.2
1
6.5
7.1
1.0655
1.0000
-38.2
38.4
30.0
-27.9
70830UKAZTN51
70703UCAEC_01
0.999749.02
.9
597.7
-267.6
-518.0
268.4
1.038342.5
1.0000
1.0000
389.6
-119.2
-389.3
143.5
1.051346.8
1
4.0
2.9
1.0000
1.0483-4.22
132.4
-39.8
-131.6
1.0000
1.0483-4.22
132.4
-39.8
-131.6
44.9
44.9
1.064351.3
19.8
70804USEPET51
1.099120.9
1
32.7
20.6
G
0.0
-7.2
1.0000
1.0436
38.8
15.0
-38.5
-13.1
-163.4
165.0
-65.6
70713UZITOM51
1.210133.1
1
85.2
39.5
1.0000
1.1491
95.7
42.9
-95.2
-36.8
70720UTPTEC81
1.073354.1
1
21.8
8.4
-17.0
-52.5
17.1
-22.5
1.061350.08
4.7
-10.2
-84.5
-20.1
70712UZITOM81
-21.2
-50.6
21.3
-6.4
70730ULESNA51
1.056116.1
1
62.8
23.6
1.0018
63.2
26.4
-62.8
-23.6
1.0000
70729ULESNA81
1.026769.8
-381.9
-418.1
539XUA_BY81
1.052347.0
-228.5
35.0
-42.0
70723USEVER81
1.025338.4
-27.7
67.6
70728UCAEC_51
1.074118.2
1
15.2
-0.7
1.0000
1.0227
0.5
63.7
-68.3
-63.6
46.5
15.5
229.070727
UCAEC_81
222.670772
UKIEV01
-15.2
0.7
1.066351.7
125.3
147.5
-152.3
-239.9
-30.1
241.8
8.8
-146.2
70773UKIEV81
70721UKTEC_86
1.032340.6
84.7
19.4
-94.9
1.132124.6
1
151.4
109.3
1
-130.0
24.1
R
1.0000
1.1700
192.4
234.4
-209.0
-191.2
70724USEVER51
1.081118.9
1
5.2
0.7
-5.2
1.062350.3
58.2
30.4
-58.2
-47.5
-0.7
1.0227
1.0000
1.058349.25
.3
70722UKTEC 56
1.123123.5
1
76.3
57.0
1.0000
1.1073
49.2
72.4
-48.7
1.052347.2
-29.9
-157.1
30.4
141.5
1.00020.0
3 3
1.0000
0.9500
-68.6
-19.3
70733UCERNI81
70731USLAVU81
28.2
-109.4
1.0
1.068352.3
-156.0
44.0
156.4
1.099120.9
1
103.9
59.0
28.7
57.9
70719UKTEC_85
1.066351.6
-57.4
9.8
57.5
-17.9
18.6
-136.9
-18.4
96.8
-28.2
70708UNKIEV51
1.0000
1.0455
-54.6
-56.1 70709
UNKIEV81
1.103121.3
1
122.5
37.1
1.0227
1.0000
-155.5
51.7
156.0
-44.0
70705UOKTOB51
70706UOKTOB81
1.00020.0
1 1
0.9100
1.00020.0
2 2
1.0000
0.9100
79721UKTEC6G3
1.0000
79723UKTEC6G2
79722UKTEC6G1
1.096120.6
1
77.5
35.0
G
-115.0
-21.0
1.0000
1.0227
15.4
19.5
-15.0
-17.8
-145.6
28.8
146.3
-56.5
70711UBCERK51
540XUA_BY82
1.056348.5
-30.2
106.4
10.7 70701
UNEZIN81
1
0.8
0.9
-26.1
3.8
-20.2
70734UCERNI51
1.119123.1
1
18.0
10.7
1.0455
-20.8
52.3
23.5
1.0000
-51.9
-106.1
70732USLAVU51
70707UKTEC 55
1.116122.8
1
101.3
65.3
1.0436
1.0000
19.1
-61.9
-15.7
188.5
57.9
-187.6
-74.1
1.02220.4
4
15.5
5.0
4
200.0
40.0
L
1.0000
0.9500
-184.0
-24.2
35.0
62.4
1.10511.1
1
25.0
7.6
1
102.5
20.0
L
1.0000
-77.1
1.10511.1
2
25.0
7.6
2
102.5
20.0
L
1.0000
0.9800
-77.1
-6.5
77.5
1.02420.5
3
14.0
4.0
3
205.0
40.0
L
1.0000
0.9100
-190.6
-25.4
191.0
12.4
0.9800
-6.5
12.4
184.5
79707UKTEC5G3
77.5
79700UKTEC5G1
79701UKTEC5G2
79719UKTEC5G4
36.0
1.053347.6
-253.5
-47.2
256.1
23.5
1.00020.0
1 1
1.0000
0.9500
2 2
1.0000
0.9500
3 3
1.0000
0.9500
1.00020.0
4 4
1.0000
0.9500
1.03020.6
5
38.0
13.0
5
250.0
52.0
R
1.0000
0.9500
-211.4
-24.8
212.0
39.0
6
13.0
6
250.0
52.1
R
1.0000
0.9500
-211.4
-24.8
212.0
39.1
130.1
1.077355.2
1.00020.0
70714UKANGE81
1.03020.63
8.0
1.00020.0
79720UTPTECG1
79725UTPTECG3
79727UTPTECG5
79728UTPTECG6
79726UTPTECG4
79724UTPTECG2
1.043344.2
8.3
60.8
-82.9
70510UUSATO51
1.092120.1
1
144.7
93.3
G
-40.0
-32.0
1.0000
1.0864
120.7
88.5
-120.2
-80.9
1.025338.3
-136.4
68.2
136.7
-78.7
-7.0
37.8
-43.7
-8.3
51.8
-61.6
-66.8
61.7
520XMD_UA82
-37.7
1.0
78.0
263.3
-46.6
-259.8
15.5
1.059116.5
1
15.6
4.1
1.0000
1.0455
84.2
29.0
-83.5
-24.9
70523UADZAL81
0.0
845.1
70351UUKRAI81
-49.8
149.5
0.8
1.005331.7
-146.4
-57.4
147.4
16.2
-364.4
-46.2
368.8
46.1
1.062159.3
1
33.8
12.6
1.0000
1.0473
112.9
22.6
-112.7
-16.0
1.023337.5
211.1
67.4
-211.0
-69.5
211.1
67.4
-211.0
-69.5
1.0705-5.36
1.0000
-591.6
-85.0
592.1
127.6
0.98323.6
1
22.4
10.0
1
1000.0
143.4
R
1.0000
0.9500
-975.4
-16.2
977.6
133.4
1.00024.0
22
1.0000
0.9500
70598UTGAES81
1.000750.0
492.5
-287.1
0.95022.8
3
22.0
3
1000.0
278.8
R
1.0000
0.9542
-948.3
-136.4
950.0
256.8
505XRO_UA01
50.0
70521UJUAZS31
79599UJUAZSG3
79521UJUAZSG2
79520UJUAZSG1
70501UTRIHA81
70352UUKRAI31
1.012151.8
1
46.6
20.8
G
-8.0
-3.0
1.0000
1.0113
121.7
27.3
-121.3
-22.8
26.7
22.4
1.006332.1
-148.4
105.2
70386UKVARC31
1.016152.4
1
21.3
8.3
1.0000
1.0113
41.2
0.4
-41.1
1.0
45.2
35.1
1
51.7
27.4
1.0000
1.0540
75.4
-69.8
220.4
48.0
-99.1
1.034155.2
99.4
-0.6
-112.2
70503UTRIHA31
1.116245.6
1.0000
0.9153
31.0
47.2
0.998329.4
70552UADZAL51
70588UBEREZ21
1.097241.2
1
5.4
3.1
-30.6
-51.21.077
236.9
-24.9
25.2
48.1
-45.4
30.9
-30.9
45.4
-53.4
1.098120.8
1
17.7
9.4
1.0000
1.0536
18.7
35.6
-18.5
-33.3
1.072235.9
6.3
17.7
-6.2
-21.8
70502UTRIHA21
70506UKOMIN21
70548UCENTR21
1.050115.5
1
73.8
41.5
1.0000
1.0200
6.2
21.8
-6.2
-20.7
70507UKOMIN51
70551UCENT151
1.061350.0
-3.8
81.9
-43.6
1
15.2
7.7
G
0.0
-2.7
-34.0
-104.2
31.6
104.7
-68.6
70702UNEZIN51
1.186130.5
37.2
-24.9
1.0000
25.2
1.1491
70735UBROVA81
1.142125.7
1
46.6
16.7
1.0000
1.0864
52.5
1.2
-52.0
1.4
70736UBROVA51
70715UKANGE51
1.073118.0
1
35.2
33.1
1.0000
1.0227
73.6
17.6
-73.1
-13.7
179.9
29.5
57.0
70385UKVARC81
1
7.5
4.0
1
224.0
1.0000
1.0000
216.5
21.0
79345UKRTECG2
25.0
L
79340UKRTECG1
-215.8
-3.4
1.120123.2
1.00020.0
UKRAINE
4.40
Figure 4.28 – Ukraina – Load flows for Summer 2010 regime – part3
70356UDNEPR01
0.956716.70
.0
273.8
-489.4
-368.5
0.986325.2
-26.5
-73.1
-82.3
0.965318.4
0.987325.7
-219.3
-56.6
70525UNIKOL81
-81.6
5.3
1.063350.9
1.037342.3
-178.6
-55.4 1.036
342.0
-148.2
6.0
148.4
-12.5
1
27.0
14.1
1.0000
1.0655
30.2
67.9
-29.8
-64.3
70726UPALJN51
1.087119.6
70725UPALJN81
70328UKRGEC81
1.008332.8
1
2.4
20.8
-153.8
-75.5
155.4
33.6
1.077118.4
1
57.5
25.3
1.0000
1.0227
-7.1
-39.6
7.4
41.4
70717UCERKA51
70716UCERKA81
1.017335.5
60.1
-60.0
0.977322.6
-76.8
42.6
70329UKRGEC31
1.029154.4
1
35.9
22.9
1.0000
1.0360-4.63
58.4
62.7
-58.1
153.0
-58.5
-50.7
30.5
1.026338.63
.3
17.4
-3.2
70219UKREME31
1.043156.4
1
110.8
31.6
1.0000
1.0267
4.0
-13.9
-3.9
1.026338.7
-69.2
-38.6
69.4
-2.3
0.995328.5
-1.7
55.7
1.9
-90.7
70243UMIRGO81
14.0
70218UKREME81
-51.6
322.5
30.7
-320.7
-29.2
294.0
94.3
1.011151.6
1
110.4
41.7
1.0000
1.0473
157.8
90.3
-157.4
-81.8
70370URUDNA81
-104.6
70371URUDNA31
0.982324.0
89.2
-117.7
-104.2
20.0
-43.2
-20.0
0.965318.3
97.5
101.4
-97.5
-101.4
70360UGORNA81
-75.9
-84.6
0.964318.1
-22.3
-65.7
3.7
0.961317.1
-21.0
30.0
0.994149.2
1
292.0
129.0
1.0533
1.0000
38.0
-37.8
99.3
83.9
-83.7
-75.2
0.984324.7
138.1
-92.3
61.8
7 7
1.0000
0.9250
1.00020.0
8 8
1.0000
0.9250
1.00020.0
9 9
1.0000
0.9250
1.00020.0
10 10
1.0000
0.9250
1.00020.0
3 3
1.0000
0.9550
1.00020.0
4 4
1.0000
0.9550
1.00020.0
5 5
1.0000
0.9550
6 6
1.0000
0.9550
1.00020.0
-42.3
-95.5
-137.1
1.007151.1
1
4.1
26.0
28.5
-15.4
-27.8
9.9
0
0
1.00020.0
2 2
250.0
25.0
L
1.0000
242.5
4.0
7.5
79359UKRTECG4
79361UKRTECG6
79358UKRTECG3
79360UKRTECG5
79342UKRTECG8
79339UKRTECG7
79343UKRTECG9
79344UKRTECGA
70358UKRTEC81
1.00020.0
70342UKAHGE31
1
142.3
96.8
G
-14.0
-8.0
61.6
1.5
-61.2
-6.5
0.986147.9
1.0000
1.0533
67.4
86.5
-67.1
-82.3
0.971145.6
1
170.9
88.5
G
-23.0
1.0000
1.0320
64.7
-100.6
-60.570361
UGORNA31
-23.0
100.9 0.955
315.2
21.0 0.961
317.1
60.6
70372UGORNA32
151.7
35.2
0.972145.8
1
95.7
76.9
1.0000
1.0320
72.4
45.3
-72.2
-41.2
-1.5
1.5
1.0
0.956143.5
1
98.9
62.4
G
-33.0
1.0000
1.0113
59.6
35.5
-59.4
-14.0
-1.0
-70.8
71.0
44.4
1.0000
1.0113
59.0
35.1
-58.8
35.1
1.0320
-40.6
-151.5
-37.4
151.7
-32.1
1.0000
65.7
61.3
-89.3
84.8
-44.7
30.8
70339UKRTEC82
70335UJUZNA82
-151.6
70333UJUZNA81
70357UJUZNA32
-32.7
550.7
151.2
-547.7
-148.8
1
121.7
G
-33.0
-14.0
1.0000
1.0113
178.5
100.7
-90.2
0.953143.0
-178.0
263.3
70332UKIROV31
-95.9
-151.4
-293.3
70526UNIKOL31
1.044156.6
1
45.1
8.4
G
0.0
-6.0
1.0000
1.0760
96.9
68.3
-96.6
-63.2
0.983324.3
122.4
-11.7
-121.9
-13.0
-50.9
3.7
50.9
-25.1
70550UHERSO31
1.026153.9
1.0000
1.0540
71.0
38.1
-70.7
-34.9
70531UHERSO81
398.9
63.9
-395.6
-57.6
0.975321.8
-31.9
32.0
0.986148.0
1
110.4
46.9
1.0000
1.0320
111.2
51.8
-110.9
-44.7
0.986148.0
1
110.4
41.7
1.0000
1.0320
110.2
51.3
-109.9
-43.9
-16.2
-16.6
70325UPM_DN81
70326UPERVO31
70365UPERVO32
479.6
46.3
-475.6
-33.8
1.0480-1.50
1.0000
-660.5
-20.1
661.9
70.1
1.0480-1.50
1.0000
-660.5
-20.1
661.9
70.1
0.995328.4
118.1
-10.0
-118.1
8.3
70308UDNEPR81
70375UVDGMK31
0.995149.2
1
93.2
29.1
G
-25.0
-11.0
1.0000
0.9960
118.1
-117.8
14.5
-8.3
70374UVDGMK81
-327.7
-114.2
328.4
1.027154.0
1
105.5
41.7
1
20.0
220.7
R
1.0000
1.0113
147.2
-80.2
-146.8
92.7
70346UPROME81
0.961720.80
.0
830.7
1417.4
-62.0
-1410.0
-69.6
0.0
528.6
575.6
24.2
-573.5
-303.9
0.939704.2
1.047345.6
-67.9
-57.5
68.2
4.5
1.028113.0
1
32.8
18.2
1.0000
0.9627
41.1
-13.6
-41.0
14.3
-27.7
3.8
27.7
-41.5
70215UKANAT51
1.059349.4
70214UKANAT81
516XRU_UA84
1.053347.34
5.3
-55.1
-45.3
30.7
70223USOSTK51
1.059116.5
1
13.9
5.8
1.0055
1.0000
-17.5
-10.7
17.5
10.9
70245USOSTK81
1.028339.3
-141.2
142.3
70222USUMI151
1.043114.7
1
54.7
31.6
G
-45.0
-23.0
1.0000
-122.6
-13.9
126.9
1.038342.68
8.9
-185.6
14.2
0.9627
70247USUMIS81
517XRU_UA85
1.038342.5
130.8
-30.1
-130.4
14.7
1.034341.1
-36.7
-8.9
-0.0
70248USUMIS51
1
52.9
19.5
1.1073
171.0
-49.7
-156.8
181.8
-88.6
-1.7
1.0000
50.5
131.2
-16.8
-130.3
-19.1
70244UMIRGO51
1.118123.0
1
47.9
21.3
G
0.0
-44.0
1.0000
1.1009
60.9
-60.8
-19.5
70312UPRAVO81
0.980323.35
.7
-23.0
-5.7
1.025153.8
1
127.5
41.7
G
-7.0
-3.0
117.3
36.9
-117.0
-162.3
354.1
1.025153.8
1
120.2
27.0
1.0000
1.0533
124.1
-123.7
-33.3
39.0
-2.8
118.2
1.0000
-32.4
1.0533
160.2
0.985325.1
-37.4
70334UJUZNA31
70331UKIROV81
70387UNIKOP31
70315UNIKOP32
1.002150.4
1
149.6
10.5
1.0000
1.0200
150.0
15.3
-10.5
0.996328.5
-252.1
-87.7
252.6
81.8
-252.1
-87.7
81.8
252.6
-149.670337
UFERRO31
-353.9 70336
UFERRO81
1.0000
1.0584-9.86
782.8
212.7
-135.1
79338UZATECG6
1.00024.0
6 6
1.0000
0.950079341UZATECG7
1.00024.0
7 7
1.0000
0.9500
0.985324.9
101.0
-209.8
-103.3
70311UDGEC131
1
278.0
160.2
1
0.0
1.0000
-108.6
126.3
-203.7
204.1
0.0
L
70314UNIKOP81
1.0320
0.974146.1
0.996328.5
-161.7
-29.9
-115.5
116.3
-56.8
0.996328.7
-119.5
120.3
-65.5
1
1.0000
113.0
86.6
70522UKAHGP81 1
63.5
6.7
0.992327.3
1.0473
20.6
-28.2
1.098241.5
1
22.4
G
0.0
1.1168
-71.4
46.0
0.994327.9
-50.5
-170.40.999
329.6
-183.7
20.0
183.7
-29.6
174.1
1.0000
79.1
-174.0
-22.0
-55.3
-47.1
172.1
1.008151.2
19.8
23.2
47.1
70415UOSTRO81
1.000330.0
-39.0
12.0
1.096120.5
1
13.1
7.2
G
0.0
-30.0
1.0000
1.0873
23.0
-27.6
-23.0
29.4
1.097120.7
1
6.2
3.4
1.0000
1.0864
-12.0
-49.2
0.986325.5
187.4
-79.1
-183.7
49.4
-49.3
49.3
70424USEVAS81
-112.8
-80.5
88.8
49.3
70517UKAHGP31
70401UDZANK81
70419USIMFE81
70413USIMFE21
1.073236.0
1.1014
1.0000
-121.7
-87.3
121.8
92.9
1.014334.5
48.6
-112.7
-47.9
91.3
70430UZPKRI81 2
9.6
236.0
-233.9
-13.8
0.986325.5
160.3
-35.6
17.4
1
104.7
1.0000
1.1000
205.9
75.5
-63.8
70402UDZANK21
1.090239.7
1
13.7
6.7
2.5
11.8
1
17.5
17.9
G
0.082.5
1.079237.4
1
18.5
16.8
65.8
55.2
-65.3
-58.4
-14.4
1.079237.4
-13.0
70408UNS_2_21
-81.7
70479UOSTRO51
-20.8
-2.5
4.0
70412UMARJA21
70403UKRPER21
1.088239.3
1
18.5
11.2
-29.1
11.3
29.2
1.079237.41
7.9
2.8
-17.8
-17.0
-16.1
70518UKAHGP21
1.089239.6
-47.7
4.9
47.9
-13.7
70404UTITAN21
0.9293
1.0000
48.2
-12.1
-47.9
13.7
1.094120.4
1
21.2
20.2
1.0000
1.0309
17.0
-17.8
-16.2
70406UDONUZ51
1.068235.0
1
9.4
11.2
46.8
41.6
17.8
14.5
70405UDONUZ21
70432UZPKRI51
1.053231.6
-38.7
37.3
33.4
1.070235.4
-15.4
64.2
9.5
-46.7
-44.6 70411
UZLEVA21
70409USIMTE51
1.104121.4
1
72.9
67.3
G
-44.0
-38.0
1.0946
1.0000
-37.0
-34.1
38.7
37.1
-37.1 70410
USIMTE21
-25.0
-10.5
25.0
-11.6
70420UNS_3_21
1.060233.2
1
9.4
9.0
38.3
5.6
-38.2
-14.4
1
24.2
12.2
1.0000
1.0620
19.5
15.8
-19.5
-14.270474
UFEODO52
1.125123.8
1
26.0
7.3
1.0000
1.0554
31.1
4.5
-31.0
70407UFEOBO21 -6
3.9
1.109122.0
-3.2
70457UFEODO51
70421UKRIM_21
1.053231.7
28.8
5.4
-28.7
-12.7
1.125123.7
1
39.7
15.4
G
-6.0
-3.0
1.0000
1.0736
28.7
-28.7
-11.2
12.7
70475UKBURU51
70414USIMFE51
1.098120.8
1
97.5
65.0
G
0.0
-15.0
1.0000
1.0400
61.1
41.8
-61.1
-38.8
1.051231.3
1
14.2
6.7
35.6
57.2
-35.3
-61.4
1.113122.4
1
92.0
34.7
G
-26.0
-75.0
1.0455
1.0000
-47.7
97.8
47.9
-91.3
70417USEVAS51
70423UKBURU81
1.034227.5
-20.8
-58.5
21.1
54.7
1.0000
1.1000
20.8
58.5
-56.9
-20.8
70416USEVAS21
70418UBAHCI21
0.986325.3
-48.1
37.7
-20.5
1.017152.5
1
40.9
22.9
1.0000
1.0320
121.5
48.6
-121.2
-43.1
190.8
-189.7
-24.4
79300UZATECG3
1.00020.0
3
12.5
7.5
3
250.0
1.0000
1.0000
-237.0
2.0
237.5
16.7
4
12.5
7.5
4
250.0
40.0
L
1.0000
1.0000
-237.1
-13.7
237.5
1.00024.0
55
1.0000
0.9500
-37.6
32.5
70310UZATEC31
79310UZATECG1
1.00020.0
1 1
1.0000
0.9400
79311UZATECG2
1.00020.0
2 2
0.9400
1.0000
24.2
R
79301UZATECG4
1.00520.1
-3.9
70309UZATEC81
79309UZATECG5
-12.9
-205.4
1.068160.24
1.7
70355UMELIT31
-159.4
70354UMELIT81
121.9
-41.4
-121.2
10.4
70350UMALAC31
1.007151.1
1 G
0.0
-26.0
1.0000
1.0320
150.5
49.6
-150.1
-42.9
62.4
153.7
70313UZAEC_01
-780.8 70338
UZAEC_81
1417.2
49.1
-1406.0
-226.6
0.98823.7
1
50.0
24.0
1
1000.0
321.6
R
1.0000
-948.1
-142.8
950.0
297.6
0.98823.7
2
50.0
24.0
2
1000.0
321.6
R
1.0000
1.0000
-948.1
-142.8
950.0
297.6
0.98823.7
3
50.0
24.0
3
1000.0
321.6
R
1.0000
1.0000
-948.1
-142.8
950.0
297.6
4
24.0
4
1000.0
321.6
R
1.0000
1.0000
-948.1
-142.8
950.0
297.6
5
50.0
24.0
5
1000.0
321.6
R
1.0000
1.0000
-948.1
-142.8
950.0
297.6
1.00024.0
6 6
1.0000
1.0000
1.0000
0.98823.75
0.0
0.98823.7
79313UZAEC_G1
79314UZAEC_G2
79321UZAEC_G6
79319UZAEC_G4
79315UZAEC_G3
79320UZAEC_G5
1.008332.62
.2
-83.8
95.9
50.9
70306UPAVLO81
0.963317.9
-42.5
-37.0
-24.1
-32.3
24.1
70220UPOLTA51
1.091120.0
1
109.8
47.4
1.0000
1.0709
-94.4
-33.4
123.1
-35.9
-27.4
-121.9
-25.2
592.4
-569.0
1.0000
1.1090
693.5
285.4
-692.1
-216.9
1.0000
1.1090
693.5
285.4
-692.1
-216.9
21.4
70347UPROME31
114.0 0.982
324.0
1.023337.6
-30.0
14.1
-14.8
10.7
1
129.1
44.5
1.0000
1.0018
104.1
-103.8
-23.8
26.8
27.4
1.043114.7
1
34.2
1.0000
1.0018
-18.6
-26.2
26.6
-54.8
-26.7
29.3
10.5
-51.8
70207UZALJU52
79207UZALJUG3
1.00020.0
1 1
1.0000
1.0000
1.015111.6
18.6
1.038114.2
1
84.4
35.2
2
5.5
2
95.5
1.0100
-89.8
90.0
23.2
1.07610.8
3
5.5
3.0
3
95.5
26.2
R
1.0000
1.0100
-89.8
90.0
23.279238
UZALJUG2
-14.8
45.6
1.0000
26.2
R
3.0 1.076
10.8
-14.8
1.061116.7 70213
USUMI381
70206UZALJU81
1.026769.20
.6
315.4
1.0000
1.0000
-263.3
89.3
-82.1
263.4
70241USEVUK81
9.0
1.032774.2
264.3
-7.8
-264.0
506XRU_UA01
70242USEVUK01 -2
33.3
-13.8
1.0455
1.0000
-48.8
30.1
50.4
70208UARTEM52
1.044114.9
1
33.6
G
-43.0
-13.0
-10.4
-37.1
10.4
37.8
1.0000
85.4
1.0455
70209UARTEM81
-30.1
146.0
66.1
-66.0
1.093120.2
1
14.6
8.2
1.1073
1.0000
-69.8
-66.4
69.9
1.021337.1
5.2
-5.2
1.00020.0
7 7
1.0000
1.005079205UZMTZSG8
1.00020.0
8 8
1.0000
1.0050
1.00015.8
3 3
1.0000
0.939779255UZMTZSG5
1.00015.8
5 5
1.0000
0.9397
71.3
-30.0
1.019336.2-3
3.5
14.8
70204UZMTZS82
79254UZMTZSG3
79204UZMTZSG7
70202UZMTZS52
1.045344.9
62.8
15.5
-70.8
1
16.4
7.9
1.1573
1.0455
-65.6
-80.7
65.8
70299UOTPLO81
1.022337.4
-3.6
3.6
-17.2
1.00020.0
9 9
1.0000
1.0500
10 10
1.0000
1.0500
4
14.5
6.5
4
140.0
20.0
L
1.0000
0.9841
-125.3
125.5
13.5
1.01316.0
6
14.5
6.5
6
140.0
20.0
L
1.0000
0.9841
-125.2
-6.2
125.5
13.5
514XRU_UA82
-6.2
1.023337.6
1.00020.0
118.9
1.01316.0
-62.4
1.024337.98
.8
-41.3
-23.6
70210ULOSEV52
1.068117.4
1
61.1
34.8
1.0664
1.0000
-59.5
-35.8
59.6
38.2
1.068117.5
1
56.9
29.0
1.0000
1.0664
59.7
-35.6
-72.9
41.3
515XRU_UA83
70211ULOSEV81
-20.3
29.3
-3.9
38.1
70246ULOSEV51 -5
9.6
-32.4
72.9
-9.3
1.024337.9
76.6
1.0
-76.5
-12.1
518XRU_UA86
-30.2
86.5
1.00016.5
2 2
1.0000
0.9333
-146.0
-14.1
79237UZALJUG1
70237UZALJU51
70205UARTE151
10.2
13.8
94.5
35.3
70216UPOLTA81
-639.2
-217.9
644.9
206.6
-550.3
-194.1
554.0
211.2
0.971320.4
-120.7
99.7
-81.0
81.1
37.0
0.998149.7
1
132.4
91.5
1
0.0
12.3
R
1.0000
1.0320
225.8
91.2
-225.3
-77.2
70359UZAPAR32
1
441.5
199.8
1
0.0
88.4
R
1.0000
1.0320
281.0
114.0
-280.4
-96.4
70304UZAPAR81
183.1
-39.7
70349UMALAC81
70380UZAPAR01
-181.2
70381UZAP7S81
12.6
-24.0
-12.6
16.4
64.1
59.6
-64.0
-66.2
70367UDNPET31
1
40.9
19.8
1.0000
1.0533
112.7
84.5
-112.3
-75.3
70368UDNPET32
0.983147.5
1
48.3
20.8
1.0000
1.0540
145.1
85.9
-144.7
-72.2
-93.5
-31.4
93.8
1
186.4
65.6
1.0000
1.0320
136.0
68.5
-135.7
-57.1
70369UPAVLO31
0.963144.4
0.986147.9
24.4
31.0
70320UDDZ_132
1.018152.7
1
18.0
10.5
1.0320
75.0
-28.6
-74.8
32.1 0.991
148.7
1
148.8
62.4
G
-25.0
-14.0
1.0000
1.0320
196.2
68.7
-195.7
-58.0
1.0000
-24.3
-40.5
70321UDDZ_131
70319UDDZ 81
70366UDNPET81
70317UPDTEC31
0.978146.7
1
53.3
28.1
1.0440
245.6
123.4
0.981147.2
1
8.3
1.0000
1.0440
211.3
108.9
-211.0
-91.6
-36.0
-27.4
36.1
-7.7
1.00220.0
11
7.5
4.0
11
260.0
107.9
R
1.00320.1
13
7.5
13
1.0000
1.0000
-251.5
-77.6
1.00020.0
12 12
1.0000
1.0000
1.00020.0
14 14
1.0000
1.0000
1.00018.0
9 9
1.00018.0
10 10
1.0000
0.9333
-101.0
7 7
0.9333
8 8
1.0000
0.9333
1.0000
1.0000
-251.4
-74.1
252.5
103.9
1.00018.0
260.0
104.7
108.7
R
4.0
252.5
1.0000
13.1
1.0000
0.9333
1.0000
11.2
0.970320.1
-245.170318
UPDTEC32
1.00018.0
79318UPDTECG7
79325UPDTECGA
79323UPDTECGC
79324UPDTECGE
79326UPDTECG8
1.000150.0
1
15.6
8.3
1.0000
1.0320
96.4
37.3
-96.1
-31.8
0.983147.4
1
223.1
85.3
1.0320
291.7
160.7
-135.7
210.2
1.0000
-290.970302
UDD1503270382UDD15231
70301UDD 81
79317UPDTECG9
79316UPDTECGB
79322UPDTECGD
70316UPDTEC81
0.998149.7
1123.3
-316.4
70305UZAPAR31
70201UZMTZS81
79251UZMTZSG4
79201UZMTZSG9
79200UZMTZSG2
79203UZMTZSGA
79252UZMTZSG6
21.0
0.2
1.0000
-241.7
70340UKRTEC31
UKRAINE
4.41
Figure 4.29 – Ukraina – Load flows for Summer 2010 regime – part4
-31.1
-21.3
70109UMIHAI21
1.061233.4
113.3
129.1
17.8
-6.0
-93.1
-31.0
93.6
28.3
51.9
6.9
42.8
1.4
7.8
61.3
-4.9
1.063233.8
155.5
-154.7
16.4
36.8
25.0
0.0
-9.2
1.0000
1.0800
149.1
114.9
-148.0
-98.6
1.010222.2
0.6
52.8
-0.2
-64.6
1.056232.3
-0.5
16.7
0.5
-21.6
70173UMIHAJ81
0.972320.7
1.0996
1.0000
-383.1
-74.3
384.1
88.1
0.987325.7
-384.1
-88.1
386.2
92.3
70185UDONBA91
1.007503.50
.0
182.6
231.9
-135.0
-188.3
-39.4
188.5
3.6
0.976732.30
.0
285.8
1.0200
1.0000
-41.1
122.2
41.7
-119.5
1.0200
1.0000
-41.1
122.2
41.7
-119.5
1.0000
1.0659
188.3
-188.2
-31.7
1.017223.8
12.3
7.8
47.2
-373.2
-9.8
70171UMAKEE81 3
3.9
163.7
-52.1
70180UUGTEC51
41.7
15.6
1.0000
1.0682
199.8
50.8
-199.0
-37.5
0.985325.1
156.0
721.1
-154.7
1.03020.62
5.0
20.0
1.0000
1.0000
-202.2
-117.8
205.0
137.4
1.03020.62
5.0
20.0
230.0
157.4
R
1.0000
1.0000
-202.2
-117.8
205.0
137.4
1.0000
0.9500
1.0000
0.9500
1.0000
0.9500
70136UCAJKI81
0.996328.8
78.2
117.9
-78.1
-122.2
95.7
-27.6
-27.6
1.0000
1.0655
241.2
88.2
-240.3
-73.2
1.0454
1.0000
-136.0
136.4
113.4
70140UKUTEC81
1.016335.4
-180.2
-131.5
181.2
96.5
1.0000
1.0454
86.1
73.5
-85.9
-67.2
70170UHARCI81
1.004331.3
-120.6
-173.3
120.8
153.9
219.2
36.2
1.029339.7
-126.4
-71.3
127.3
24.8
70198UHARCI51
1.056116.2
103.7
37.2
-9.0
-2.0
1.0000
1.0655
221.4
73.4
-220.4
-60.6
0.99019.83
2.3
34.2
250.0
149.5
R
1.0000
0.9550
-217.5
-96.2
217.8
115.4
0.99019.83
2.3
34.2
250.0
149.4
R
1.0000
0.9550
-217.4
-96.0
217.8
115.2
1.00020.0
1.0000
0.9550
1.00020.0
1.0000
0.9550
36.8
23.5
0.0
-0.0
0.0
-4.4
70128USBTEC21
1.002220.41
4.8
1.6
12.8
-48.1
-12.8
84.5
32.8
1.0518
1.0000
50.4
53.0
1.005221.0
11.6
-11.6
-20.7
51.0
-22.0
1.006110.6
54.5
1.0000
1.0000
45.2
-12.5
-44.4
21.2
0.978215.1
20.8
81.4
-20.4
-117.7
-31.6
-80.0
31.8
75.9
33.7
117.2
63.7
29.8
15.5
145.5
15.0
L
1.0000
1.0000
-115.1
12.1
115.8
-0.5
1.00415.8
29.8
15.5
145.5
20.0
L
1.0000
1.0000
-115.1
3.7
115.8
1.0000
1.0000
1.00015.8
1.0000
1.0000
1.00015.8
1.0000
1.0000
1.00015.8
1.0000
1.0000
1.00015.8
1.0000
1.0000
1.0000
1.0000
1.00003.07
1.0000
107.9
460.2
-82.6
1.0000
107.9
460.2
1.038342.4
692.5
146.3
-690.1
1.028339.3
-69.0
-20.9
69.0
15.4
-69.0
69.0
15.4
1.020336.6
-101.1
101.5
7.2
1.047115.2
150.6
-12.0
-8.0
1.0264
1.0000
-322.0
-69.9
323.3
86.2
-48.1
-40.1
48.1
27.9
-2.1
-24.9
0.99715.7
1.0000
0.9430
-149.4
20.0
1.0000
0.9430
-149.4
-73.6
150.0
87.7
1.00015.8
1.0000
1.00015.8
1.0000
0.9430
1.00015.8
0.9430
-202.3
-71.9
203.1
60.1
0.985325.0
18.6
-10.4
-18.6
1.6
1.017335.7
-37.3
37.7
58.2
70159USLTEC81
0.990326.77
4.3
27.0
-74.2
-41.6
1.0454
1.0000
-73.4
73.8
18.9
-196.4
46.7
197.4
-61.1
-95.3
-99.4
70228UKUPJA81
1.009333.0
13.9
-84.6
-13.7
47.5
1.00024.0
1.0000
1.0000
-39.5
40.5
36.8
90.9
5.2
-90.6
-29.4
42.6
-1.1
1
1G
1
1
3 3
4 4 6 6
7 7 5 5
1 G 1 G
1 1
2 2
3 3
4 4
1
1
1
1
1
6 6
7 7
8 8
9 9
10 10
11 11
12 12
13 13
1 G
66
7 7
8 8
9 9
8 8
-588.6
209.7
70186UDONBA01
-82.6
-5.5
1.031226.7
1.022224.8
70150ULIP_221
-40.4
36
1.084119.3
16.8
-118.6
-104.0
70227UPM_SE51
1.061116.7
1
37.8
14.8
G
-29.0
-9.0
22.5
1.024337.8
0.992109.1
1
26.4
9.0
70224ULAZAV51
-27.7
0.9627
1.0000
-52.8
52.9
-28.8
30.6
1.00016.5
1 1
1.0000
0.9333
1.0264
1.0000
70240ULAZOV81
27.7
-21.970226
UPM_SE81
1.044114.8
1
1.0864
1.0000
-63.7
1.041114.5
1
13.8
5.6
1.0000
1.0264
53.0
11.4
-9.9
-39.3
93.7
R
170.0
6.0
-149.1
70155UIVANO81
-73.5
90.2
5
20.0
6.0
5
170.0
96.2
R
150.0
79140UKUTECG5
0.99715.7
79144UKUTECG7
0.9430
1.0000
79146UKUTECG9
79143UKUTECG6
79145UKUTECG8
70184UZARJA81
-53.0
70195UIVANO51
1.034113.7
1
7.1
1.5
1.0000
1.0264
137.9
41.7
-137.6
-30.870012
UMIRNA51
-20.970011
UMIRNA81
70007UJDONB81
70006UJDONB01
0.966724.20
.0
1.0000
1.0794
79.8
-346.2
-73.2
1.0000
1.0794
346.3
79.8
-346.2
-73.2
279.5
346.3
416.8
-342.5
-415.2
-91.3
-1109.5
-96.6
70143UKRARM51
1.040114.4
-719.2
-459.2
1.00003.07
-459.2
1 1
1.0000
0.9100
2 2
1.0000
0.9100
1.00020.0
230.0
157.4
R
1.00024.0
-163.1
0.992327.2
1.040114.4
209.6
1.00024.0
-32.2
-57.9
-106.0
70022UDMZ_222
1.011222.4
16.6
43.1
70168UZUTEC51
1.066117.3
1
47.0
14.1
G
-11.0
-4.0
1.0000
1.0818
11.6
20.7
-11.3
-17.1
-49.4
-49.8
1.039114.3
70135UCAJKI52
70166UZUTEC21
70142UCAJKI22
1.00024.0
-15.5
39.4
1.00015.8
0.99915.7
4.5
15.6 0.985
216.6
-60.1
-116.5
70139USMOLJ21
1.024112.7
1
126.7
46.9
1.0518
1.0000
-82.5
-41.3
82.8
44.5
70138USMOLJ51
70132UAZOVS21
1
202.1
123.6
1.0736
1.0000
-105.9
20.4
117.7
-19.5
1.030113.3
70131UAZOVS51
1.00015.8
70130USBTEC51
30.7
1.00015.8
4 54 5
1.0000
1.0000
70183UZARJA51
54.7
79130USBTECG5
79129USBTECG7
79133USBTECG9
79128USBTECG6
79132USBTECG8
79134USBTECGA
79136USBTECGC
79135USBTECGB
79137USBTECGD
79181UUGTECG2
1.00020.0
79009UUGTECG3
79010UUGTECG4
79179UUGTECG5
79174UUGTECG6
79175UUGTECG7
79180UUGTECG1
70181UDONBA81
1.005502.6
70030UNDONB91
70031UNDONB21
32.6
-11.0
1.038114.2
1
59.4
15.5
1.0264
1.0000
0.9
-18.2
-0.5
21.6
70156UMITEC51
1.124123.7
70157UMITEC21
70110UMIHAI52
70104ULISIC21
1
21.5
3.9
1.0300
1.0000
-12.9
40.0
1
23.2
9.4
1.0000
1.0300
42.5
18.8
-42.3
1.071117.8
1
32.0
29.7
1.0000
17.1
-41.5
-15.4
41.7
16.3
1.071117.8
-39.8 70017
ULISIC54
1.0300
70106ULISIC53
1.048230.5
1.070117.7
-17.170105
ULISIC52
70172UMEKEE51
79170UHARCIG1
79171UHARCIG2
79172UHARCIG3
79173UHARCIG4
1.034113.8
1
39.9
19.4
1.0655
1.0000
70.4
26.0
1.038114.2
1
68.5
21.6
1.0655
1.0000
-117.8
118.4
38.1
70162UMAJSK51
1.058116.4
1
45.9
19.6
1.0864
1.0000
-92.2
-34.5
92.7
39.9
70021UDMZ_221
1.012222.7
1
13.4
23.5
-11.3
56.7
7.7
1.038114.2
1
60.4
19.4
1.0000
1.0518
67.5
72.6
-67.1
-64.7
-56.5
70134UCAJKI51
70133UCAJKI21
-30.7
0.985324.9
-70.1
73.1
374.0
-11.3 70179
UUGTEC81
-21.2 70148
UCENTR5170149UCENTR52
0.971320.5
70144UKRARM81
78.3
32.9
-158.7
159.7
70151UCENTR81
70165UMAJSK81
79159USLTECG8
70158USLTEC21
79202UZMTZSG1
70200UZMTZS51
UKRAINE
4.42
Figure 4.30 – Ukraina – Load flows for Summer 2010 regime – part5
1.055232.2
1.060233.2
-52.6
-16.6
52.7
14.0
1.041229.0
47.3
35.2
-47.0
-41.0
1.057232.6
7.3
-51.8
-10.5
1.063233.9
1.058232.7
17.8
10.1
-17.8
-16.3
70100UKIROV21
1.058232.7
-59.6
-20.9
59.7
1.055116.05
5.1
15.6
0.0
-0.5
1.0000
1.0000
23.0
4.0
-22.6
3.1
-7.8
1.3
70114UKOMMU21
57.8
41.7
-57.4
-46.9
1.058232.7
25.0
-3.1
-24.9
-9.3
70189UPOBED21
1.071235.7
-31.8
-8.8
32.0
-6.3
1.00315.81
5.5
160.0
90.0
R
1.0000
0.9079
-63.6
144.5
80.5
79103ULUTECGB
1.00015.8
1.0000
0.9079
1.00015.8
1.0000
0.9079
1.0000
508XRU_UA22
1.067234.8
-9.1
20.9
9.2
-28.1
1.0000
1.0518
21.0
28.3
-20.50.997
15.78.5
5.7
160.0
84.1
R
1.0000
0.9079
-150.9
-62.6
151.5
78.4
1.00015.8
1.0000
0.9079
1.00015.8
1.0000
0.9079
1.00015.8
1.0000
0.9079
-61.1
0.0
70025UANTRA21
1.059233.0
-101.1
-50.9
101.7
39.7
1.070235.4
-53.1
76.4
51.9
1.015507.4
1.0000
1.0659
105.1
45.4
-105.1
-42.7
1.0000
1.0659
105.1
45.4
-105.1
-42.7
511XRU_UA91
1.018508.8
76.0
93.6
-76.0
-112.7
-230.9
0.999329.5
-218.7
513XRU_UA81
1.005331.7
-59.7
71.7
59.8
-83.6
1.004220.9
-50.8
18.3
510XRU_UA24
1.007221.5
-40.9
33.5
41.1
-35.6
1 G
9 9 11 11 13 1315 15
8 8 10 10 12 12 14 14
18.5
-20.2
-3.7
31.3
-17.812.2
79101ULUTECG9
9.5
79105ULUTECGF
79104ULUTECGD
-143.8
1.00015.8
70116UKOMMU22
0.9079
79102ULUTECG8
79106ULUTECGA
79107ULUTECGC
79108ULUTECGE
70103ULUTEC51
1.041229.0
1.094120.4
1
59.2
28.9
1.0736
-57.2
-42.1
57.4
46.9
1.098120.7
1
46.5
21.9
-46.6
-35.4
47.0
41.0
1.0000
70113UKOMMU51
1.0736
1.0000
70115UKOMMU52
70013UREZSC51
1.068117.4
1
6.8
2.7
1.0100
1.0000
-44.2
0.7
1.8
70176UJUBIL51
1.065117.1
1
18.0
9.4
1.0000
1.0100
7.5
-41.5
-5.91.100
121.0
1
70.2
29.7
1.0000
1.0518
-60.3
-18.5
41.6
-42.7
-5.2
21.5
60.5
44.4
70101ULUTEC21
70024UKIROV22
70102ULUTEC22
1.057116.2
1
29.8
11.7
1.0100
1.0000
-59.5
-18.9
59.6
20.9
1.0000
-52.6
52.6
16.6
1.0100
-15.070010
UKIROV51
7.2
70146UCERAK21
70175UJUBIL21
-10.6
-7.3
1.111122.2
1
78.4
29.7
1.0000
1.0518
76.4
53.1
-76.0
-49.6
70026UANTRA51
1.099120.9
1
73.5
22.6
1.0000
1.0518
101.1
50.9
-100.8
-45.170121
UKRASN51
-76.470120
UKRASN21
70178UPOBED91
70124UJOZNA51
1.091120.0
1
98.0
62.5
1.1282
1.0000
-158.0
-112.6
158.8
126.1
-42.5 70125
UJOZNA81
1.0000
21.1
-58.9
-18.4
59.1
1.0518
4.9
70145UCERKA21
70147UCERKA5S
1.071117.8
1
13.6
3.8
1.0818
1.0000
-9.5
-15.9
9.7
17.3
70126UAMVRO51
70127UAMVRO21
ARMENIA
4.43
4.3.8. ARMENIA
4.44
Figure 4.27 – Armenia – Load flows for Winter 2010 regime
ARMENIA
229.2
0.5
0.0
0.0
0.0
0.1
0.0
0.0
0.0
49.5
154.6
130.7
153.8
63.3
478.6
13.2
465.1
63.3
478.6
13.2
465.1
35.6
461.1
13.2
465.1
8GAVAR2
8LICHK2
229.4
8LICHK5
228.8
2.7
112.8
13.1
1.6
13.2
2.2
4.4
3.7
4.4
3.0
0.6
2.0
0.6
0.6
3.3
3.7
4.4
3.0
45.6
13.6
5.5
36.4
12.9
8GYUMR5
113.7
30.9
11.1
30.8
4.9
18.7
10.3
18.7
6.8
52.7 52.826.6
52.8
28.1
18.3
0.5
226.9
73.0
27.1
27.1
10.2
5.0
27.1
10.2
225.8
86.4
12.4
85.5
45.1
187.
4
3.9
186.
5
8ARART5
108.5
112.0
5.2
44.3
9.898.7
99.0
4.9
8.6
9.7
0.6
82.9
83.2
41.0
36.9
43.9
226.7
48.7
48.9
36.7
23.9
8SHAHM5
40.2
39.3 3.8
8ECHMD5
109.2
14.4 8.1
8.4
41.0
40.3
14.5
109.3
1.9 0.7
1.9
0.5
1.00
00
1.00
00
2.2
7.0
9.5
5.3
0.8
2.1
0.5
16.4
16.0
112.3
19.1
8.9
43.9
8.1
43.9
8.1
43.4
4.0
43.7
43.4
43.7
3.7
6.4
5.8
111.8
17.9
17.8
1.5
1.5
3.6
11.7
4.7
23.1
4.8
25.9
10.7
113.4
26.3
27.0
10.8
27.0
10.8
113.0
229.9
2.9
3.510.0
8YEHGN5
113.8
231.9
13.7
13.9
1.3 1.3
6.0
231.3
170.9 170.0
17.8
8SHINU5
108.5
8AGARK2
226.3
137.3
8.4
135.0
8.1
26.6
1.00
00
1.00
00
13.1
1.6
2.2
13.2
25.9
10.7
4.4
23.4
27.1
24.6
8YERVN5
43.523
.1
52.7
18.9
11.0
27.4
4.0
113.2
113.1
227.2
45.9
36.3
73.5
226.0
22.8
112.5
27.88ARGEL5
44.1
1
18.7
1
3.4
1.2
1
1
9.8
1
15.4
1
16.6
1
14.
3
25.9
10.725.9
4.0
6.86.7 1.00
00
2.7
10.7 10.9
1.00
00
1.00
002.7 2.7
10.9
2.9
114.3
23.6
8SHINU2
22.4
10.8
8HRZ_H2
112.8227.0
8ARART2
1.00
00 8.0
12.9
8ZOVUN5
1.92.1
7.0
0.8
2.1
1
4.2
1
1
0.3
1
37.6
7.6
0.9
229.2
1
12.0
1
15.8
1
52.6
15.3
1
2.2
1
8.7
1
76.0
1
170.
3
42.1
1
98.0
1
16.1
22.9
108.6
10.5
10.7
28.1
11.7
8HRZ_H5
1.8
0.0
1
25.8
9.6
3.1
43.5
12
3
3.0
10.5
10.8
1
2.8L
1
40.0
8ARGELG2
8ARGELG3
10.9
1
52.0
1
52.0
2.0L
1
52.0
2.0L
1
54.0
10.9
18.4
6.6
8AMNPPG4
15.7
1
186.0
37.1R
1
186.0
37.4R
8DZORAG1
6.6
6.6
1.00
00
1.00
006.0
1.2
6.0
0.8
1.00
00
1.00
006.0
1.2
6.0
0.8
1
6.0
1.3L
1
1.3L
10.7
8DZORAG3
6.6 1.00
00
1.00
00
1.2
6.0
0.8
1
1.3L
8YERVNG1
6.3 1.00
008.0
1
7.0
2.2R
1
2.1R
1
19.0
6.3
112.2
8YER_TG6
8YER_TG4
6.4
8YER_TG3
6.5
6.4
1.00
00
1.00
00
0.0
0.0
1.00
000.0 0.0
0.0
1.00
00
0.0
0.0
8YER_TG5
1
50.0
1
4.5L
8YER_T5
8MARSH5
9.0
1
20.2
9.4
32.9
11.3
11.3
11.3
11.3
11.2
1.00
00
1.00
00 5.0
0.50.3
1
5.0
0.5L
1
5.0
1
5.0
1
5.0
0.5L
1
0.0
1
0.5L10.7
0.5L
0.0
8KANAKG5
0.5L
0.5L
8KANAKG3
8KANAKG1
8KANAK5
15.6
8HAGHT2
226.0
5.6
23.9
8KANAKG6
113.0
5.4
8HRAZD2
30.3
16.4
10.9
10.9
1.00
00
11
190.0
12.0L
11
200.0
12.0L
8HRAZDG5
8HRAZDG4
8HRAZDG2
2.4
4.2
8.08HRZ78G
6.5
1
10.8
1
15.0
1
15.0
63.6
10.2
63.3
5.6
16.1
2.8
20.0
30.0
30.0
1.5
1
20.0
30.0
8SHAMBG1
14.6
8SHAMBG2
14.6
1
85.0
2.0L
1
85.0
2.0L
43.5
8TATEV5
109.4
39.1
28.5
39.2
28.8
39.1
28.5
39.2
28.8
39.1
28.5
39.2
28.8
8TATEVG1
10.5
8TATEVG2
1.0000
1.0500
39.4
33.1
39.2
29.0
1.0000
1.0500
39.4
32.6
39.2
28.4
1.0000
1.0500
39.4
33.1
39.2
29.0
1
39.4
1
32.6R
1
39.4
33.1R
8YERVNG2
8HRAZDG1
16.512.0L
16.5
16.5
8HRAZDG6
8YEHGN2
13.7
1.0000
231.9
2.2
1.0000
3.3
2.9
2.8
1.0000
8SPAND2
8SPANDG1
1
2.8L
8SPANDG2
8HRAZDG31.0000
11.1
20.0
8SHAMB2
39.4
10.5
8TATEVG3
10.5
XAM_IR21
AHAR 21
221.2
134.9
8.1
8VANDZ20.3
8DZORAG26.0
6.0 6.0
8DZORA5
8ALVRD5
8ALVRD2
60.3
21.5
60.5
24.7
1.9L
0.0
0.0
1.00
00
1.00
004.6
7.3
4.6
7.4
1.00
00
1.00
00 5.0
0.5
5.0
1.00
00
1.00
00 5.0
0.5
5.0
0.2
1.00
00
1.00
00 5.0
0.5
5.0
0.2
8VAN.T5
0.9
8APARN5
7.7
2.2
2.2L 10.9
50.0
0.0
18.4
6.4
113.6
27.7
8CHARN5
42.0
5.0
8ASHNK28ASHNK5
8MARSH2
8GYUMR2
228.7
44.9
1.3
226.0
8SHAUM2
112.3
134.9
8.2
132.8
8.5
48.5
8.3
48.5
1.00
00
18.4
6.5
10.8
2.8
2.06.2R
8AMNPP5
8AMNPPG3
8KANAKG4
8KANAKG2
38.0
8.4
8.7
3.1
19.0
8ARGELG4
8HRAZD5
3.0
2.0L
10.9
50.1
12.7
52.3 9.8
111.2
7.7 109.3
8ARZNI5
8HRZ_HG1111.7
8AMNPP2
23.3
61.7
2.1
3.7
8YER_TG7
50.0
6.5 40.0
2.8L
19.1
0.3
5.0
1.00
00
1.00
00 0.0
0.5
0.0
0.5
1.00
00
1.00
00 0.0
0.5
0.0
0.5
6.9R
4.6R
2.7
8ARZNIG1
1.00
00
8YER_TG1
1.00
00
1.00
000.0
0.0
0.0
1.00
00
1.00
000.0
0.0
0.0
0.0
1.00
00
1.00
0050.0
4.5
49.8
0.3
0.0
8.2
8.5
134.9
8.2
137.3
8.4
135.0
8.1
8AMASI5
113.6
113.7
8ASOCK5
113.6
2.3
0.1
2.3
0.8
2.1
2.1
0.9
0.9
0.4
0.9
0.0
1.6
1.6
0.3
0.4
1
0.5
1
0.2
1.4
1
2.5
0.8
8AXTAL5
112.6
8NOEMB5
112.0
8TAP 5
112.2
8.8
5.6
8.8
5.4
8.8
5.6
8.8
5.4
7.0
5.6
7.1
5.0
7.1
5.4
7.1
5.7
7.1
5.5
14.0
21.0
14.0
19.6
7.0
5.0
4.0
0.5
8V.BRD5
0.6
8VANDZ5
9.3
26.3
10.5
27.0
10.8
27.4
11.0
27.0
10.8
9.7
9.7 0.8
0.8
9.7 0.8
9.7
9.2
0.8
52.1
16.3
51.9
10.4
20.9
21.1
43.9
35.5
1.00
00
1.00
002.2 2.2
0.9
1.00
00
1.00
002.2
0.9
2.2
0.9
0.9
1.00
00
1.00
0017.6
2.2
17.7
2.9
1.0000
1.0000
92.7
29.1
92.9
34.8
1.0000
1.0000
60.8
26.5
60.9
31.6
1.0000
1.0000
59.8
26.1
59.9
31.1
41.1
1.00
00
1.00
00 36.1
10.5
36.1
11.8
1.00
00
1.00
00 36.8
10.7
36.7
12.0
1.0000
1.0000
58.8
17.9
58.7
19.9
1.0000
1.0000
33.1
11.4
33.1
10.3
1.00
00
1.00
00 53.5
11.2
53.8
18.3
1.00
00
1.00
00 55.1
11.7
55.5
19.0
1.0000
1.0000
4.4
4.4
1.8
1.0000
1.0000
4.3
1.7
4.3
1.8
1.7
1.0000
1.0000
7.9
1.5
8.0
1.6
1.0000
7.9
1.5
7.9
1.6
1.0000
1.0000
1.0900
9.9
9.9
9.9
9.5
1.0000
1.0900
9.9
9.9
9.9
9.5
1.0000
1.0900
21.5
22.2
21.4
21.2
1.00
00
12.0
187.3
4.4
1.00
00
1.00
00 190.0
12.0
189.4
5.0
1.00
00
1.00
00 0.0
0.0
0.0
0.0
1.00
00
1.00
00 200.0
12.0
199.3
6.6
1.00
00
1.00
00
0.0
0.0
0.0
1.00
00
1.00
00 0.0
0.0
0.0
0.0
1.00
00
1.00
00
1.00
00
2.0
84.8
5.0
1.00
00
1.00
00
2.0
84.8
5.0
85.0
85.0
52.0
51.6 3.5
1.0000
1.0000
52.0
2.0
51.6
1.0000
1.0000
52.0
2.0
51.8 2.9
1.0000
1.0000
54.0
2.0
53.8 3.3
1.0000
2.2
1.0000
8ARGELG1
3.8
3.9
8.8
3.8
8.6
1.00
00
1.05
00 3.9
8.8
3.8
8.6
1.05
00
1.00
00
1.0000
1.0000
21.1
6.1
21.0 4.5
1.0000
1.0000
20.9
5.9
20.9 4.4
1.00
00
1.05
00 186.0
185.
6
16.7
1.00
00
1.05
00
37.1
185.
5
16.5
37.4
186.0
15.8
1.00
00
1.00
0050.0
4.5
49.7
1.0000
1.0000
15.0
1.9
14.9
0.1
1.0000
1.0000
15.0
1.9
14.9
0.0
8SEVANG2 225.8
8HRN1_22
225.8 1.00
00
1.00
00
2.8
1.00
00
1.00
00 40.0
40.0
2.8
2.8
1.00
00
1.00
007.8 7.8
15.6
1.00
00
1.00
007.5
15.3 15.5
32.2
32.1
9.432.5 32.4
9.8
7.5
12.8
15.4
2.8
40.0
8HRN1_21
12.8
3.4
6KARS2
224.1
14.1
30.7
14.0
21.0
416.7
XAM_IR11
1.0000
1.0000
555.9
37.3
555.9
38.5
6QSANI1
403.2
8HRAZD1
AHAR 11
404.0
8HRZD_G5
16.6
1
1.00
00
1.00
00 400.0
20.0
395.4
18.6
152.
6
198.
5
153.
8
130.
7
8YER_TG8
18.4 1.00
00 179.6
1
180.0 180.0
10.0
0.1
0.0
0.0
1.00
00
7.8
228.8
40.0
1
0.0
0.0
1
7.3
8.4
8HRZ_HG2
1
14.1
11.3
1
3.4
1.2
1.9L
11.1
8SEVAN5
1.0000
1.0000
555.9
37.3
555.9
38.5
33.1R
2.8L
17.6
132.8
23.0 8ZOVUN2
10.0L
4.5L
400.0
8YER_TG2
111.5
12.0
L
28.3
187.9
20.0L
0.0
XAM_GE51 XAM_GE11
461.1
35.6
465.1
13.2
XAM_GE52
134.9
8.2
135.0
8.1
135.0
XAM_IR22
XAM_TR21
XAM_GE21
XAM_IR12
187.9
8SEVANG1
ARMENIA
4.45
Figure 4.28 – Armenia – Load flows for Summer 2010 regime
228.4
0.5
0.0
0.0
0.0
0.1
0.0
0.0
0.0
62.3
111.5
143.7
110.9
46.5
517.0
12.9
501.1
46.5
517.0
12.9
501.1
29.8
496.3
12.9
501.1
8GAVAR2
8LICHK2
227.8
8LICHK5
230.5
2.6
108.5
8.1
14.7
8.2
14.2
7.0
12.2
6.9
12.7
5.6
0.9
5.6
6.4
0.1
12.2
6.9
12.7
8.0
1.7
17.3
89.1
21.8
8GYUMR5
113.5
66.7
13.8
66.2
9.0
61.9
14.3
61.7
11.6
43.7 43.711.9
43.7
13.5
14.6
0.3
226.4
46.0
50.9
51.1
13.4
8.8
51.1
13.4
224.9
85.4
9.4
84.4
55.2
154.
4
6.6
153.
8
8ARART5
106.9
110.5
8.2
31.6
15.4
70.7
70.9
8.2
16.7
6.3
6.4
59.1
59.3
42.8
32.4
39.5
226.0
33.5
33.7
33.0
19.9
8SHAHM5
15.6
15.5 0.3
8ECHMD5
109.5
2.0
9.2
9.6
19.8
19.7
2.0
110.0
2.7
1.5
2.7
1.8
1.00
00
1.00
00
1.5
0.5
5.4
2.3
4.6
3.0
2.0
40.0
38.7
111.7
3.7
11.8
18.2
7.7
18.2
7.7
16.2
0.4
16.3
16.2
16.3
0.1
8.2
7.9
114.4
14.0
14.1
3.5
3.5
1.0
16.3
3.4
29.2
3.5
9.2
3.6
111.9
12.7
12.9
4.7
12.9
4.7
111.5
227.8
56.4
11.216.3
8YEHGN5
110.1
229.7
66.2
27.5
72.8 72.0
20.9
229.6
102.0 101.7
16.0
8SHINU5
108.3
8AGARK2
225.3
100.2
8.2
99.0
13.3
11.9
1.00
00
1.00
00
8.1
14.7
14.2
8.2
9.2
3.6
7.0
12.9
50.9
35.5
8YERVN5
18.132
.4
43.7
29.5
5.5
13.0
0.4
110.2
111.5
226.8
8.0
88.4
46.3
224.0
34.1
113.3
9.48ARGEL5
31.5
1
28.5
1
2.3
2.0
1
1
4.6
1
2.2
1
3.1
1
19.
4
9.2
3.69.2
0.6
8.68.8 1.00
00
2.6
20.5 20.9
1.00
00
1.00
002.6 2.6
20.9
56.7
113.4
34.3
8SHINU2
3.3
10.9
8HRZ_H2
112.3226.6
8ARART2
1.00
00 0.5
6.3
8ZOVUN5
1.51.5
0.5
1.7
3.0
1
15.1
1
1
0.7
1
9.6
9.4
0.6
227.9
1
4.3
1
4.9
1
77.5
29.9
1
3.8
1
10.1
1
48.0
1
41.2
32.2
1
39.1
1
19.3
40.2
44.8
3.3
20.5
13.5
16.2
8HRZ_H5
0.5
5.0
1
21.7
16.9
11.3
18.1
12
3
1.7
10.5
10.9
1
2.8L
1
3.0
8ARGELG2
8ARGELG3
10.7
1
8.0
1
8.0
2.0L
1
8.0
2.0L
1
8.0
10.7
14.6
7.8
8AMNPPG4
15.8
1
186.0
40.3R
1
186.0
40.5R
8DZORAG1
6.4
6.4
1.00
00
1.00
001.0
1.3
1.0
1.2
1.00
00
1.00
001.0
1.3
1.0
1.2
1
1.0
1.3L
1
1.3L
3.6
8DZORAG3
6.4 1.00
00
1.00
00
1.3
2.0
1.2
1
1.3L
8YERVNG1
6.3 1.00
000.5
1
0.5
1.5L
1
1.5L
1
6.6
6.3
110.4
8YER_TG6
8YER_TG4
6.3
8YER_TG3
6.3
6.3
1.00
00
1.00
00
0.0
0.0
1.00
000.0 0.0
0.0
1.00
00
0.0
0.0
8YER_TG5
11
4.5L
8YER_T5
8MARSH5
11.9
1
31.0
10.8
15.0
11.2
11.2
11.2
11.2
11.2
1.00
00
1.00
00 1.0
0.50.5
1
1.0
0.5L
1
1.0
1
1.0
1
1.0
0.5L
1
1.0
1
0.5L10.7
0.5L
1.0
8KANAKG5
0.5L
0.5L
8KANAKG3
8KANAKG1
8KANAK5
9.1
8HAGHT2
225.9
6.2
19.9
8KANAKG6
112.0
5.3
8HRAZD2
26.0
16.4
10.9
10.9
1.08
40
11
190.0
12.0L
1
190.0
1
200.0
12.0L
8HRAZDG5
8HRAZDG4
8HRAZDG2
0.2
1.5
0.58HRZD78G
6.7
1
11.1
1
11.5
1
11.5
86.6
22.2
86.0
18.9
17.3
2.8
10.0
10.4
10.4
2.6
1
10.0
10.4
8SHAMBG1
14.4
8SHAMBG2
14.4
1
15.0
2.0L
1
15.0
2.0L
41.6
8TATEV5
109.2
20.3
31.5
20.3
31.6
20.3
31.5
20.3
31.6
20.3
31.5
20.3
31.6
8TATEVG1
10.5
8TATEVG2
1.0000
1.0500
20.0
34.2
19.9
31.7
1.0000
1.0500
20.0
33.7
19.9
31.3
1.0000
1.0500
21.4
34.3
21.2
31.7
1
20.0
1
33.7R
1
21.4
34.3R
8YERVNG2
8HRAZDG1
16.412.0L
16.4
12.0L
16.4
8HRAZDG6
8YEHGN2
67.0
1.0000
229.7
2.6
1.0000
11.2
4.7
2.8
1.0000
8SPAND2
8SPANDG1
1
2.8L
8SPANDG2
8HRAZDG31.0000
11.0
10.0
8SHAMB2
20.0
10.5
8TATEVG3
10.5
XAM_IR21
AHAR 21
219.7
98.9
13.3
8VANDZ21.5
8DZORAG21.0
2.0 2.0
8DZORA5
8ALVRD5
8ALVRD2
2.7
1.9
2.7
6.1
1.9L
0.0
0.0
1.00
00
1.08
400.8
9.7
0.9
9.5
1.00
00
1.00
00 1.0
0.5
1.0
1.00
00
1.00
00 1.0
0.5
1.0
0.5
1.00
00
1.00
00 1.0
0.5
1.0
0.5
8VAN.T5
7.1
8APARN5
8.0
5.9
2.2L 10.8
50.0
0.0
18.1
6.3
112.0
9.4
8CHARN5
42.0
8.8
8ASHNK28ASHNK5
8MARSH2
8GYUMR2
228.1
55.0
2.3
225.8
8SHAUM2
111.6
98.9
13.5
97.7
19.7
57.5
3.4
57.5
1.00
00
18.1
6.4
11.1
3.4
1.78.3R
8AMNPP5
8AMNPPG3
8KANAKG4
8KANAKG2
2.2
14.6
3.7
0.5
28.8
8ARGELG4
8HRAZD5
6.8
2.0L
10.8
11.7
0.8
11.8 0.6
111.0
8.0 110.1
8ARZNI5
8HRZ_HG1114.5
8AMNPP2
25.9
25.5
1.5
0.1
8YER_TG7
5.5
3.3 2.0
2.8L
3.7
0.5
1.0
1.00
00
1.00
00 1.0
0.5
1.0
0.5
1.00
00
1.00
00 1.0
0.5
1.0
0.5
8.3R
8.3R
1.7
8ARZNIG1
1.00
00
8YER_TG1
1.00
00
1.00
000.0
0.0
0.0
1.00
00
1.00
000.0
0.0
0.0
0.0
1.00
00
1.00
000.0
0.0
0.0
0.0
0.0
13.545.3
19.7
98.9
13.5
100.2
8.2
99.0
13.3
8AMASI5
113.4
113.5
8ASOCK5
113.4
2.3
0.1
2.3
0.8
2.1
2.1
0.9
0.9
0.4
0.9
0.0
1.6
1.6
0.3
0.3
1
0.5
1
0.2
1.4
1
2.5
0.8
8AXTAL5
108.3
8NOEMB5
107.7
8TAP 5
107.9
8.8
5.6
8.8
5.5
8.8
5.6
8.8
5.5
7.0
5.6
7.1
5.0
7.1
5.4
7.1
5.7
7.1
5.5
91.8
1.9
91.9
2.7
7.0
5.1
0.6
0.5
8V.BRD5
0.6
8VANDZ5
6.4
12.7
3.3
12.9
4.7
13.0 5.5
12.9
4.7
10.6
10.7
1.9
2.0
10.7
1.9
10.6
15.5
2.0
1.1
31.0
1.2
24.2
93.4
94.4
44.6
40.8
1.00
00
1.00
002.2 2.2
0.9
1.00
00
1.00
002.2
0.9
2.2
0.8
0.9
1.00
00
1.00
0012.8
3.8
12.8
4.1
1.0000
1.0000
49.3
31.8
49.3
33.9
1.0000
1.0000
16.8
22.3
16.8
23.2
1.0000
1.0000
16.5
22.0
16.6
22.9
42.9
1.00
00
1.00
00 6.8
13.0
6.8
13.2
1.00
00
1.00
00 6.9
13.2
6.9
13.4
1.0000
1.0000
39.0
26.4
39.0
27.6
1.0000
1.0000
21.9
15.7
21.9
15.1
1.00
00
1.00
00 22.1
19.8
22.2
21.9
1.00
00
1.00
00 22.7
20.4
22.8
22.7
1.0000
1.0000
5.1
5.1
6.0
1.0000
1.0000
5.0
5.5
5.0
5.9
5.6
1.0000
1.0000
2.5
2.3
2.5
2.4
1.0000
2.5
2.3
2.5
2.4
1.0000
1.0000
1.0900
3.1
12.5
3.1
12.2
1.0000
1.0900
3.1
12.5
3.1
12.2
1.0000
1.0900
6.5
27.7
6.5
26.9
1.00
00
12.0
115.2
5.7
1.00
00
1.00
00 190.0
12.0
189.4
5.1
1.00
00
1.00
00 190.0
12.0
189.4
5.3
1.00
00
1.00
00 200.0
12.0
199.3
6.8
1.00
00
1.00
00
0.0
0.0
0.0
1.00
00
1.00
00 0.0
0.0
0.0
0.0
1.00
00
1.00
00
1.00
00
2.0
15.0
1.8
1.00
00
1.00
00
2.0
15.0
1.8
15.0
15.0
8.0
8.0
2.0
1.0000
1.0000
8.0
2.0
8.0
1.0000
1.0000
8.0
2.0
8.0
1.9
1.0000
1.0000
8.0
2.0
8.0
1.9
1.0000
2.2
1.0000
8ARGELG1
1.9
2.5
12.4
2.5
12.0
1.00
00
1.05
00 2.5
12.4
2.5
12.0
1.05
00
1.00
00
1.0000
1.0000
21.1
6.1
21.0 4.6
1.0000
1.0000
20.9
5.9
20.9 4.5
1.00
00
1.05
00 186.0
185.
6
19.7
1.00
00
1.05
00
40.3
185.
5
19.5
40.5
186.0
15.8
1.00
00
1.00
0050.0
4.5
49.7
1.0000
1.0000
11.5
1.9
11.4
0.8
1.0000
1.0000
11.5
1.9
11.4
0.8
8SEVANG2 228.7
N1_22
228.7 1.00
00
1.00
00
2.8
1.00
00
1.00
00 2.0
2.0
2.8
2.8
1.00
00
1.00
0020.1 20.1
4.2
1.00
00
1.00
0019.6
3.7 4.0
22.1
22.0
2.922.6 22.6
2.6
19.6
1.2
3.9
2.8
3.0
N1_12
1.4
10.9
6KARS2
224.8
91.1
3.9
91.8
1.9
415.2
XAM_IR11
1.0000
1.0000
572.7
14.0
572.7
15.3
6QSANI1
401.4
8HRAZD1
AHAR 11
400.0
0.0
8HRZD_G5
16.5
1
1.00
00
1.00
00 400.0
20.0
395.3
18.5
109.
8
211.
6
110.
9
143.
7
8YER_TG8
18.1 1.00
00 189.6
1
190.0 190.0
10.0
0.0
0.0
0.0
1.00
00
10.5
228.2
3.0
1
0.0
0.0
1
8.6
8.4
8HRZ_HG2
1
14.1
11.3
1
3.4
1.2
1.9L
11.0
8SEVAN5
1.0000
1.0000
572.7
14.0
572.7
15.3
34.2R
2.8L
12.8
900.0
300.0
97.8
29.1 8ZOVUN2
10.0L
400.0
8YER_TG2
114.1
12.0
L
37.1
115.4
20.0L
0.0
XAM_GE51 XAM_GE11
496.3
29.8
501.1
12.9
XAM_GE52
98.9
13.5
99.0
13.3
99.0
XAM_IR22
XAM_TR21
XAM_GE21
XAM_IR12
115.4
8SEVANG1
4.46
4.3.9. REGION
4.47
Figure 4.29 – Region – Load flows for Winter 2010 regime
8
135
8 9
133
8
135
8
135
8
135
9
133
8
135
63
479
13
465
36
461
13
465
63
479
13
465
36
461
13
465
20
14
21
14
31
14
21
14
50
154
131
153
199
152
131
153
25
60
21
60
12433VBLAGO1
406
114
44
114
86
1252GLAGAD1
410
114
44
114
12461VDOBRU1
415
77
20
77
48020RISACC1
409
77
77
115
12440VAEC_41
412
373
37
373
48001RTANTA1
416
373
37
375
11
373
373
42
37
11
3342
404
162
62
163
42
1104JNIS2 1
394
162
62
162
102
12460VVARNA1
415
78
16
78
39
78
16
78
122
12471VMI3 11
10832
108 5
60032TBABAE12
414
10832
107
76
12543
125 3
60002THAMIT1
413
125
125
93
12432VCMOGI1
405
155
11
155
59
1204YSTIP11
405
155
11
155
26
236
45
237
11
236
45
236
64
60000TBABAE11
411
198
45
197
75
1258GK.NSA11
415
198
45
198
32
48004RP.D.F1
412
190
140
190
140
1102JHDJE11
412
190
140
190
141
48008RARAD 1
403
47
3
47
33
1160MSAFA 1
404
47
3
47
27
48039RROSIO1
411
402
11
401
412
402
11
403
16
48009RNADAB1
405
106
6
106
18
1152MBEKO 1
405
106
6
106
0 1
40
18
340375CHIOA5
103
40 40
18
1
70
25
302505KO.HP5
109
70
25
70
25
1
40
320265UNGEN5
104
40 40
18
320515BALTS1
419
393
51
394
69
48014RSUCEA1
420
393
51
390
20
408
360465VULKA1
406
93
32
93
63
93
32
92
49052RISACC0
786
70599UJUAZS01
719
320495BALTS8
339
310
47
307
56
70805UDSGEC81
349
310
310
42
301005MREPP8
323
47
102
47
101
70508UUSATO81
315
47
102
47
120
188188
126
70512UNODES81
316
188
126 132
330355RIBNI81
322
75
35
75
324
75
35 26
187
75
330915RIBNI82
321
127
59
127
61
127
59
127
162
8
162
2
162
8
38
11614
116
670545UARCIZ81
319
11614
115
36
48
49
48
65
1162MSAJO 1
415
48
49
23
70917UMUKAC21
235
66
8
66
5
1155MKISV 2
233
66
8
65
11
17
5
17
1
1164MTLOK 2
232
17
5
16
22
70995UZUKR702
752
885
8
890
391
1150MAISA 0
733
885
8
478
23952
239
60
1054QVKAP_1
415239
52
35
70808UHAEC_01
773
44729
449
518
1005ZRZE7101
774
44729
44670900UDTEC_21
233
14659
147
61
218
14659
143
70727UCAEC_81
339
141
44
141
53
14593MOZJI81
141
44
141
14
70733UCERNI81
343
5 2
5 23
14563GOMEL81
343
5 2
5
20
505404S AES01
751
697
33
701
476
14613BELOR01
749
697
33
693
411
505284ROSL381
349
224
13
225
28
14573KRICE81
348
224
13
223
2
505094TAL3381
337
67
6
67
19
14533VITEB81
338
6767
31
506784K AES02
755
393
93
393
137
70242USEVUK01
746
393
93
392
314
200176BATUM2
222
266
56
264
66
61103THOPA 2
221
266
56
268
48
606XGE_TR11
200296ACHAL1
400
397
200006HENGU9
503
309
56
312
233
508
309
56
307
129
200306BZYBI21
222
28
22
79 85
582474PSOU 2
226
28
29
28
G
200026QSANI9
497
G
200046TGARD8
346
0
0
0
10
200086TGARD2
230
60 21
60
18
587124DERBE8
220
10
223
11
90001AJASHM81
309
220
10
217
30
507584NVAES91
515
219
91
220
75
493
219
91
217
581804SH-309
506
203
182
204
125
70178UPOBED91
496
203
182
203
198
508234SHEBE81
315
47
1
47
12
70211ULOSEV81
316
47
1
47
14
506634K AES81
333
112
28
112
61
70245USOSTK81
335
112
28
111
7
158
8
159
31
70247USUMIS81
331
158
8
158
5
508114BELGO81
315
57
9
57
24
70299UOTPLO81
317
57
9
57
1
508094VALUI81
327
30
3
30
14324
30
354
581464HCHGP8
333
76
76
75
34
70125UJOZNA81
326
76
76
76
87
581024SYSOE2
226
0
3
0
5
70016UVELIK21
227
0
3
0
0
36
15
35
10
70102ULUTEC22
225
36
15
36
22
581154T-15 2
216
82
1
81
70127UAMVRO21
219
82
1
82
2 2
70109UMIHAI21
221
0
0
0
0
509214VGGES21
225
240
6
878
48
126
30
22
1004ZZAM212
55
462
12431VSOFIW1
320
P L
SK
HU
137
373
375
20
M K
B G
RO
B Y
UA
M D
TRA M
G E A Z
RU
38
51
70530UKOTOV81
164
70201UZMTZS81
231
70185UDONBA91
G R
2
540XUA_BY82
539XUA_BY81
501XPL_UA01
502XPL_UA21
70919UMUKAC11
504XVK_MU11
78XSA_MU11
154XKI_MU21
155XTI_MU21
196XAL_ZA01
84XRO_MU11
219XBE_OR11
75XSA_AR11
85XPF_DJ11
24XSO_NI11
207XCM_ST11
198XMI_HA11
43
197XMI_BA11
215XFI_BA11
20XBG_TH11
60624TBORCK1
542XGE_TR21
547XAZ_RU81
546XGE_RU21
543XGE_RU91
582604CENTR9
604XGE_RU92
30
23XKO_TI12
22XKO_TI11
181XVA_IS11
505XRO_UA01
602XVK_IS11
21XDO_IS11
18
537XMD_RO51
18 18548XMD_RO53
601XSV_BA11
538XMD_RO52
47 519
XMD_UA81
521XMD_UA83
520XMD_UA82
525XMD_UA87
522XMD_UA84
523XMD_UA85
524XMD_UA86
510XRU_UA24
513XRU_UA81
511XRU_UA91
565XRU_UA2R
509XRU_UA2U
508XRU_UA22
507XRU_UA21
555XBY_RU82
553XBY_RU01
554XBY_RU81
506XRU_UA01
516XRU_UA84
517XRU_UA85
515XRU_UA83
512XRU_UA92
514XRU_UA82
518XRU_UA86
545XGE_AZ81
544XGE_AZ91
541XAM_GE21
229
820118ALVRD2
240016QSANI1
403
417
621726KARS2
224
820138GYUMR2
227
1501AHAR 11
404
1502AHAR 21
221
820388AGARK2
226
135
607XAM_IR11
570XAM_TR21
610XAM_GE11
572XAM_IR22
571XAM_IR21
840998HRAZD1
608XAM_IR12
214XMI_NS11
419
RS
4.48
Figure 4.29 – Region – Load flows for Summer 2010 regime
15
99
16 22
98
16
99
15
99
16
99
22
98
16
99
27
517
36
501
53
496
36
501
27
517
36
501
53
496
36
501
0
83
1
83
8
83
1
83
14
109
99
109
171
108
99
109
25
8
218
12433VBLAGO1
413
174
15
175
57
1252GLAGAD1
412
174
15
174
12461VDOBRU1
416
140
27
140
48020RISACC1
419
140
140
69
12440VAEC_41
411
312
30
311
48001RTANTA1
411
312
30
313
60
312
311
24
30
60
7924
410
16
17
16
40
1104JNIS2 1
410
16
17
16
32
12460VVARNA1
416
144
34
144
87
144
34
144
74
12471VMI3 11
18942
190 9
60032TBABAE12
408
18942
188
81
22055
220
19
60002THAMIT1
406
220
219
98
12432VCMOGI1
412
144
42
145
92
1204YSTIP11
416
144
42
144
3
196
40
197
18
196
40
196
60
60000TBABAE11
406
124
65
123
97
1258GK.NSA11
411
124
65
124
52
48004RP.D.F1
407
134
134
134
134
1102JHDJE11
407
134
134
134
135
48008RARAD 1
408
47
21
47
52
1160MSAFA 1
410
47
21
47
10
48039RROSIO1
409
402
29
401
413
402
29
403
24
48009RNADAB1
409
83
25
83
38
1152MBEKO 1
410
83
25
83
18 1
40
18
340375CHIOA5
108
40 40
18
1
70
25
302505KO.HP5
112
70
25
70
25
1
40
320265UNGEN5
109
40 40
18
320515BALTS1
418
339
4
340
18
48014RSUCEA1
413
339
4
337
40
421
360465VULKA1
423
119
54
120
22
119
54
119
49052RISACC0
773
70599UJUAZS01
728
320495BALTS8
346
69
10
68
43
70805UDSGEC81
349
69
69 1
301005MREPP8
345
7
61
7
59
70508UUSATO81
340
7
61
7
83
5959
46
70512UNODES81
342
59
47 62
330355RIBNI81
344
53
22
53
345
53
22 11
59
53
330915RIBNI82
343
90
38
90
40
9038
90
6912
69
20
6912
34
4123
41
3470545UARCIZ81
345
4123
41
6
52
49
52
65
1162MSAJO 1
414
52
49
23
70917UMUKAC21
236
93
5
93
7
1155MKISV 2
235
93
5
93
3
51
10
51
14
1164MTLOK 2
235
51
10
51
5
70995UZUKR702
756
799
137
803
261
1150MAISA 0
711
799
137
604
18279
181
87
1054QVKAP_1
41591
39
19
70808UHAEC_01
774
54352
545
532
1005ZRZE7101
777
54352
54170900UDTEC_21
236
018
0
24
238
0
9
0
70727UCAEC_81
347
207
32
207
40
14593MOZJI81
103
16
103
19
70733UCERNI81
350
93
34
93
14
14563GOMEL81
347
47
17
46
39
505404S AES01
749
595
44
598
497
14613BELOR01
749
595
44
593
414
505284ROSL381
351
161
19
162
37
14573KRICE81
351
161
19
161
1
505094TAL3381
344
56
35
56
9
14533VITEB81
340
5656
60
506784K AES02
770
271
9
271
254
70242USEVUK01
769
271
9
271
232
200176BATUM2
233
34
55
34
53
61103THOPA 2
229
34
55
34
56
606XGE_TR11
200296ACHAL1
400
391
200006HENGU9
511
317
45
320
229
513
317
45
315
144
200306BZYBI21
246
34
46
97 87
582474PSOU 2
248
34
34
52
G
200026QSANI9
506
G
200046TGARD8
357
0
0
0
11
200086TGARD2
237
8 21
8
17
587124DERBE8
65
16
65
61
90001AJASHM81
352
65
16
65
30
507584NVAES91
531
166
80
167
102
504
330
163
327
581804SH-309
511
142
83
142
21
70178UPOBED91
508
142
83
142
102
508234SHEBE81
338
40
9
40
6
70211ULOSEV81
337
40
9
40
24
506634K AES81
341
56
57
56
97
70245USOSTK81
350
56
57
56
33
135
32
135
59
70247USUMIS81
343
135
32
134
16
508114BELGO81
338
75
1
75
15
70299UOTPLO81
338
75
1
75
12
508094VALUI81
346
64
15
64
3338
64
1570
581464HCHGP8
336
19
65
19
20
70125UJOZNA81
330
19
65
19
77
581024SYSOE2
236
0
3
0
6
70016UVELIK21
236
0
3
0
0
5
20
5
14
70102ULUTEC22
233
5
20
5
27
581154T-15 2
222
11
14
11
70127UAMVRO21
221
22
28
22
30 8
70109UMIHAI21
233
0
0
0
0
509214VGGES21
227
91
35
793
52
47
64
46
1004ZZAM212
0
435
12431VSOFIW1
351
P L
SK
HU
38
30
312
313
27
M K
B G
RO
B Y
UA
M D
TRA M
G E A Z
RU
25
28
70530UKOTOV81
70
70201UZMTZS81
298
70185UDONBA91
G R
29
540XUA_BY82
539XUA_BY81
501XPL_UA01
502XPL_UA21
70919UMUKAC11
504XVK_MU11
78XSA_MU11
154XKI_MU21
155XTI_MU21
196XAL_ZA01
84XRO_MU11
219XBE_OR11
75XSA_AR11
85XPF_DJ11
24XSO_NI11
207XCM_ST11
198XMI_HA11
55
197XMI_BA11
215XFI_BA11
20XBG_TH11
60624TBORCK1
542XGE_TR21
547XAZ_RU81
546XGE_RU21
543XGE_RU91
582604CENTR9
604XGE_RU92
56
23XKO_TI12
22XKO_TI11
181XVA_IS11
505XRO_UA01
602XVK_IS11
21XDO_IS11
18
537XMD_RO51
18 18548XMD_RO53
601XSV_BA11
538XMD_RO52
10 519
XMD_UA81
521XMD_UA83
520XMD_UA82
525XMD_UA87
522XMD_UA84
523XMD_UA85
524XMD_UA86
510XRU_UA24
513XRU_UA81
511XRU_UA91
565XRU_UA2R
509XRU_UA2U
508XRU_UA22
507XRU_UA21
555XBY_RU82
553XBY_RU01
554XBY_RU81
506XRU_UA01
516XRU_UA84
517XRU_UA85
515XRU_UA83
512XRU_UA92
514XRU_UA82
518XRU_UA86
545XGE_AZ81
544XGE_AZ91
541XAM_GE21
235
820118ALVRD2
240016QSANI1
410
420
621726KARS 2
226
820138GYUMR2
229
1501AHAR 11
400
1502AHAR 21
220
820388AGARK2
226
99
607XAM_IR11
570XAM_TR21
610XAM_GE11
572XAM_IR22
571XAM_IR21
840998HRAZD1
608XAM_IR12
214XMI_NS11
415
RS
4.49
4.4. Network loading analyses BLACKSEA REGIONAL MODEL WINTER MAXIMUM LOAD 2010 BRANCH LOADINGS ABOVE 101.0 % OF RATING SET A: X--------- FROM BUS ----------X X---------- TO BUS -----------X CURRENT(MVA) BUS# X-- NAME --X BASKV AREA BUS# X-- NAME --X BASKV AREA CKT LOADING RATING PERCENT 50517 4NC-2251 110.00 5 50536 4VOSTK51 110.00* 5 99 61.4 50.5 121.6 50521 4SVETT51 110.00* 5 50525 4GAGAR51 110.00 5 0 76.9 71.4 107.7 50578 4USHAK51 110.00* 5 50936 4TEC-353 110.00 5 99 87.7 71.4 122.8 50580 4VLAD 21 220.00* 5 50581 4VLAD 51 110.00 5 1 86.7 63.0 137.7 50580 4VLAD 21 220.00* 5 50581 4VLAD 51 110.00 5 2 86.1 63.0 136.6 50586 4RASSV51 110.00* 5 50591 4SRP 51 110.00 5 99 112.8 74.3 151.8 50589 4BARR 51 110.00* 5 50591 4SRP 51 110.00 5 99 230.5 148.6 155.1 50615 4DMITR51 110.00* 5 50653 4ZELEZ51 110.00 5 0 102.8 38.1 269.8 50661 4UZNAJ51 110.00 5 50664 4SUDZA51 110.00* 5 99 23.5 23.0 102.2 50661 4UZNAJ51 110.00 5 50665 4LGOV 51 110.00* 5 99 112.7 85.7 131.4 50811 4BELGO81 330.00* 5 50812 4BELGO51 110.00 5 2 140.8 135.0 104.3 50854 4TAMB-21 220.00 5 50857 4TAMB451 110.00* 5 0 357.5 100.0 357.5 50922 4VOLZ151 110.00* 5 50948 4VTEC151 110.00 5 99 237.7 228.6 104.0 50951 4DAGIL51 110.00 5 50978 4RIAZA51 110.00* 5 0 76.7 72.4 105.9 58213 4SLAVJ2 220.00* 5 58214 4SLAVJ5 110.00 5 1 136.5 125.0 109.2 58224 4KTEC 2 220.00* 5 58226 4KTEC 5 110.00 5 1 129.4 125.0 103.5 70210 ULOSEV52 110.00 7 70211 ULOSEV81 330.00* 7 0 208.2 200.0 104.1 70211 ULOSEV81 330.00* 7 70246 ULOSEV51 110.00 7 0 208.2 200.0 104.1 70247 USUMIS81 330.00* 7 70248 USUMIS51 110.00 7 0 220.2 200.0 110.1 70424 USEVAS81 330.00* 7 70432 UZPKRI51 110.00 7 0 155.7 125.0 124.5 70508 UUSATO81 330.00* 7 70510 UUSATO51 110.00 7 0 412.7 400.0 103.2 70520 UJUAZS81 330.00* 7 70521 UJUAZS31 150.00 7 0 270.8 250.0 108.3 BLACK SEA REGIONAL MODEL SUMMER MINIMUM LOAD 2010 BRANCH LOADINGS ABOVE 101.0 % OF RATING SET A: X--------- FROM BUS ----------X X---------- TO BUS -----------X CURRENT(MVA) BUS# X-- NAME --X BASKV AREA BUS# X-- NAME --X BASKV AREA CKT LOADING RATING PERCENT 50615 4DMITR51 110.00* 5 50653 4ZELEZ51 110.00 5 0 45.4 38.1 119.2 50951 4DAGIL51 110.00 5 50978 4RIAZA51 110.00* 5 0 135.6 72.4 187.2 50977 4JAMSK52 110.00* 5 50978 4RIAZA51 110.00 5 99 93.7 84.8 110.5
As it can be seen, all overloaded elements are in lower voltage network (110 kV) so they can be treated as local problems. Also most of them are connected to equivalent circuits (in Russia).
4.50
Figure 4.31 – Region –Elements Loading profile histograms for Winter 2010 regime by nominal voltage levels
12 12
0 0 00
2
4
6
8
10
12
14
0-25 25-50 50-75 75-100 100-
Freq
uenc
y 11
15
4 3
00
5
10
15
20
0-25 25-50 50-75 75-100 100-
Freq
uenc
y
750kV lines 750/x kV transformers
44
50 0 0
0
10
20
30
40
50
0-25 25-50 50-75 75-100 100-
Freq
uenc
y
17
21
14
2 2
0
5
10
15
20
25
0-25 25-50 50-75 75-100 100-
Freq
uenc
y
500kV lines 500/x transformers
208
61
9 1 00
50
100
150
200
250
0-25 25-50 50-75 75-100 100-
Freq
uenc
y
27
121102
3 00
20
40
60
80
100
120
140
0-25 25-50 50-75 75-100 100-
Freq
uenc
y
400kV lines 400/x kV transformers
195
70
10 1 00
50
100
150
200
250
0-25 25-50 50-75 75-100 100-
Freq
uenc
y
24
90
74
158
0
20
40
60
80
100
0-25 25-50 50-75 75-100 100-
Freq
uenc
y
330kV lines 330/x kV transformers
321
136
286 1
0
50
100
150
200
250
300
350
0-25 25-50 50-75 75-100 100-
Freq
uenc
y 113
165
73
187
020406080
100120140160180
0-25 25-50 50-75 75-100 100-
Freq
uenc
y
220kV lines 220/x kV transformers
4.51
Figure 4.32 – Region –Elements Loading profile histograms for Summer 2010 regime by nominal voltage levels
19
5
0 0 00
5
10
15
20
0-25 25-50 50-75 75-100 100-
Freq
uenc
y
18
9
3 3
00
5
10
15
20
0-25 25-50 50-75 75-100 100-
Freq
uenc
y
750kV lines 750/x kV transformers
48
1 0 0 00
10
20
30
40
50
60
0-25 25-50 50-75 75-100 100-
Freq
uenc
y
38
17
1 0 005
10152025303540
0-25 25-50 50-75 75-100 100-
Freq
uenc
y
500kV lines 500/x transformers
247
332 0 4
0
50
100
150
200
250
300
0-25 25-50 50-75 75-100 100-
Freq
uenc
y
139
101
190 0
020406080
100120140160
0-25 25-50 50-75 75-100 100-
Freq
uenc
y
400kV lines 400/x kV transformers
249
253 0 0
0
50
100
150
200
250
300
0-25 25-50 50-75 75-100 100-
Freq
uenc
y
116
90
192 0
0
20
40
60
80
100
120
140
0-25 25-50 50-75 75-100 100-
Freq
uenc
y
330kV lines 330/x kV transformers
460
384 0 5
0
100
200
300
400
500
0-25 25-50 50-75 75-100 100-
Freq
uenc
y
277
85
12 3 00
50
100
150
200
250
300
0-25 25-50 50-75 75-100 100-
Freq
uenc
y
220kV lines 220/x kV transformers
4.52
4.5. Voltage profile analyses On Figure 4.33-Figure 4.34 are diagrams that show number of buses in network in appropriate voltage ranges, and by nominal voltage levels. These diagrams show distribution of voltages in network buses and give a rough inview of voltage profile in whole regional network. Results show that in most buses voltage level is higher than nominal levels and in allowable voltage ranges. In summer regime, overall voltage level is higher than in winter regime which is consequence of low load of transmission network, but difference is very small.
4.53
Figure 4.33 – Region – Voltage profile histograms for Winter 2010 regime by nominal voltage levels
0 6 11
56
129
167
10
20406080
100120140160180
<198 198 210 220 230 245 >245
Freq
uenc
y
220kV network
0 0
19
62
83
22
00
102030405060708090
<300 300 315 330 345 363 >363
Freq
uenc
y
330kV network
0 0
16
67
54
37
00
1020304050607080
<380 380 390 400 410 420 >420
Freq
uenc
y
400kV network
0 0 0
10
20
7
10
5
10
15
20
25
<470 470 485 500 515 525 >525
Freq
uenc
y
500kV network
0 0
5
3
11
10
0
2
4
6
8
10
12
<700 700 725 750 775 787 >787
Freq
uenc
y
750kV network
4.54
Figure 4.34 – Region – Voltage profile histograms for Summer 2010 regime by nominal voltage levels
0 0 0 5
90
268
15
0
50
100
150
200
250
300
<198 198 210 220 230 245 >245
Freq
uenc
y
220 kV network
0 0 0
43
86
57
00
20
40
60
80
100
<300 300 315 330 345 363 >363
Freq
uenc
y
330kV network
0 011
90
31
63
30
20
40
60
80
100
<380 380 390 400 410 420 >420
Freq
uenc
y
400kV network
0 0 1 1
22
68
0
5
10
15
20
25
<470 470 485 500 515 525 >525
Freq
uenc
y
500kV network
0 0
4 4
11
10
0
2
4
6
8
10
12
<700 700 725 750 775 787 >787
Freq
uenc
y
750kV network
4.55
BULGARIA BLACKSEA REGIONAL MODEL WINTER MAXIMUM LOAD 2010 400KV NETWORK BUSES WITH VOLTAGE GREATER THAN 1.0500: BUS# X-- NAME --X BASKV AREA V(PU) V(KV) BUS# X-- NAME --X BASKV AREA V(PU) V(KV) * NONE * BUSES WITH VOLTAGE LESS THAN 0.9500: BUS# X-- NAME --X BASKV AREA V(PU) V(KV) BUS# X-- NAME --X BASKV AREA V(PU) V(KV) * NONE * 220KV NETWORK BUSES WITH VOLTAGE GREATER THAN 1.1100: BUS# X-- NAME --X BASKV AREA V(PU) V(KV) BUS# X-- NAME --X BASKV AREA V(PU) V(KV) * NONE * BUSES WITH VOLTAGE LESS THAN 0.9000: BUS# X-- NAME --X BASKV AREA V(PU) V(KV) BUS# X-- NAME --X BASKV AREA V(PU) V(KV) * NONE * 110KV NETWORK BUSES WITH VOLTAGE GREATER THAN 1.1100: BUS# X-- NAME --X BASKV AREA V(PU) V(KV) BUS# X-- NAME --X BASKV AREA V(PU) V(KV) * NONE * BUSES WITH VOLTAGE LESS THAN 0.9000: BUS# X-- NAME --X BASKV AREA V(PU) V(KV) BUS# X-- NAME --X BASKV AREA V(PU) V(KV) * NONE * BLACK SEA REGIONAL MODEL SUMMER MINIMUM LOAD 2010 400KV NETWORK BUSES WITH VOLTAGE GREATER THAN 1.0500: BUS# X-- NAME --X BASKV AREA V(PU) V(KV) BUS# X-- NAME --X BASKV AREA V(PU) V(KV) * NONE * BUSES WITH VOLTAGE LESS THAN 0.9500: BUS# X-- NAME --X BASKV AREA V(PU) V(KV) BUS# X-- NAME --X BASKV AREA V(PU) V(KV) * NONE * 220KV NETWORK BUSES WITH VOLTAGE GREATER THAN 1.1100: BUS# X-- NAME --X BASKV AREA V(PU) V(KV) BUS# X-- NAME --X BASKV AREA V(PU) V(KV) * NONE * BUSES WITH VOLTAGE LESS THAN 0.9000: BUS# X-- NAME --X BASKV AREA V(PU) V(KV) BUS# X-- NAME --X BASKV AREA V(PU) V(KV) * NONE * 110KV NETWORK BUSES WITH VOLTAGE GREATER THAN 1.1200:
4.56
BUS# X-- NAME --X BASKV AREA V(PU) V(KV) BUS# X-- NAME --X BASKV AREA V(PU) V(KV) * NONE * BUSES WITH VOLTAGE LESS THAN 0.9000: BUS# X-- NAME --X BASKV AREA V(PU) V(KV) BUS# X-- NAME --X BASKV AREA V(PU) V(KV) * NONE *
GEORGIA BLACKSEA REGIONAL MODEL WINTER MAXIMUM LOAD 2010 500KV NETWORK BUSES WITH VOLTAGE GREATER THAN 1.0500: BUS# X-- NAME --X BASKV AREA V(PU) V(KV) BUS# X-- NAME --X BASKV AREA V(PU) V(KV) * NONE * BUSES WITH VOLTAGE LESS THAN 0.9500: BUS# X-- NAME --X BASKV AREA V(PU) V(KV) BUS# X-- NAME --X BASKV AREA V(PU) V(KV) * NONE * 330KV NETWORK BUSES WITH VOLTAGE GREATER THAN 1.1100: BUS# X-- NAME --X BASKV AREA V(PU) V(KV) BUS# X-- NAME --X BASKV AREA V(PU) V(KV) * NONE * BUSES WITH VOLTAGE LESS THAN 0.9000: BUS# X-- NAME --X BASKV AREA V(PU) V(KV) BUS# X-- NAME --X BASKV AREA V(PU) V(KV) * NONE * 220KV NETWORK BUSES WITH VOLTAGE GREATER THAN 1.1000: BUS# X-- NAME --X BASKV AREA V(PU) V(KV) BUS# X-- NAME --X BASKV AREA V(PU) V(KV) * NONE * BUSES WITH VOLTAGE LESS THAN 0.9000: BUS# X-- NAME --X BASKV AREA V(PU) V(KV) BUS# X-- NAME --X BASKV AREA V(PU) V(KV) * NONE * BLACK SEA REGIONAL MODEL SUMMER MINIMUM LOAD 2010 500KV NETWORK BUSES WITH VOLTAGE GREATER THAN 1.1000: BUS# X-- NAME --X BASKV AREA V(PU) V(KV) BUS# X-- NAME --X BASKV AREA V(PU) V(KV) * NONE * BUSES WITH VOLTAGE LESS THAN 0.9000: BUS# X-- NAME --X BASKV AREA V(PU) V(KV) BUS# X-- NAME --X BASKV AREA V(PU) V(KV) * NONE * 330KV NETWORK BUSES WITH VOLTAGE GREATER THAN 1.1000: BUS# X-- NAME --X BASKV AREA V(PU) V(KV) BUS# X-- NAME --X BASKV AREA V(PU) V(KV)
4.57
* NONE * BUSES WITH VOLTAGE LESS THAN 0.9000: BUS# X-- NAME --X BASKV AREA V(PU) V(KV) BUS# X-- NAME --X BASKV AREA V(PU) V(KV) * NONE * 220KV NETWORK BUSES WITH VOLTAGE GREATER THAN 1.1000: BUS# X-- NAME --X BASKV AREA V(PU) V(KV) BUS# X-- NAME --X BASKV AREA V(PU) V(KV) * NONE * BUSES WITH VOLTAGE LESS THAN 0.9000: BUS# X-- NAME --X BASKV AREA V(PU) V(KV) BUS# X-- NAME --X BASKV AREA V(PU) V(KV) * NONE *
MOLDOVA BLACKSEA REGIONAL MODEL WINTER MAXIMUM LOAD 2010 400KV NETWORK BUSES WITH VOLTAGE GREATER THAN 1.0500: BUS# X-- NAME --X BASKV AREA V(PU) V(KV) BUS# X-- NAME --X BASKV AREA V(PU) V(KV) * NONE * BUSES WITH VOLTAGE LESS THAN 0.9500: BUS# X-- NAME --X BASKV AREA V(PU) V(KV) BUS# X-- NAME --X BASKV AREA V(PU) V(KV) * NONE * 330KV NETWORK BUSES WITH VOLTAGE GREATER THAN 1.1000: BUS# X-- NAME --X BASKV AREA V(PU) V(KV) BUS# X-- NAME --X BASKV AREA V(PU) V(KV) * NONE * BUSES WITH VOLTAGE LESS THAN 0.9100: BUS# X-- NAME --X BASKV AREA V(PU) V(KV) BUS# X-- NAME --X BASKV AREA V(PU) V(KV) * NONE * 110KV NETWORK BUSES WITH VOLTAGE GREATER THAN 1.1200: BUS# X-- NAME --X BASKV AREA V(PU) V(KV) BUS# X-- NAME --X BASKV AREA V(PU) V(KV) * NONE * BUSES WITH VOLTAGE LESS THAN 0.9000: BUS# X-- NAME --X BASKV AREA V(PU) V(KV) BUS# X-- NAME --X BASKV AREA V(PU) V(KV) * NONE * BLACK SEA REGIONAL MODEL SUMMER MINIMUM LOAD 2010 400KV NETWORK BUSES WITH VOLTAGE GREATER THAN 1.0500: BUS# X-- NAME --X BASKV AREA V(PU) V(KV) BUS# X-- NAME --X BASKV AREA V(PU) V(KV) 36046 5VULKA1 400.00 3 1.0553 422.11 30120 5MREPP1 400.00 3 1.0541 421.62 BUSES WITH VOLTAGE LESS THAN 0.9500:
4.58
BUS# X-- NAME --X BASKV AREA V(PU) V(KV) BUS# X-- NAME --X BASKV AREA V(PU) V(KV) * NONE * 330KV NETWORK BUSES WITH VOLTAGE GREATER THAN 1.1000: BUS# X-- NAME --X BASKV AREA V(PU) V(KV) BUS# X-- NAME --X BASKV AREA V(PU) V(KV) * NONE * BUSES WITH VOLTAGE LESS THAN 0.9100: BUS# X-- NAME --X BASKV AREA V(PU) V(KV) BUS# X-- NAME --X BASKV AREA V(PU) V(KV) * NONE * 110KV NETWORK BUSES WITH VOLTAGE GREATER THAN 1.1200: BUS# X-- NAME --X BASKV AREA V(PU) V(KV) BUS# X-- NAME --X BASKV AREA V(PU) V(KV) * NONE * BUSES WITH VOLTAGE LESS THAN 0.9000: BUS# X-- NAME --X BASKV AREA V(PU) V(KV) BUS# X-- NAME --X BASKV AREA V(PU) V(KV) * NONE *
ROMANIA BLACKSEA REGIONAL MODEL WINTER MAXIMUM LOAD 2010 400KV NETWORK BUSES WITH VOLTAGE GREATER THAN 1.0500: BUS# X-- NAME --X BASKV AREA V(PU) V(KV) BUS# X-- NAME --X BASKV AREA V(PU) V(KV) * NONE * BUSES WITH VOLTAGE LESS THAN 0.9500: BUS# X-- NAME --X BASKV AREA V(PU) V(KV) BUS# X-- NAME --X BASKV AREA V(PU) V(KV) * NONE * 220KV NETWORK BUSES WITH VOLTAGE GREATER THAN 1.1100: BUS# X-- NAME --X BASKV AREA V(PU) V(KV) BUS# X-- NAME --X BASKV AREA V(PU) V(KV) * NONE * BUSES WITH VOLTAGE LESS THAN 0.9000: BUS# X-- NAME --X BASKV AREA V(PU) V(KV) BUS# X-- NAME --X BASKV AREA V(PU) V(KV) * NONE * 110KV NETWORK BUSES WITH VOLTAGE GREATER THAN 1.1200: BUS# X-- NAME --X BASKV AREA V(PU) V(KV) BUS# X-- NAME --X BASKV AREA V(PU) V(KV) * NONE * BUSES WITH VOLTAGE LESS THAN 0.9000: BUS# X-- NAME --X BASKV AREA V(PU) V(KV) BUS# X-- NAME --X BASKV AREA V(PU) V(KV) * NONE * BLACK SEA REGIONAL MODEL SUMMER MINIMUM LOAD 2010 400KV NETWORK BUSES WITH VOLTAGE GREATER THAN 1.0500: BUS# X-- NAME --X BASKV AREA V(PU) V(KV) BUS# X-- NAME --X BASKV AREA V(PU) V(KV) * NONE *
4.59
BUSES WITH VOLTAGE LESS THAN 0.9500: BUS# X-- NAME --X BASKV AREA V(PU) V(KV) BUS# X-- NAME --X BASKV AREA V(PU) V(KV) * NONE * 220KV NETWORK BUSES WITH VOLTAGE GREATER THAN 1.1100: BUS# X-- NAME --X BASKV AREA V(PU) V(KV) BUS# X-- NAME --X BASKV AREA V(PU) V(KV) * NONE * BUSES WITH VOLTAGE LESS THAN 0.9000: BUS# X-- NAME --X BASKV AREA V(PU) V(KV) BUS# X-- NAME --X BASKV AREA V(PU) V(KV) * NONE * 110KV NETWORK BUSES WITH VOLTAGE GREATER THAN 1.1200: BUS# X-- NAME --X BASKV AREA V(PU) V(KV) BUS# X-- NAME --X BASKV AREA V(PU) V(KV) * NONE * BUSES WITH VOLTAGE LESS THAN 0.9000: BUS# X-- NAME --X BASKV AREA V(PU) V(KV) BUS# X-- NAME --X BASKV AREA V(PU) V(KV) * NONE *
RUSSIA BLACKSEA REGIONAL MODEL WINTER MAXIMUM LOAD 2010 750KV NETWORK BUSES WITH VOLTAGE GREATER THAN 1.0500: BUS# X-- NAME --X BASKV AREA V(PU) V(KV) BUS# X-- NAME --X BASKV AREA V(PU) V(KV) * NONE * BUSES WITH VOLTAGE LESS THAN 0.9500: BUS# X-- NAME --X BASKV AREA V(PU) V(KV) BUS# X-- NAME --X BASKV AREA V(PU) V(KV) * NONE * 500KV NETWORK BUSES WITH VOLTAGE GREATER THAN 1.0500: BUS# X-- NAME --X BASKV AREA V(PU) V(KV) BUS# X-- NAME --X BASKV AREA V(PU) V(KV) 50717 4ELEC 91 500.00 5 1.0563 528.13 BUSES WITH VOLTAGE LESS THAN 0.9500: BUS# X-- NAME --X BASKV AREA V(PU) V(KV) BUS# X-- NAME --X BASKV AREA V(PU) V(KV) * NONE * 400KV NETWORK BUSES WITH VOLTAGE GREATER THAN 1.0500: BUS# X-- NAME --X BASKV AREA V(PU) V(KV) BUS# X-- NAME --X BASKV AREA V(PU) V(KV) * NONE * BUSES WITH VOLTAGE LESS THAN 0.9500: BUS# X-- NAME --X BASKV AREA V(PU) V(KV) BUS# X-- NAME --X BASKV AREA V(PU) V(KV) * NONE * 330KV NETWORK BUSES WITH VOLTAGE GREATER THAN 1.1000: BUS# X-- NAME --X BASKV AREA V(PU) V(KV) BUS# X-- NAME --X BASKV AREA V(PU) V(KV) * NONE * BUSES WITH VOLTAGE LESS THAN 0.9000: BUS# X-- NAME --X BASKV AREA V(PU) V(KV) BUS# X-- NAME --X BASKV AREA V(PU) V(KV)
4.60
* NONE * 220KV NETWORK BUSES WITH VOLTAGE GREATER THAN 1.1500: BUS# X-- NAME --X BASKV AREA V(PU) V(KV) BUS# X-- NAME --X BASKV AREA V(PU) V(KV) * NONE * BUSES WITH VOLTAGE LESS THAN 0.9000: BUS# X-- NAME --X BASKV AREA V(PU) V(KV) BUS# X-- NAME --X BASKV AREA V(PU) V(KV) 50583 4NARAB21 220.00 5 0.8847 194.64 50585 4RASSV21 220.00 5 0.8831 194.29 50587 4ASTRA21 220.00 5 0.8833 194.33 50588 4BARR 21 220.00 5 0.8750 192.51 50592 4GAZ 21 220.00 5 0.8621 189.66 50597 4LIMAN21 220.00 5 0.8931 196.48 BLACK SEA REGIONAL MODEL SUMMER MINIMUM LOAD 2010 750KV NETWORK BUSES WITH VOLTAGE GREATER THAN 1.0500: BUS# X-- NAME --X BASKV AREA V(PU) V(KV) BUS# X-- NAME --X BASKV AREA V(PU) V(KV) * NONE * BUSES WITH VOLTAGE LESS THAN 0.9500: BUS# X-- NAME --X BASKV AREA V(PU) V(KV) BUS# X-- NAME --X BASKV AREA V(PU) V(KV) * NONE * 500KV NETWORK BUSES WITH VOLTAGE GREATER THAN 1.0500: BUS# X-- NAME --X BASKV AREA V(PU) V(KV) BUS# X-- NAME --X BASKV AREA V(PU) V(KV) 58374 4BUDEN95 500.00 5 1.0586 529.31 50717 4ELEC 91 500.00 5 1.0655 532.74 50758 4NVAES91 500.00 5 1.0603 530.17 50801 4STOSK91 500.00 5 1.0527 526.36 50813 4METAL91 500.00 5 1.0540 527.00 50902 4BALAS91 500.00 5 1.0616 530.80 50940 4OTPNV91 500.00 5 1.0557 527.83 58370 4BUDEN9 500.00 5 1.0586 529.28 BUSES WITH VOLTAGE LESS THAN 0.9500: BUS# X-- NAME --X BASKV AREA V(PU) V(KV) BUS# X-- NAME --X BASKV AREA V(PU) V(KV) * NONE * 400KV NETWORK BUSES WITH VOLTAGE GREATER THAN 1.0500: BUS# X-- NAME --X BASKV AREA V(PU) V(KV) BUS# X-- NAME --X BASKV AREA V(PU) V(KV) * NONE * BUSES WITH VOLTAGE LESS THAN 0.9500: BUS# X-- NAME --X BASKV AREA V(PU) V(KV) BUS# X-- NAME --X BASKV AREA V(PU) V(KV) * NONE * 330KV NETWORK BUSES WITH VOLTAGE GREATER THAN 1.1000: BUS# X-- NAME --X BASKV AREA V(PU) V(KV) BUS# X-- NAME --X BASKV AREA V(PU) V(KV) * NONE * BUSES WITH VOLTAGE LESS THAN 0.9000: BUS# X-- NAME --X BASKV AREA V(PU) V(KV) BUS# X-- NAME --X BASKV AREA V(PU) V(KV) * NONE * 220KV NETWORK BUSES WITH VOLTAGE GREATER THAN 1.1500: BUS# X-- NAME --X BASKV AREA V(PU) V(KV) BUS# X-- NAME --X BASKV AREA V(PU) V(KV) * NONE * BUSES WITH VOLTAGE LESS THAN 0.9000: BUS# X-- NAME --X BASKV AREA V(PU) V(KV) BUS# X-- NAME --X BASKV AREA V(PU) V(KV) * NONE * 110KV NETWORK
4.61
BUSES WITH VOLTAGE GREATER THAN 1.1500: BUS# X-- NAME --X BASKV AREA V(PU) V(KV) BUS# X-- NAME --X BASKV AREA V(PU) V(KV) 50586 4RASSV51 110.00 5 1.1668 128.35 50589 4BARR 51 110.00 5 1.1642 128.07 50591 4SRP 51 110.00 5 1.2111 133.23 50593 4GAZ1051 110.00 5 1.1642 128.06 50594 4BUZAN51 110.00 5 1.1600 127.60 50598 4LIMAN51 110.00 5 1.1539 126.93 50755 4SEMIL51 110.00 5 1.1531 126.84 50759 4NVAES51 110.00 5 1.1673 128.41 50762 4LISKI51 110.00 5 1.1528 126.81 50763 4BOBRO51 110.00 5 1.1687 128.56 50765 4EL.KO51 110.00 5 1.1522 126.74 50766 4PRIDO51 110.00 5 1.1540 126.94 50901 4BALAS51 110.00 5 1.1503 126.54 58316 4GEC-25 110.00 5 1.1653 128.19 58321 4GES-15 110.00 5 1.1684 128.52 58713 4DERBE5 110.00 5 1.2153 133.68 BUSES WITH VOLTAGE LESS THAN 0.9000: BUS# X-- NAME --X BASKV AREA V(PU) V(KV) BUS# X-- NAME --X BASKV AREA V(PU) V(KV) * NONE *
TURKEY BLACKSEA REGIONAL MODEL WINTER MAXIMUM LOAD 2010 400KV NETWORK BUSES WITH VOLTAGE GREATER THAN 1.0500: BUS# X-- NAME --X BASKV AREA V(PU) V(KV) BUS# X-- NAME --X BASKV AREA V(PU) V(KV) * NONE * BUSES WITH VOLTAGE LESS THAN 0.9300: BUS# X-- NAME --X BASKV AREA V(PU) V(KV) BUS# X-- NAME --X BASKV AREA V(PU) V(KV) * NONE * 150KV NETWORK BUSES WITH VOLTAGE GREATER THAN 1.0800: BUS# X-- NAME --X BASKV AREA V(PU) V(KV) BUS# X-- NAME --X BASKV AREA V(PU) V(KV) * NONE * BUSES WITH VOLTAGE LESS THAN 0.9700: BUS# X-- NAME --X BASKV AREA V(PU) V(KV) BUS# X-- NAME --X BASKV AREA V(PU) V(KV) * NONE * BLACK SEA REGIONAL MODEL SUMMER MINIMUM LOAD 2010 400KV NETWORK BUSES WITH VOLTAGE GREATER THAN 1.0500: BUS# X-- NAME --X BASKV AREA V(PU) V(KV) BUS# X-- NAME --X BASKV AREA V(PU) V(KV) * NONE * BUSES WITH VOLTAGE LESS THAN 0.9300: BUS# X-- NAME --X BASKV AREA V(PU) V(KV) BUS# X-- NAME --X BASKV AREA V(PU) V(KV) * NONE * 150KV NETWORK BUSES WITH VOLTAGE GREATER THAN 1.0800: BUS# X-- NAME --X BASKV AREA V(PU) V(KV) BUS# X-- NAME --X BASKV AREA V(PU) V(KV) * NONE * BUSES WITH VOLTAGE LESS THAN 0.9700: BUS# X-- NAME --X BASKV AREA V(PU) V(KV) BUS# X-- NAME --X BASKV AREA V(PU) V(KV) * NONE *
UKRAINE
4.62
BLACKSEA REGIONAL MODEL WINTER MAXIMUM LOAD 2010 750KV NETWORK BUSES WITH VOLTAGE GREATER THAN 1.0500: BUS# X-- NAME --X BASKV AREA V(PU) V(KV) BUS# X-- NAME --X BASKV AREA V(PU) V(KV) * NONE * BUSES WITH VOLTAGE LESS THAN 0.9200: BUS# X-- NAME --X BASKV AREA V(PU) V(KV) BUS# X-- NAME --X BASKV AREA V(PU) V(KV) * NONE * 500KV NETWORK BUSES WITH VOLTAGE GREATER THAN 1.0500: BUS# X-- NAME --X BASKV AREA V(PU) V(KV) BUS# X-- NAME --X BASKV AREA V(PU) V(KV) * NONE * BUSES WITH VOLTAGE LESS THAN 0.9400: BUS# X-- NAME --X BASKV AREA V(PU) V(KV) BUS# X-- NAME --X BASKV AREA V(PU) V(KV) * NONE * 400KV NETWORK BUSES WITH VOLTAGE GREATER THAN 1.0500: BUS# X-- NAME --X BASKV AREA V(PU) V(KV) BUS# X-- NAME --X BASKV AREA V(PU) V(KV) * NONE * BUSES WITH VOLTAGE LESS THAN 0.9000: BUS# X-- NAME --X BASKV AREA V(PU) V(KV) BUS# X-- NAME --X BASKV AREA V(PU) V(KV) * NONE * 330KV NETWORK BUSES WITH VOLTAGE GREATER THAN 1.1000: BUS# X-- NAME --X BASKV AREA V(PU) V(KV) BUS# X-- NAME --X BASKV AREA V(PU) V(KV) * NONE * BUSES WITH VOLTAGE LESS THAN 0.8800: BUS# X-- NAME --X BASKV AREA V(PU) V(KV) BUS# X-- NAME --X BASKV AREA V(PU) V(KV) * NONE * 220KV NETWORK BUSES WITH VOLTAGE GREATER THAN 1.1000: BUS# X-- NAME --X BASKV AREA V(PU) V(KV) BUS# X-- NAME --X BASKV AREA V(PU) V(KV) * NONE * BUSES WITH VOLTAGE LESS THAN 0.8200: BUS# X-- NAME --X BASKV AREA V(PU) V(KV) BUS# X-- NAME --X BASKV AREA V(PU) V(KV) * NONE * BLACKSEA REGIONAL MODEL SUMMER MINIMUM LOAD 2010 750KV NETWORK BUSES WITH VOLTAGE GREATER THAN 1.0500: BUS# X-- NAME --X BASKV AREA V(PU) V(KV) BUS# X-- NAME --X BASKV AREA V(PU) V(KV)
4.63
* NONE * BUSES WITH VOLTAGE LESS THAN 0.9200: BUS# X-- NAME --X BASKV AREA V(PU) V(KV) BUS# X-- NAME --X BASKV AREA V(PU) V(KV) * NONE * 500KV NETWORK BUSES WITH VOLTAGE GREATER THAN 1.0500: BUS# X-- NAME --X BASKV AREA V(PU) V(KV) BUS# X-- NAME --X BASKV AREA V(PU) V(KV) * NONE * BUSES WITH VOLTAGE LESS THAN 0.9400: BUS# X-- NAME --X BASKV AREA V(PU) V(KV) BUS# X-- NAME --X BASKV AREA V(PU) V(KV) * NONE * 400KV NETWORK BUSES WITH VOLTAGE GREATER THAN 1.0500: BUS# X-- NAME --X BASKV AREA V(PU) V(KV) BUS# X-- NAME --X BASKV AREA V(PU) V(KV) * NONE * BUSES WITH VOLTAGE LESS THAN 0.9000: BUS# X-- NAME --X BASKV AREA V(PU) V(KV) BUS# X-- NAME --X BASKV AREA V(PU) V(KV) * NONE * 330KV NETWORK BUSES WITH VOLTAGE GREATER THAN 1.1000: BUS# X-- NAME --X BASKV AREA V(PU) V(KV) BUS# X-- NAME --X BASKV AREA V(PU) V(KV) * NONE * BUSES WITH VOLTAGE LESS THAN 0.8800: BUS# X-- NAME --X BASKV AREA V(PU) V(KV) BUS# X-- NAME --X BASKV AREA V(PU) V(KV) * NONE * 220KV NETWORK BUSES WITH VOLTAGE GREATER THAN 1.1000: BUS# X-- NAME --X BASKV AREA V(PU) V(KV) BUS# X-- NAME --X BASKV AREA V(PU) V(KV) 70502 UTRIHA21 220.00 7 1.1165 245.62 BUSES WITH VOLTAGE LESS THAN 0.8200: BUS# X-- NAME --X BASKV AREA V(PU) V(KV) BUS# X-- NAME --X BASKV AREA V(PU) V(KV) * NONE *
ARMENIA BLACKSEA REGIONAL MODEL WINTER MAXIMUM LOAD 2010 400KV NETWORK BUSES WITH VOLTAGE GREATER THAN 1.0500: BUS# X-- NAME --X BASKV AREA V(PU) V(KV) BUS# X-- NAME --X BASKV AREA V(PU) V(KV) * NONE * BUSES WITH VOLTAGE LESS THAN 0.9000: BUS# X-- NAME --X BASKV AREA V(PU) V(KV) BUS# X-- NAME --X BASKV AREA V(PU) V(KV) * NONE *
4.64
220KV NETWORK BUSES WITH VOLTAGE GREATER THAN 1.1000: BUS# X-- NAME --X BASKV AREA V(PU) V(KV) BUS# X-- NAME --X BASKV AREA V(PU) V(KV) * NONE * BUSES WITH VOLTAGE LESS THAN 0.8200: BUS# X-- NAME --X BASKV AREA V(PU) V(KV) BUS# X-- NAME --X BASKV AREA V(PU) V(KV) * NONE * 110KV NETWORK BUSES WITH VOLTAGE GREATER THAN 1.1000: BUS# X-- NAME --X BASKV AREA V(PU) V(KV) BUS# X-- NAME --X BASKV AREA V(PU) V(KV) * NONE * BUSES WITH VOLTAGE LESS THAN 0.9000: BUS# X-- NAME --X BASKV AREA V(PU) V(KV) BUS# X-- NAME --X BASKV AREA V(PU) V(KV) * NONE *
4.65
BLACKSEA REGIONAL MODEL SUMMER MINIMUM LOAD 2010 400KV NETWORK BUSES WITH VOLTAGE GREATER THAN 1.0500: BUS# X-- NAME --X BASKV AREA V(PU) V(KV) BUS# X-- NAME --X BASKV AREA V(PU) V(KV) * NONE * BUSES WITH VOLTAGE LESS THAN 0.9000: BUS# X-- NAME --X BASKV AREA V(PU) V(KV) BUS# X-- NAME --X BASKV AREA V(PU) V(KV) * NONE * 220KV NETWORK BUSES WITH VOLTAGE GREATER THAN 1.1000: BUS# X-- NAME --X BASKV AREA V(PU) V(KV) BUS# X-- NAME --X BASKV AREA V(PU) V(KV) * NONE * BUSES WITH VOLTAGE LESS THAN 0.8200: BUS# X-- NAME --X BASKV AREA V(PU) V(KV) BUS# X-- NAME --X BASKV AREA V(PU) V(KV) * NONE * 110KV NETWORK BUSES WITH VOLTAGE GREATER THAN 1.1000: BUS# X-- NAME --X BASKV AREA V(PU) V(KV) BUS# X-- NAME --X BASKV AREA V(PU) V(KV) * NONE * BUSES WITH VOLTAGE LESS THAN 0.9000: BUS# X-- NAME --X BASKV AREA V(PU) V(KV) BUS# X-- NAME --X BASKV AREA V(PU) V(KV) * NONE *
4.66
4.6. Contingency analyses Every project participant was obliged to check whether model of its systems complies according to the n-1 security criterion. In this chapter results of these analyses are shown.
4.6.1. Bulgaria Here enclosed is contingency report output from PSS/E program as well as list of contingencies analyzed. ACCC OVERLOAD REPORT: MONITORED BRANCHES AND INTERFACES LOADED ABOVE 95.0 % OF RATING SET A CONTINGENCY CASE LOADING NOT CHECKED UNLESS IT DIFFERS FROM ITS BASE CASE LOADING BY 10.0 MVA (MW FOR INTERFACES) ACCC VOLTAGE REPORT: VOLTAGE BAND CHECK IN CONTINGENCY CASES SKIPPED FOR ANY BUS WITHIN 0.01250 OF ITS BASE CASE VOLTAGE MAGNITUDE AC CONTINGENCY RESULTS FILE: D:\bg_2010.acc DISTRIBUTION FACTOR FILE: D:\bg_2010.dfx SUBSYSTEM DESCRIPTION FILE: D:\BG_2010.sub MONITORED ELEMENT FILE: D:\BG_2010.mon CONTINGENCY DESCRIPTION FILE: D:\BG_2010.con BLACKSEA REGIONAL MODEL WINTER MAXIMUM LOAD 2010 <---------------- MULTI-SECTION LINE ----------------> <----------------- MONITORED BRANCH -----------------> CONTINGENCY RATING FLOW % MONITORED VOLTAGE REPORT: SYSTEM CONTINGENCY <-------- B U S --------> V-CONT V-INIT V-MAX V-MIN BLACKSEA REGIONAL MODEL SUMMER MINIMUM LOAD 2010 <---------------- MULTI-SECTION LINE ----------------> <----------------- MONITORED BRANCH -----------------> CONTINGENCY RATING FLOW % MONITORED VOLTAGE REPORT: SYSTEM CONTINGENCY <-------- B U S --------> V-CONT V-INIT V-MAX V-MIN CONTINGENCY LEGEND: LABEL EVENTS INT-20 : OPEN LINE FROM BUS 20 [XBG_TH11 400.00] TO BUS 12433 [VBLAGO1 400.00] CKT 1 OPEN LINE FROM BUS 20 [XBG_TH11 400.00] TO BUS 80252 [GLAGAD1 400.00] CKT 1 INT-21 : OPEN LINE FROM BUS 21 [XDO_IS11 400.00] TO BUS 12461 [VDOBRU1 400.00] CKT 1 OPEN LINE FROM BUS 21 [XDO_IS11 400.00] TO BUS 48020 [RISACC1 400.00] CKT 1 INT-22 : OPEN LINE FROM BUS 22 [XKO_TI11 400.00] TO BUS 12440 [VAEC_41 400.00] CKT 1 OPEN LINE FROM BUS 22 [XKO_TI11 400.00] TO BUS 48001 [RTANTA1 400.00] CKT 1 INT-23 : OPEN LINE FROM BUS 23 [XKO_TI12 400.00] TO BUS 12440 [VAEC_41 400.00] CKT 1 OPEN LINE FROM BUS 23 [XKO_TI12 400.00] TO BUS 48001 [RTANTA1 400.00] CKT 2 INT-24 : OPEN LINE FROM BUS 24 [XSO_NI11 400.00] TO BUS 12431 [VSOFIW1 400.00] CKT 1 OPEN LINE FROM BUS 24 [XSO_NI11 400.00] TO BUS 80104 [JNIS2 1 400.00] CKT 1 INT-181 : OPEN LINE FROM BUS 181 [XVA_IS11 400.00] TO BUS 12460 [VVARNA1 400.00] CKT 1 OPEN LINE FROM BUS 181 [XVA_IS11 400.00] TO BUS 48020 [RISACC1 400.00] CKT 1 INT-197 : OPEN LINE FROM BUS 197 [XMI_BA11 400.00] TO BUS 12471 [VMI3 11 400.00] CKT 1 OPEN LINE FROM BUS 197 [XMI_BA11 400.00] TO BUS 60032 [TBABAE12 400.00] CKT 1 INT-198 : OPEN LINE FROM BUS 198 [XMI_HA11 400.00] TO BUS 12471 [VMI3 11 400.00] CKT 1 OPEN LINE FROM BUS 198 [XMI_HA11 400.00] TO BUS 60002 [THAMIT1 400.00] CKT 1 INT-207 : OPEN LINE FROM BUS 207 [XCM_ST11 400.00] TO BUS 12432 [VCMOGI1 400.00] CKT 1 OPEN LINE FROM BUS 207 [XCM_ST11 400.00] TO BUS 80204 [YSTIP11 400.00] CKT 1 INT-214 : OPEN LINE FROM BUS 214 [XMI_FI11 400.00] TO BUS 12474 [VMI 1 400.00] CKT 1 OPEN LINE FROM BUS 214 [XMI_FI11 400.00] TO BUS 80250 [GFILIP1 400.00] CKT 1 SINGLE 1 : OPEN LINE FROM BUS 12220 [VBELME2 220.00] TO BUS 12221 [VKAZIC2 220.00] CKT 1 SINGLE 2 : OPEN LINE FROM BUS 12220 [VBELME2 220.00] TO BUS 12221 [VKAZIC2 220.00] CKT 2 SINGLE 3 : OPEN LINE FROM BUS 12221 [VKAZIC2 220.00] TO BUS 12222 [VSOFIJ2 220.00] CKT 1 SINGLE 4 : OPEN LINE FROM BUS 12221 [VKAZIC2 220.00] TO BUS 12222 [VSOFIJ2 220.00] CKT 2 SINGLE 5 : OPEN LINE FROM BUS 12221 [VKAZIC2 220.00] TO BUS 12232 [VSTOLN2 220.00] CKT 1 SINGLE 6 : OPEN LINE FROM BUS 12221 [VKAZIC2 220.00] TO BUS 12232 [VSTOLN2 220.00] CKT 2 SINGLE 7 : OPEN LINE FROM BUS 12221 [VKAZIC2 220.00] TO BUS 12280 [VALEKO2 220.00] CKT 1 SINGLE 8 : OPEN LINE FROM BUS 12221 [VKAZIC2 220.00] TO BUS 12280 [VALEKO2 220.00] CKT 2 SINGLE 9 : OPEN LINE FROM BUS 12222 [VSOFIJ2 220.00] TO BUS 12231 [VBOBOV2 220.00] CKT 1 SINGLE 10 : OPEN LINE FROM BUS 12222 [VSOFIJ2 220.00] TO BUS 12231 [VBOBOV2 220.00] CKT 2 SINGLE 11 : OPEN LINE FROM BUS 12223 [VGPP_12 220.00] TO BUS 12232 [VSTOLN2 220.00] CKT 1
4.67
SINGLE 12 : OPEN LINE FROM BUS 12224 [VTSOFI2 220.00] TO BUS 12231 [VBOBOV2 220.00] CKT 1 SINGLE 13 : OPEN LINE FROM BUS 12224 [VTSOFI2 220.00] TO BUS 12232 [VSTOLN2 220.00] CKT 1 SINGLE 14 : OPEN LINE FROM BUS 12230 [VSTOMA2 220.00] TO BUS 12231 [VBOBOV2 220.00] CKT 1 SINGLE 15 : OPEN LINE FROM BUS 12230 [VSTOMA2 220.00] TO BUS 12232 [VSTOLN2 220.00] CKT 1 SINGLE 16 : OPEN LINE FROM BUS 12232 [VSTOLN2 220.00] TO BUS 12233 [VSESTR2 220.00] CKT 1 SINGLE 17 : OPEN LINE FROM BUS 12232 [VSTOLN2 220.00] TO BUS 12430 [VSTOLN1 400.00] CKT 1 SINGLE 18 : OPEN LINE FROM BUS 12240 [VBOICH2 220.00] TO BUS 12241 [VAEC_22 220.00] CKT 1 SINGLE 19 : OPEN LINE FROM BUS 12240 [VBOICH2 220.00] TO BUS 12290 [VMIZIA2 220.00] CKT 1 SINGLE 20 : OPEN LINE FROM BUS 12241 [VAEC_22 220.00] TO BUS 12242 [VBPC_22 220.00] CKT 1 SINGLE 21 : OPEN LINE FROM BUS 12241 [VAEC_22 220.00] TO BUS 12290 [VMIZIA2 220.00] CKT 1 SINGLE 22 : OPEN LINE FROM BUS 12241 [VAEC_22 220.00] TO BUS 12290 [VMIZIA2 220.00] CKT 2 SINGLE 23 : OPEN LINE FROM BUS 12241 [VAEC_22 220.00] TO BUS 12440 [VAEC_41 400.00] CKT 1 SINGLE 24 : OPEN LINE FROM BUS 12250 [VGORIA2 220.00] TO BUS 12251 [VBALKA2 220.00] CKT 1 SINGLE 25 : OPEN LINE FROM BUS 12250 [VGORIA2 220.00] TO BUS 12252 [VOCHIF2 220.00] CKT 1 SINGLE 26 : OPEN LINE FROM BUS 12250 [VGORIA2 220.00] TO BUS 12261 [VMADAR2 220.00] CKT 1 SINGLE 27 : OPEN LINE FROM BUS 12250 [VGORIA2 220.00] TO BUS 12272 [VMI2 2 220.00] CKT 1 SINGLE 28 : OPEN LINE FROM BUS 12250 [VGORIA2 220.00] TO BUS 12278 [VXXXXX22 220.00] CKT 1 SINGLE 29 : OPEN LINE FROM BUS 12250 [VGORIA2 220.00] TO BUS 12291 [VPLEVE21 220.00] CKT 1 SINGLE 30 : OPEN LINE FROM BUS 12251 [VBALKA2 220.00] TO BUS 12287 [VXXXXX23 220.00] CKT 1 SINGLE 31 : OPEN LINE FROM BUS 12260 [VDOBRU2 220.00] TO BUS 12261 [VMADAR2 220.00] CKT 2 SINGLE 32 : OPEN LINE FROM BUS 12260 [VDOBRU2 220.00] TO BUS 12262 [VTVARN2 220.00] CKT 1 SINGLE 33 : OPEN LINE FROM BUS 12260 [VDOBRU2 220.00] TO BUS 12262 [VTVARN2 220.00] CKT 2 SINGLE 34 : OPEN LINE FROM BUS 12260 [VDOBRU2 220.00] TO BUS 12263 [VVARNA2 220.00] CKT 1 SINGLE 35 : OPEN LINE FROM BUS 12260 [VDOBRU2 220.00] TO BUS 12277 [VXXXXX21 220.00] CKT 1 SINGLE 36 : OPEN LINE FROM BUS 12261 [VMADAR2 220.00] TO BUS 12263 [VVARNA2 220.00] CKT 1 SINGLE 37 : OPEN LINE FROM BUS 12263 [VVARNA2 220.00] TO BUS 12460 [VVARNA1 400.00] CKT 1 SINGLE 38 : OPEN LINE FROM BUS 12270 [VCHUDO2 220.00] TO BUS 12287 [VXXXXX23 220.00] CKT 1 SINGLE 39 : OPEN LINE FROM BUS 12271 [VTVARD2 220.00] TO BUS 12278 [VXXXXX22 220.00] CKT 1 SINGLE 40 : OPEN LINE FROM BUS 12272 [VMI2 2 220.00] TO BUS 12274 [VMI 2 220.00] CKT 1 SINGLE 41 : OPEN LINE FROM BUS 12272 [VMI2 2 220.00] TO BUS 12274 [VMI 2 220.00] CKT 2 SINGLE 42 : OPEN LINE FROM BUS 12272 [VMI2 2 220.00] TO BUS 12275 [VMI3 2 220.00] CKT 1 SINGLE 43 : OPEN LINE FROM BUS 12272 [VMI2 2 220.00] TO BUS 12276 [VSTZAG2 220.00] CKT 1 SINGLE 44 : OPEN LINE FROM BUS 12272 [VMI2 2 220.00] TO BUS 12277 [VXXXXX21 220.00] CKT 1 SINGLE 45 : OPEN LINE FROM BUS 12272 [VMI2 2 220.00] TO BUS 12278 [VXXXXX22 220.00] CKT 1 SINGLE 46 : OPEN LINE FROM BUS 12273 [VKARNO2 220.00] TO BUS 12277 [VXXXXX21 220.00] CKT 1 SINGLE 47 : OPEN LINE FROM BUS 12274 [VMI 2 220.00] TO BUS 12275 [VMI3 2 220.00] CKT 1 SINGLE 48 : OPEN LINE FROM BUS 12274 [VMI 2 220.00] TO BUS 12285 [VPLOVD2 220.00] CKT 1 SINGLE 49 : OPEN LINE FROM BUS 12274 [VMI 2 220.00] TO BUS 12285 [VPLOVD2 220.00] CKT 2 SINGLE 50 : OPEN LINE FROM BUS 12274 [VMI 2 220.00] TO BUS 12474 [VMI 1 400.00] CKT 1 SINGLE 51 : OPEN LINE FROM BUS 12275 [VMI3 2 220.00] TO BUS 12286 [VUZUND2 220.00] CKT 1 SINGLE 52 : OPEN LINE FROM BUS 12275 [VMI3 2 220.00] TO BUS 12471 [VMI3 11 400.00] CKT 1 SINGLE 53 : OPEN LINE FROM BUS 12280 [VALEKO2 220.00] TO BUS 12281 [VPESHT2 220.00] CKT 1 SINGLE 54 : OPEN LINE FROM BUS 12280 [VALEKO2 220.00] TO BUS 12282 [VORFEJ2 220.00] CKT 1 SINGLE 55 : OPEN LINE FROM BUS 12280 [VALEKO2 220.00] TO BUS 12285 [VPLOVD2 220.00] CKT 1 SINGLE 56 : OPEN LINE FROM BUS 12280 [VALEKO2 220.00] TO BUS 12287 [VXXXXX23 220.00] CKT 1 SINGLE 57 : OPEN LINE FROM BUS 12282 [VORFEJ2 220.00] TO BUS 12288 [VXXXXX24 220.00] CKT 1 SINGLE 58 : OPEN LINE FROM BUS 12283 [VDEVIN2 220.00] TO BUS 12288 [VXXXXX24 220.00] CKT 1 SINGLE 59 : OPEN LINE FROM BUS 12284 [VTESHE2 220.00] TO BUS 12288 [VXXXXX24 220.00] CKT 1 SINGLE 60 : OPEN LINE FROM BUS 12290 [VMIZIA2 220.00] TO BUS 12291 [VPLEVE21 220.00] CKT 1 SINGLE 61 : OPEN LINE FROM BUS 12290 [VMIZIA2 220.00] TO BUS 12291 [VPLEVE21 220.00] CKT 2 SINGLE 62 : OPEN LINE FROM BUS 12290 [VMIZIA2 220.00] TO BUS 12490 [VMIZIA1 400.00] CKT 1 SINGLE 63 : OPEN LINE FROM BUS 12420 [VMETAL1 400.00] TO BUS 12430 [VSTOLN1 400.00] CKT 1 SINGLE 64 : OPEN LINE FROM BUS 12420 [VMETAL1 400.00] TO BUS 12431 [VSOFIW1 400.00] CKT 1 SINGLE 65 : OPEN LINE FROM BUS 12430 [VSTOLN1 400.00] TO BUS 12434 [VZLATI1 400.00] CKT 1 SINGLE 66 : OPEN LINE FROM BUS 12430 [VSTOLN1 400.00] TO BUS 12490 [VMIZIA1 400.00] CKT 1 SINGLE 67 : OPEN LINE FROM BUS 12431 [VSOFIW1 400.00] TO BUS 12432 [VCMOGI1 400.00] CKT 1 SINGLE 68 : OPEN LINE FROM BUS 12431 [VSOFIW1 400.00] TO BUS 12432 [VCMOGI1 400.00] CKT 2 SINGLE 69 : OPEN LINE FROM BUS 12431 [VSOFIW1 400.00] TO BUS 12440 [VAEC_41 400.00] CKT 1 SINGLE 70 : OPEN LINE FROM BUS 12431 [VSOFIW1 400.00] TO BUS 12440 [VAEC_41 400.00] CKT 2 SINGLE 71 : OPEN LINE FROM BUS 12432 [VCMOGI1 400.00] TO BUS 12433 [VBLAGO1 400.00] CKT 1 SINGLE 72 : OPEN LINE FROM BUS 12432 [VCMOGI1 400.00] TO BUS 12433 [VBLAGO1 400.00] CKT 2 SINGLE 73 : OPEN LINE FROM BUS 12432 [VCMOGI1 400.00] TO BUS 12437 [VVETRE1 400.00] CKT 1 SINGLE 74 : OPEN LINE FROM BUS 12434 [VZLATI1 400.00] TO BUS 12480 [VPLOVD1 400.00] CKT 1 SINGLE 75 : OPEN LINE FROM BUS 12435 [VCHAIR11 400.00] TO BUS 12437 [VVETRE1 400.00] CKT 1 SINGLE 76 : OPEN LINE FROM BUS 12437 [VVETRE1 400.00] TO BUS 12480 [VPLOVD1 400.00] CKT 1 SINGLE 77 : OPEN LINE FROM BUS 12440 [VAEC_41 400.00] TO BUS 12490 [VMIZIA1 400.00] CKT 2 SINGLE 78 : OPEN LINE FROM BUS 12440 [VAEC_41 400.00] TO BUS 12490 [VMIZIA1 400.00] CKT 3 SINGLE 79 : OPEN LINE FROM BUS 12450 [VCAREV1 400.00] TO BUS 12460 [VVARNA1 400.00] CKT 1 SINGLE 80 : OPEN LINE FROM BUS 12450 [VCAREV1 400.00] TO BUS 12490 [VMIZIA1 400.00] CKT 1 SINGLE 81 : OPEN LINE FROM BUS 12460 [VVARNA1 400.00] TO BUS 12461 [VDOBRU1 400.00] CKT 1 SINGLE 82 : OPEN LINE FROM BUS 12460 [VVARNA1 400.00] TO BUS 12461 [VDOBRU1 400.00] CKT 2 SINGLE 83 : OPEN LINE FROM BUS 12460 [VVARNA1 400.00] TO BUS 12470 [VBURGA1 400.00] CKT 1 SINGLE 84 : OPEN LINE FROM BUS 12470 [VBURGA1 400.00] TO BUS 12472 [VMI2 1 400.00] CKT 1 SINGLE 85 : OPEN LINE FROM BUS 12471 [VMI3 11 400.00] TO BUS 12472 [VMI2 1 400.00] CKT 1 SINGLE 86 : OPEN LINE FROM BUS 12471 [VMI3 11 400.00] TO BUS 12474 [VMI 1 400.00] CKT 1 SINGLE 87 : OPEN LINE FROM BUS 12474 [VMI 1 400.00] TO BUS 12475 [VTMI 15 400.00] CKT 1 SINGLE 88 : OPEN LINE FROM BUS 12474 [VMI 1 400.00] TO BUS 12476 [VTMI 16 400.00] CKT 1 SINGLE 89 : OPEN LINE FROM BUS 12474 [VMI 1 400.00] TO BUS 12480 [VPLOVD1 400.00] CKT 1
It can be concluded that in this regime, Bulgarian network fully complies with (n-1) security criterion.
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4.6.2. Georgia BLACKSEA REGIONAL MODEL WINTER MAXIMUM LOAD 2010 ACCC OVERLOAD REPORT: MONITORED BRANCHES AND INTERFACES LOADED ABOVE 100.0 % OF RATING SET A CONTINGENCY CASE LOADING NOT CHECKED UNLESS IT DIFFERS FROM ITS BASE CASE LOADING BY 10.0 MVA (MW FOR INTERFACES) CONTINGENCY CASE LOADING NOT CHECKED UNLESS IT EXCEEDS ITS BASE CASE LOADING BY 5.0 PERCENT OF RATING SET A ACCC VOLTAGE REPORT: VOLTAGE BAND CHECK IN CONTINGENCY CASES SKIPPED FOR ANY BUS WITHIN 0.02000 OF ITS BASE CASE VOLTAGE MAGNITUDE AC CONTINGENCY RESULTS FILE: D:\miksa\0\BlackSea\0report\GE\GEWINTER.acc DISTRIBUTION FACTOR FILE: D:\miksa\0\BlackSea\0report\GE\GE.dfx SUBSYSTEM DESCRIPTION FILE: D:\miksa\0\BlackSea\0report\GE\GE.sub MONITORED ELEMENT FILE: D:\miksa\0\BlackSea\0report\GE\GE.mon CONTINGENCY DESCRIPTION FILE: D:\miksa\0\BlackSea\0report\GE\GE.con <----------------- MONITORED BRANCH -----------------> CONTINGENCY RATING FLOW % 20009 6VARDI2 220.00 20032*6TKVAR2 220.00 1 SINGLE 102 371.0 421.6 118.5 20032 6TKVAR2 220.00 20033*6SOUKH2 220.00 1 SINGLE 102 371.0 372.9 112.6 20002*6QSANI9 500.00 20007 6QSANI2 220.00 1 SINGLE 114 500.0 633.8 126.8 MONITORED VOLTAGE REPORT: SYSTEM CONTINGENCY <-------- B U S --------> V-CONT V-INIT V-MAX V-MIN GE220KV RANGE SINGLE 2 20033 6SOUKH2 220.00 0.89503 0.97119 1.10000 0.90000 GE220KV RANGE SINGLE 3 20030 6BZYBI21 220.00 0.87603 0.99323 1.10000 0.90000 GE500KV RANGE SINGLE 5 20001 6ZESTA9 500.00 0.94648 0.98827 1.05000 0.95000 GE220KV RANGE SINGLE 6 20032 6TKVAR2 220.00 0.89213 0.99683 1.10000 0.90000 GE220KV RANGE SINGLE 6 20033 6SOUKH2 220.00 0.88298 0.97119 1.10000 0.90000 GE220KV RANGE SINGLE 13 20027 6GURJA2 220.00 0.88376 0.97012 1.10000 0.90000 GE220KV RANGE SINGLE 16 20033 6SOUKH2 220.00 0.89339 0.97119 1.10000 0.90000 BLACKSEA REGIONAL MODEL SUMMER MINIMUM LOAD 2010 ACCC OVERLOAD REPORT: MONITORED BRANCHES AND INTERFACES LOADED ABOVE 100.0 % OF RATING SET A CONTINGENCY CASE LOADING NOT CHECKED UNLESS IT DIFFERS FROM ITS BASE CASE LOADING BY 10.0 MVA (MW FOR INTERFACES) CONTINGENCY CASE LOADING NOT CHECKED UNLESS IT EXCEEDS ITS BASE CASE LOADING BY 5.0 PERCENT OF RATING SET A ACCC VOLTAGE REPORT: VOLTAGE BAND CHECK IN CONTINGENCY CASES SKIPPED FOR ANY BUS WITHIN 0.02000 OF ITS BASE CASE VOLTAGE MAGNITUDE AC CONTINGENCY RESULTS FILE: D:\miksa\0\BlackSea\0report\GE\GESUMMER.acc DISTRIBUTION FACTOR FILE: D:\miksa\0\BlackSea\0report\GE\GE.dfx SUBSYSTEM DESCRIPTION FILE: D:\miksa\0\BlackSea\0report\GE\GE.sub MONITORED ELEMENT FILE: D:\miksa\0\BlackSea\0report\GE\GE.mon CONTINGENCY DESCRIPTION FILE: D:\miksa\0\BlackSea\0report\GE\GE.con <----------------- MONITORED BRANCH -----------------> CONTINGENCY RATING FLOW % MONITORED VOLTAGE REPORT: SYSTEM CONTINGENCY <-------- B U S --------> V-CONT V-INIT V-MAX V-MIN GE220KV RANGE BASE CASE 20030 6BZYBI21 220.00 1.12439 1.12439 1.10000 0.90000 GE220KV RANGE BASE CASE 20031 6LESEL51 110.00 1.13501 1.13501 1.10000 0.90000 GE500KV RANGE SINGLE 7 20002 6QSANI9 500.00 0.94912 0.97787 1.05000 0.95000 GE220KV RANGE SINGLE 32 20032 6TKVAR2 220.00 1.10973 1.07896 1.10000 0.90000 GE220KV RANGE SINGLE 32 20033 6SOUKH2 220.00 1.11062 1.08890 1.10000 0.90000 GE220KV RANGE SINGLE 47 20030 6BZYBI21 220.00 1.19101 1.12439 1.10000 0.90000 GE220KV RANGE SINGLE 47 20031 6LESEL51 110.00 1.15710 1.13501 1.10000 0.90000 GE220KV RANGE SINGLE 48 20033 6SOUKH2 220.00 1.10941 1.08890 1.10000 0.90000 CONTINGENCY LEGEND: LABEL EVENTS SINGLE 1 : OPEN LINE FROM BUS 542 [XGE_TR21 220.00] TO BUS 20017 [6BATUM2 220.00] CKT 1 SINGLE 2 : OPEN LINE FROM BUS 543 [XGE_RU91 500.00] TO BUS 20000 [6HENGU9 500.00] CKT 1 SINGLE 3 : OPEN LINE FROM BUS 546 [XGE_RU21 220.00] TO BUS 20030 [6BZYBI21 220.00] CKT 1 SINGLE 4 : OPEN LINE FROM BUS 552 [XGE_RU51 110.00] TO BUS 20031 [6LESEL51 110.00] CKT 1 SINGLE 5 : OPEN LINE FROM BUS 20000 [6HENGU9 500.00] TO BUS 20001 [6ZESTA9 500.00] CKT 1 SINGLE 6 : OPEN LINE FROM BUS 20000 [6HENGU9 500.00] TO BUS 20005 [6HENGU2 220.00] CKT 1 SINGLE 7 : OPEN LINE FROM BUS 20001 [6ZESTA9 500.00] TO BUS 20002 [6QSANI9 500.00] CKT 1 SINGLE 8 : OPEN LINE FROM BUS 20001 [6ZESTA9 500.00] TO BUS 20006 [6ZESTA2 220.00] CKT 1 SINGLE 9 : OPEN LINE FROM BUS 20001 [6ZESTA9 500.00] TO BUS 20006 [6ZESTA2 220.00] CKT 2 SINGLE 10 : OPEN LINE FROM BUS 20001 [6ZESTA9 500.00] TO BUS 20028 [6ACHAL9 500.00] CKT 1 SINGLE 11 : OPEN LINE FROM BUS 20002 [6QSANI9 500.00] TO BUS 20003 [6TGARD9 500.00] CKT 1 SINGLE 12 : OPEN LINE FROM BUS 20002 [6QSANI9 500.00] TO BUS 20007 [6QSANI2 220.00] CKT 1 SINGLE 13 : OPEN LINE FROM BUS 20003 [6TGARD9 500.00] TO BUS 20008 [6TGARD2 220.00] CKT 1 SINGLE 14 : OPEN LINE FROM BUS 20003 [6TGARD9 500.00] TO BUS 20028 [6ACHAL9 500.00] CKT 1 SINGLE 15 : OPEN LINE FROM BUS 20004 [6TGARD8 330.00] TO BUS 20008 [6TGARD2 220.00] CKT 1 SINGLE 16 : OPEN LINE FROM BUS 20005 [6HENGU2 220.00] TO BUS 20009 [6VARDI2 220.00] CKT 1
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SINGLE 17 : OPEN LINE FROM BUS 20006 [6ZESTA2 220.00] TO BUS 20013 [6QUTAI2 220.00] CKT 1 SINGLE 18 : OPEN LINE FROM BUS 20006 [6ZESTA2 220.00] TO BUS 20013 [6QUTAI2 220.00] CKT 2 SINGLE 19 : OPEN LINE FROM BUS 20006 [6ZESTA2 220.00] TO BUS 20015 [6KHASH2 220.00] CKT 1 SINGLE 20 : OPEN LINE FROM BUS 20007 [6QSANI2 220.00] TO BUS 20016 [6GORI 2 220.00] CKT 1 SINGLE 21 : OPEN LINE FROM BUS 20007 [6QSANI2 220.00] TO BUS 20019 [6JHINV2 220.00] CKT 1 SINGLE 22 : OPEN LINE FROM BUS 20007 [6QSANI2 220.00] TO BUS 20020 [6LISI 2 220.00] CKT 1 SINGLE 23 : OPEN LINE FROM BUS 20007 [6QSANI2 220.00] TO BUS 20020 [6LISI 2 220.00] CKT 2 SINGLE 24 : OPEN LINE FROM BUS 20007 [6QSANI2 220.00] TO BUS 20022 [6GLDAN2 220.00] CKT 1 SINGLE 25 : OPEN LINE FROM BUS 20008 [6TGARD2 220.00] TO BUS 20020 [6LISI 2 220.00] CKT 1 SINGLE 26 : OPEN LINE FROM BUS 20008 [6TGARD2 220.00] TO BUS 20023 [6NAVTL2 220.00] CKT 1 SINGLE 27 : OPEN LINE FROM BUS 20008 [6TGARD2 220.00] TO BUS 20024 [6RUSTA2 220.00] CKT 1 SINGLE 28 : OPEN LINE FROM BUS 20008 [6TGARD2 220.00] TO BUS 20024 [6RUSTA2 220.00] CKT 2 SINGLE 29 : OPEN LINE FROM BUS 20008 [6TGARD2 220.00] TO BUS 20026 [6MARNE2 220.00] CKT 1 SINGLE 30 : OPEN LINE FROM BUS 20009 [6VARDI2 220.00] TO BUS 20010 [6ZUGDI2 220.00] CKT 1 SINGLE 31 : OPEN LINE FROM BUS 20009 [6VARDI2 220.00] TO BUS 20017 [6BATUM2 220.00] CKT 1 SINGLE 33 : OPEN LINE FROM BUS 20010 [6ZUGDI2 220.00] TO BUS 20011 [6MENJI2 220.00] CKT 1 SINGLE 34 : OPEN LINE FROM BUS 20011 [6MENJI2 220.00] TO BUS 20012 [6TSCHA2 220.00] CKT 1 SINGLE 35 : OPEN LINE FROM BUS 20011 [6MENJI2 220.00] TO BUS 20013 [6QUTAI2 220.00] CKT 1 SINGLE 36 : OPEN LINE FROM BUS 20011 [6MENJI2 220.00] TO BUS 20017 [6BATUM2 220.00] CKT 1 SINGLE 37 : OPEN LINE FROM BUS 20012 [6TSCHA2 220.00] TO BUS 20013 [6QUTAI2 220.00] CKT 1 SINGLE 38 : OPEN LINE FROM BUS 20012 [6TSCHA2 220.00] TO BUS 20018 [6LAJAN2 220.00] CKT 1 SINGLE 39 : OPEN LINE FROM BUS 20015 [6KHASH2 220.00] TO BUS 20016 [6GORI 2 220.00] CKT 1 SINGLE 40 : OPEN LINE FROM BUS 20020 [6LISI 2 220.00] TO BUS 20021 [6DIDUB2 220.00] CKT 1 SINGLE 41 : OPEN LINE FROM BUS 20020 [6LISI 2 220.00] TO BUS 20021 [6DIDUB2 220.00] CKT 2 SINGLE 42 : OPEN LINE FROM BUS 20020 [6LISI 2 220.00] TO BUS 20026 [6MARNE2 220.00] CKT 1 SINGLE 43 : OPEN LINE FROM BUS 20022 [6GLDAN2 220.00] TO BUS 20023 [6NAVTL2 220.00] CKT 1 SINGLE 44 : OPEN LINE FROM BUS 20022 [6GLDAN2 220.00] TO BUS 20024 [6RUSTA2 220.00] CKT 1 SINGLE 45 : OPEN LINE FROM BUS 20023 [6NAVTL2 220.00] TO BUS 20025 [6KHRAM2 220.00] CKT 1 SINGLE 46 : OPEN LINE FROM BUS 20024 [6RUSTA2 220.00] TO BUS 20027 [6GURJA2 220.00] CKT 1 SINGLE 47 : OPEN LINE FROM BUS 20030 [6BZYBI21 220.00] TO BUS 20033 [6SOUKH2 220.00] CKT 1
4.6.3. Moldova BLACKSEA REGIONAL MODEL WINTER MAXIMUM LOAD 2010 ACCC OVERLOAD REPORT: MONITORED BRANCHES AND INTERFACES LOADED ABOVE 100.0 % OF RATING SET A CONTINGENCY CASE LOADING NOT CHECKED UNLESS IT DIFFERS FROM ITS BASE CASE LOADING BY 10.0 MVA (MW FOR INTERFACES) CONTINGENCY CASE LOADING NOT CHECKED UNLESS IT EXCEEDS ITS BASE CASE LOADING BY 5.0 PERCENT OF RATING SET A ACCC VOLTAGE REPORT: VOLTAGE BAND CHECK IN CONTINGENCY CASES SKIPPED FOR ANY BUS WITHIN 0.02000 OF ITS BASE CASE VOLTAGE MAGNITUDE AC CONTINGENCY RESULTS FILE: D:\miksa\0\BlackSea\0report\MD\MD.acc DISTRIBUTION FACTOR FILE: D:\miksa\0\BlackSea\0report\MD\MD.dfx SUBSYSTEM DESCRIPTION FILE: D:\miksa\0\BlackSea\0report\MD\MD.sub MONITORED ELEMENT FILE: D:\miksa\0\BlackSea\0report\MD\MD.mon CONTINGENCY DESCRIPTION FILE: D:\miksa\0\BlackSea\0report\MD\MD.con <----------------- MONITORED BRANCH -----------------> CONTINGENCY RATING FLOW % 520*XMD_UA82 330.00 30100 5MREPP8 330.00 1 BASE CASE 120.0 118.8 100.7 520*XMD_UA82 330.00 30100 5MREPP8 330.00 1 SINGLE 3 120.0 235.0 199.4 520*XMD_UA82 330.00 30100 5MREPP8 330.00 1 SINGLE 7 120.0 137.2 116.6 MONITORED VOLTAGE REPORT: SYSTEM CONTINGENCY <-------- B U S --------> V-CONT V-INIT V-MAX V-MIN MD400KV RANGE BASE CASE 32051 5BALTS1 400.00 1.05943 1.05943 1.05000 0.95000 MD330KV RANGE SINGLE 5 33091 5RIBNI82 330.00 0.88663 0.97548 1.10000 0.90900 BLACKSEA REGIONAL MODEL SUMMER MINIMUM LOAD 2010 ACCC OVERLOAD REPORT: MONITORED BRANCHES AND INTERFACES LOADED ABOVE 100.0 % OF RATING SET A CONTINGENCY CASE LOADING NOT CHECKED UNLESS IT DIFFERS FROM ITS BASE CASE LOADING BY 10.0 MVA (MW FOR INTERFACES) CONTINGENCY CASE LOADING NOT CHECKED UNLESS IT EXCEEDS ITS BASE CASE LOADING BY 5.0 PERCENT OF RATING SET A ACCC VOLTAGE REPORT: VOLTAGE BAND CHECK IN CONTINGENCY CASES SKIPPED FOR ANY BUS WITHIN 0.02000 OF ITS BASE CASE VOLTAGE MAGNITUDE AC CONTINGENCY RESULTS FILE: D:\miksa\0\BlackSea\0report\MD\MDSUMMER.acc DISTRIBUTION FACTOR FILE: D:\miksa\0\BlackSea\0report\MD\MD1.dfx SUBSYSTEM DESCRIPTION FILE: D:\miksa\0\BlackSea\0report\MD\MD.sub MONITORED ELEMENT FILE: D:\miksa\0\BlackSea\0report\MD\MD.mon CONTINGENCY DESCRIPTION FILE: D:\miksa\0\BlackSea\0report\MD\MD.con <----------------- MONITORED BRANCH -----------------> CONTINGENCY RATING FLOW % MONITORED VOLTAGE REPORT: SYSTEM CONTINGENCY <-------- B U S --------> V-CONT V-INIT V-MAX V-MIN OWNER 301 RANGE BASE CASE 30120 5MREPP1 400.00 1.05590 1.05590 1.05000 0.95000
4.70
CONTINGENCY LEGEND: LABEL EVENTS SINGLE 1 : OPEN LINE FROM BUS 519 [XMD_UA81 330.00] TO BUS 32049 [5BALTS8 330.00] CKT 1 SINGLE 2 : OPEN LINE FROM BUS 520 [XMD_UA82 330.00] TO BUS 30100 [5MREPP8 330.00] CKT 1 SINGLE 3 : OPEN LINE FROM BUS 521 [XMD_UA83 330.00] TO BUS 30100 [5MREPP8 330.00] CKT 1 SINGLE 4 : OPEN LINE FROM BUS 522 [XMD_UA84 330.00] TO BUS 33035 [5RIBNI81 330.00] CKT 1 SINGLE 5 : OPEN LINE FROM BUS 523 [XMD_UA85 330.00] TO BUS 33091 [5RIBNI82 330.00] CKT 2 SINGLE 6 : OPEN LINE FROM BUS 524 [XMD_UA86 330.00] TO BUS 30100 [5MREPP8 330.00] CKT 1 SINGLE 7 : OPEN LINE FROM BUS 525 [XMD_UA87 330.00] TO BUS 30100 [5MREPP8 330.00] CKT 1 SINGLE 8 : OPEN LINE FROM BUS 601 [XSV_BA11 400.00] TO BUS 32051 [5BALTS1 400.00] CKT 1 SINGLE 9 : OPEN LINE FROM BUS 30100 [5MREPP8 330.00] TO BUS 37043 [5HBK1 81 330.00] CKT 1 SINGLE 10 : OPEN LINE FROM BUS 30100 [5MREPP8 330.00] TO BUS 37044 [5HBK2 82 330.00] CKT 1 SINGLE 11 : OPEN LINE FROM BUS 37041 [5HBK 81 330.00] TO BUS 37042 [5HBK 82 330.00] CKT 1 SINGLE 12 : OPEN LINE FROM BUS 37041 [5HBK 81 330.00] TO BUS 37043 [5HBK1 81 330.00] CKT 1 SINGLE 13 : OPEN LINE FROM BUS 37042 [5HBK 82 330.00] TO BUS 37044 [5HBK2 82 330.00] CKT 1
4.6.4. Romania BLACKSEA REGIONAL MODEL WINTER MAXIMUM LOAD 2010 ACCC OVERLOAD REPORT: MONITORED BRANCHES AND INTERFACES LOADED ABOVE 100.0 % OF RATING SET A CONTINGENCY CASE LOADING NOT CHECKED UNLESS IT DIFFERS FROM ITS BASE CASE LOADING BY 10.0 MVA (MW FOR INTERFACES) CONTINGENCY CASE LOADING NOT CHECKED UNLESS IT EXCEEDS ITS BASE CASE LOADING BY 5.0 PERCENT OF RATING SET A ACCC VOLTAGE REPORT: VOLTAGE BAND CHECK IN CONTINGENCY CASES SKIPPED FOR ANY BUS WITHIN 0.02000 OF ITS BASE CASE VOLTAGE MAGNITUDE AC CONTINGENCY RESULTS FILE: D:\miksa\0\BlackSea\0report\RO\romwin.acc DISTRIBUTION FACTOR FILE: D:\miksa\0\BlackSea\0report\RO\rom.dfx SUBSYSTEM DESCRIPTION FILE: D:\miksa\0\BlackSea\0report\RO\Rom.sub MONITORED ELEMENT FILE: D:\miksa\0\BlackSea\0report\RO\Rom.mon CONTINGENCY DESCRIPTION FILE: D:\miksa\0\BlackSea\0report\RO\Rom.CON <----------------- MONITORED BRANCH -----------------> CONTINGENCY RATING FLOW % 48040*RLOTRU2 220.00 48100 RSIBIU2 220.00 2 SINGLE 6 333.4 518.2 147.2 48040*RLOTRU2 220.00 48100 RSIBIU2 220.00 1 SINGLE 7 333.4 518.2 147.2 48079 RBUC.S2B 220.00 49051*RFUNDE22 220.00 1 SINGLE 14 304.8 340.5 105.0 48079 RBUC.S2B 220.00 49051*RFUNDE22 220.00 1 SINGLE 50 304.8 401.1 122.9 48079 RBUC.S2B 220.00 49051*RFUNDE22 220.00 1 SINGLE 51 304.8 333.4 101.8 48073*RFUNDE21 220.00 48079 RBUC.S2B 220.00 1 SINGLE 59 304.8 330.5 101.1 48904*RBRAZI1 400.00 48905 RBRAZI2A 220.00 1 SINGLE 59 400.0 404.6 101.1 48079 RBUC.S2B 220.00 49051*RFUNDE22 220.00 1 SINGLE 82 304.8 328.9 100.8 48079 RBUC.S2B 220.00 49051*RFUNDE22 220.00 1 SINGLE 86 304.8 329.2 101.0 48079 RBUC.S2B 220.00 49051*RFUNDE22 220.00 1 SINGLE 93 304.8 350.1 107.5 48079 RBUC.S2B 220.00 49051*RFUNDE22 220.00 1 SINGLE 106 304.8 366.9 112.5 MONITORED VOLTAGE REPORT: SYSTEM CONTINGENCY <-------- B U S --------> V-CONT V-INIT V-MAX V-MIN '4-220 ' RANGE BASE CASE 48012 RGUTIN22 220.00 1.12869 1.12869 1.10000 0.90000 '4-220 ' RANGE BASE CASE 48023 RFOCSA2 220.00 1.11161 1.11161 1.10000 0.90000 '4-220 ' RANGE BASE CASE 48041 RAREF 2 220.00 1.10623 1.10623 1.10000 0.90000 '4-220 ' RANGE BASE CASE 48042 RRIURE2 220.00 1.10862 1.10862 1.10000 0.90000 '4-220 ' RANGE BASE CASE 48043 RSTUPA2 220.00 1.10767 1.10767 1.10000 0.90000 '4-220 ' RANGE BASE CASE 48074 RL.SAR2 220.00 1.11838 1.11838 1.10000 0.90000 '4-220 ' RANGE BASE CASE 48075 RFILES2 220.00 1.11376 1.11376 1.10000 0.90000 '4-220 ' RANGE BASE CASE 48076 RBARBO2 220.00 1.11336 1.11336 1.10000 0.90000 '4-220 ' RANGE BASE CASE 48077 RGUTIN21 220.00 1.12481 1.12481 1.10000 0.90000 '4-220 ' RANGE BASE CASE 48078 RDUMBR2 220.00 1.10691 1.10691 1.10000 0.90000 '4-220 ' RANGE BASE CASE 48080 RMUNTE2 220.00 1.12638 1.12638 1.10000 0.90000 '4-220 ' RANGE BASE CASE 48081 RFAI 2 220.00 1.13089 1.13089 1.10000 0.90000 '4-220 ' RANGE BASE CASE 48082 RSUCEA2 220.00 1.12670 1.12670 1.10000 0.90000 '4-220 ' RANGE BASE CASE 48083 RSTEJA2 220.00 1.10119 1.10119 1.10000 0.90000 '4-400 ' RANGE BASE CASE 48010 RDOMNE1 400.00 1.05592 1.05592 1.05000 0.95000 '4-400 ' RANGE BASE CASE 48011 RBUC.S1 400.00 1.05531 1.05531 1.05000 0.95000 '4-400 ' RANGE BASE CASE 48014 RSUCEA1 400.00 1.06569 1.06569 1.05000 0.95000 '4-400 ' RANGE BASE CASE 48015 RPELIC1 400.00 1.06184 1.06184 1.05000 0.95000 '4-400 ' RANGE BASE CASE 48016 RG.IAL1 400.00 1.06467 1.06467 1.05000 0.95000 '4-400 ' RANGE BASE CASE 48017 RCONST1 400.00 1.06214 1.06214 1.05000 0.95000 '4-400 ' RANGE BASE CASE 48019 RTULCE1 400.00 1.06398 1.06398 1.05000 0.95000 '4-400 ' RANGE BASE CASE 48020 RISACC1 400.00 1.06815 1.06815 1.05000 0.95000 '4-400 ' RANGE BASE CASE 48021 RL.SAR1 400.00 1.06742 1.06742 1.05000 0.95000 '4-400 ' RANGE BASE CASE 48022 RSMIRD1 400.00 1.06950 1.06950 1.05000 0.95000 '4-400 ' RANGE BASE CASE 48024 RGUTIN1 400.00 1.07301 1.07301 1.05000 0.95000 '4-400 ' RANGE BASE CASE 48025 RBACAU2 400.00 1.07234 1.07234 1.05000 0.95000 '4-400 ' RANGE BASE CASE 48031 RBRASO1 400.00 1.06148 1.06148 1.05000 0.95000 '4-400 ' RANGE BASE CASE 48032 RDIRST1 400.00 1.06081 1.06081 1.05000 0.95000 '4-400 ' RANGE BASE CASE 48034 RSIBIU1 400.00 1.05520 1.05520 1.05000 0.95000 '4-400 ' RANGE BASE CASE 48036 RIERNU1 400.00 1.06208 1.06208 1.05000 0.95000 '4-400 ' RANGE BASE CASE 48037 RGADAL1 400.00 1.05922 1.05922 1.05000 0.95000 '4-400 ' RANGE BASE CASE 48038 RCLUJ 1 400.00 1.05582 1.05582 1.05000 0.95000 '4-400 ' RANGE BASE CASE 48904 RBRAZI1 400.00 1.05321 1.05321 1.05000 0.95000 '4-400 ' RANGE BASE CASE 48950 RROMAN2 400.00 1.07069 1.07069 1.05000 0.95000
4.71
'4-400 ' RANGE BASE CASE 48973 RCERNA1 400.00 1.06228 1.06228 1.05000 0.95000 '4-400 ' RANGE BASE CASE 48974 RMEDGI1 400.00 1.06138 1.06138 1.05000 0.95000 '4-110 ' RANGE SINGLE 14 48409 RCOMAR5 110.00 0.89945 0.95923 1.12000 0.90000 '4-110 ' RANGE SINGLE 79 48349 RDRAGO5 110.00 0.80751 1.01870 1.12000 0.90000 '4-110 ' RANGE SINGLE 79 48350 RVLAD 5 110.00 0.76636 1.01544 1.12000 0.90000 '4-110 ' RANGE SINGLE 79 48351 RDOR M5 110.00 0.72270 1.01488 1.12000 0.90000 '4-110 ' RANGE SINGLE 79 48352 RLEHLI5 110.00 0.67992 1.01670 1.12000 0.90000 '4-110 ' RANGE SINGLE 79 48353 RTAMAD5 110.00 0.67237 1.01181 1.12000 0.90000 '4-110 ' RANGE SINGLE 79 48354 RMOSTI5 110.00 0.67125 1.02255 1.12000 0.90000 '4-110 ' RANGE SINGLE 79 48355 RCIORN5 110.00 0.66474 1.01871 1.12000 0.90000 '4-110 ' RANGE SINGLE 79 48356 ROLTEN5 110.00 0.65888 1.01503 1.12000 0.90000 '4-220 ' RANGE SINGLE 79 48855 RMOSTI2 220.00 0.70585 1.08338 1.10000 0.90000 '4-110 ' RANGE SINGLE 86 48309 RPOGOA5 110.00 0.89284 1.01406 1.12000 0.90000 '4-110 ' RANGE SINGLE 86 48310 RBUZAU5S 110.00 0.89715 1.01773 1.12000 0.90000 '4-110 ' RANGE SINGLE 86 48311 RBUZAU5E 110.00 0.89739 1.01749 1.12000 0.90000 '4-110 ' RANGE SINGLE 86 48312 RM.PLA51 110.00 0.89981 1.01868 1.12000 0.90000 '4-110 ' RANGE SINGLE 86 48313 RM.PLA52 110.00 0.89974 1.01863 1.12000 0.90000 '4-110 ' RANGE SINGLE 86 48315 RRM.SA5 110.00 0.89681 1.01861 1.12000 0.90000 '4-110 ' RANGE SINGLE 86 48318 RBUZAU5C 110.00 0.89941 1.01873 1.12000 0.90000 '4-110 ' RANGE SINGLE 86 48926 RCONTA5 110.00 0.89769 1.01740 1.12000 0.90000 '4-110 ' RANGE SINGLE 133 48463 RLECHI5 110.00 0.83745 0.91071 1.12000 0.90000 '4-110 ' RANGE SINGLE 133 48464 RSARAT5 110.00 0.83912 0.91221 1.12000 0.90000 '4-110 ' RANGE SINGLE 133 48465 RVIISO51 110.00 0.84067 0.91355 1.12000 0.90000 '4-110 ' RANGE SINGLE 133 48466 RBISTR5 110.00 0.83541 0.90862 1.12000 0.90000 '4-110 ' RANGE SINGLE 133 48467 RNASAU5 110.00 0.84010 0.91254 1.12000 0.90000 '4-110 ' RANGE SINGLE 133 48468 RDEJ 5 110.00 0.86900 0.93785 1.12000 0.90000 '4-110 ' RANGE SINGLE 133 48469 RBECLE5 110.00 0.85383 0.92619 1.12000 0.90000 '4-110 ' RANGE SINGLE 133 48470 RCELUL5 110.00 0.86060 0.93253 1.12000 0.90000 '4-110 ' RANGE SINGLE 133 48471 RCOLDA5 110.00 0.85635 0.92709 1.12000 0.90000 '4-110 ' RANGE SINGLE 133 48505 RBUNES5 110.00 0.87559 0.95096 1.12000 0.90000 '4-110 ' RANGE SINGLE 133 48506 RTAGA 5 110.00 0.87665 0.95082 1.12000 0.90000 '4-110 ' RANGE SINGLE 133 48507 RJUCU 5 110.00 0.89812 0.97853 1.12000 0.90000 '4-110 ' RANGE SINGLE 133 48508 RAPAHI5 110.00 0.89737 0.97784 1.12000 0.90000 '4-110 ' RANGE SINGLE 133 48519 RTURDA5 110.00 0.89824 0.96690 1.12000 0.90000 '4-110 ' RANGE SINGLE 133 48520 RMIHAI52 110.00 0.89633 0.96546 1.12000 0.90000 '4-110 ' RANGE SINGLE 133 48521 RC.TUR5 110.00 0.89297 0.96308 1.12000 0.90000 '4-110 ' RANGE SINGLE 133 48522 RPOIAN5 110.00 0.89647 0.96660 1.12000 0.90000 '4-110 ' RANGE SINGLE 133 48523 RIERNU51 110.00 0.89826 0.96844 1.12000 0.90000 '4-110 ' RANGE SINGLE 133 48525 RCALAR52 110.00 0.89304 0.96316 1.12000 0.90000 '4-110 ' RANGE SINGLE 133 48526 RLUDUS5 110.00 0.89465 0.96496 1.12000 0.90000 '4-110 ' RANGE SINGLE 133 48863 RGHERL5 110.00 0.88451 0.96208 1.12000 0.90000 '4-400 ' RANGE SINGLE 133 48038 RCLUJ 1 400.00 0.91652 1.05582 1.05000 0.95000 BLACKSEA REGIONAL MODEL SUMMER MINIMUM LOAD 2010 ACCC OVERLOAD REPORT: MONITORED BRANCHES AND INTERFACES LOADED ABOVE 100.0 % OF RATING SET A CONTINGENCY CASE LOADING NOT CHECKED UNLESS IT DIFFERS FROM ITS BASE CASE LOADING BY 10.0 MVA (MW FOR INTERFACES) CONTINGENCY CASE LOADING NOT CHECKED UNLESS IT EXCEEDS ITS BASE CASE LOADING BY 5.0 PERCENT OF RATING SET A ACCC VOLTAGE REPORT: VOLTAGE BAND CHECK IN CONTINGENCY CASES SKIPPED FOR ANY BUS WITHIN 0.02000 OF ITS BASE CASE VOLTAGE MAGNITUDE AC CONTINGENCY RESULTS FILE: D:\miksa\0\BlackSea\0report\RO\romsum.acc DISTRIBUTION FACTOR FILE: D:\miksa\0\BlackSea\0report\RO\rom.dfx SUBSYSTEM DESCRIPTION FILE: D:\miksa\0\BlackSea\0report\RO\Rom.sub MONITORED ELEMENT FILE: D:\miksa\0\BlackSea\0report\RO\Rom.mon CONTINGENCY DESCRIPTION FILE: D:\miksa\0\BlackSea\0report\RO\Rom.CON <----------------- MONITORED BRANCH -----------------> CONTINGENCY RATING FLOW % 48001*RTANTA1 400.00 49113 RTURCEG4 24.000 1 GENMAX 400.0 1001.7 250.4 MONITORED VOLTAGE REPORT: SYSTEM CONTINGENCY <-------- B U S --------> V-CONT V-INIT V-MAX V-MIN '4-220 ' RANGE BASE CASE 48080 RMUNTE2 220.00 1.10185 1.10185 1.10000 0.90000 '4-220 ' RANGE BASE CASE 48081 RFAI 2 220.00 1.10144 1.10144 1.10000 0.90000 CONTINGENCY LEGEND: LABEL EVENTS INT-21 : OPEN LINE FROM BUS 21 [XDO_IS11 400.00] TO BUS 12461 [VDOBRU1 400.00] CKT 1 OPEN LINE FROM BUS 21 [XDO_IS11 400.00] TO BUS 48020 [RISACC1 400.00] CKT 1 INT-22 : OPEN LINE FROM BUS 22 [XKO_TI11 400.00] TO BUS 12440 [VAEC_41 400.00] CKT 1 OPEN LINE FROM BUS 22 [XKO_TI11 400.00] TO BUS 48001 [RTANTA1 400.00] CKT 1 INT-23 : OPEN LINE FROM BUS 23 [XKO_TI12 400.00] TO BUS 12440 [VAEC_41 400.00] CKT 1 OPEN LINE FROM BUS 23 [XKO_TI12 400.00] TO BUS 48001 [RTANTA1 400.00] CKT 2 INT-75 : OPEN LINE FROM BUS 75 [XSA_AR11 400.00] TO BUS 48008 [RARAD 1 400.00] CKT 1 OPEN LINE FROM BUS 75 [XSA_AR11 400.00] TO BUS 80160 [MSAFA 1 400.00] CKT 1 INT-84 : OPEN LINE FROM BUS 84 [XRO_MU11 400.00] TO BUS 48039 [RROSIO1 400.00] CKT 1 OPEN LINE FROM BUS 84 [XRO_MU11 400.00] TO BUS 70919 [UMUKAC11 400.00] CKT 1 INT-85 : OPEN LINE FROM BUS 85 [XPF_DJ11 400.00] TO BUS 48004 [RP.D.F1 400.00] CKT 1 OPEN LINE FROM BUS 85 [XPF_DJ11 400.00] TO BUS 80102 [JHDJE11 400.00] CKT 1 INT-181 : OPEN LINE FROM BUS 181 [XVA_IS11 400.00] TO BUS 12460 [VVARNA1 400.00] CKT 1 OPEN LINE FROM BUS 181 [XVA_IS11 400.00] TO BUS 48020 [RISACC1 400.00] CKT 1 INT-219 : OPEN LINE FROM BUS 219 [XBE_OR11 400.00] TO BUS 48009 [RNADAB1 400.00] CKT 1 OPEN LINE FROM BUS 219 [XBE_OR11 400.00] TO BUS 80152 [MBEKO 1 400.00] CKT 1 INT-601 : OPEN LINE FROM BUS 601 [XSV_BA11 400.00] TO BUS 32051 [5BALTS1 400.00] CKT 1
4.72
OPEN LINE FROM BUS 601 [XSV_BA11 400.00] TO BUS 48014 [RSUCEA1 400.00] CKT 1 INT-602 : OPEN LINE FROM BUS 602 [XVK_IS11 400.00] TO BUS 36046 [5VULKA1 400.00] CKT 1 OPEN LINE FROM BUS 602 [XVK_IS11 400.00] TO BUS 48020 [RISACC1 400.00] CKT 1 GENMAX : OPEN LINE FROM BUS 49218 [RCERNAG1 24.000] TO BUS 48973 [RCERNA1 400.00] CKT 1 OPEN LINE FROM BUS 49218 [RCERNAG1 24.000] TO BUS 48973 [RCERNA1 400.00] CKT 2 SINGLE 1 : OPEN LINE FROM BUS 48005 [RP.D.F22 220.00] TO BUS 48050 [RCETAT2 220.00] CKT 1 SINGLE 2 : OPEN LINE FROM BUS 48005 [RP.D.F22 220.00] TO BUS 48050 [RCETAT2 220.00] CKT 2 SINGLE 3 : OPEN LINE FROM BUS 48012 [RGUTIN22 220.00] TO BUS 48080 [RMUNTE2 220.00] CKT 1 SINGLE 4 : OPEN LINE FROM BUS 48023 [RFOCSA2 220.00] TO BUS 48076 [RBARBO2 220.00] CKT 1 SINGLE 5 : OPEN LINE FROM BUS 48023 [RFOCSA2 220.00] TO BUS 48077 [RGUTIN21 220.00] CKT 1 SINGLE 6 : OPEN LINE FROM BUS 48040 [RLOTRU2 220.00] TO BUS 48100 [RSIBIU2 220.00] CKT 1 SINGLE 7 : OPEN LINE FROM BUS 48040 [RLOTRU2 220.00] TO BUS 48100 [RSIBIU2 220.00] CKT 2 SINGLE 8 : OPEN LINE FROM BUS 48041 [RAREF 2 220.00] TO BUS 48042 [RRIURE2 220.00] CKT 1 SINGLE 9 : OPEN LINE FROM BUS 48041 [RAREF 2 220.00] TO BUS 48044 [RBRADU2 220.00] CKT 1 SINGLE 10 : OPEN LINE FROM BUS 48042 [RRIURE2 220.00] TO BUS 48043 [RSTUPA2 220.00] CKT 1 SINGLE 11 : OPEN LINE FROM BUS 48043 [RSTUPA2 220.00] TO BUS 48044 [RBRADU2 220.00] CKT 1 SINGLE 12 : OPEN LINE FROM BUS 48044 [RBRADU2 220.00] TO BUS 48900 [RPIT S2 220.00] CKT 1 SINGLE 13 : OPEN LINE FROM BUS 48044 [RBRADU2 220.00] TO BUS 48910 [RTIRGO22 220.00] CKT 1 SINGLE 14 : OPEN LINE FROM BUS 48044 [RBRADU2 220.00] TO BUS 48911 [RTIRGO21 220.00] CKT 1 SINGLE 15 : OPEN LINE FROM BUS 48045 [RURECH2 220.00] TO BUS 48061 [RSARDA2 220.00] CKT 1 SINGLE 16 : OPEN LINE FROM BUS 48045 [RURECH2 220.00] TO BUS 48062 [RTG.JI2 220.00] CKT 1 SINGLE 17 : OPEN LINE FROM BUS 48046 [RP.D.F2B 220.00] TO BUS 48047 [RP.D.F2A 220.00] CKT 1 SINGLE 18 : OPEN LINE FROM BUS 48047 [RP.D.F2A 220.00] TO BUS 48048 [RTR.SE21 220.00] CKT 1 SINGLE 19 : OPEN LINE FROM BUS 48047 [RP.D.F2A 220.00] TO BUS 48049 [RTR.SE22 220.00] CKT 1 SINGLE 20 : OPEN LINE FROM BUS 48047 [RP.D.F2A 220.00] TO BUS 48050 [RCETAT2 220.00] CKT 1 SINGLE 21 : OPEN LINE FROM BUS 48047 [RP.D.F2A 220.00] TO BUS 48050 [RCETAT2 220.00] CKT 2 SINGLE 22 : OPEN LINE FROM BUS 48047 [RP.D.F2A 220.00] TO BUS 48052 [RRESIT2 220.00] CKT 1 SINGLE 23 : OPEN LINE FROM BUS 48047 [RP.D.F2A 220.00] TO BUS 48052 [RRESIT2 220.00] CKT 2 SINGLE 24 : OPEN LINE FROM BUS 48052 [RRESIT2 220.00] TO BUS 48053 [RIAZ 22 220.00] CKT 1 SINGLE 25 : OPEN LINE FROM BUS 48052 [RRESIT2 220.00] TO BUS 48054 [RIAZ 21 220.00] CKT 1 SINGLE 26 : OPEN LINE FROM BUS 48052 [RRESIT2 220.00] TO BUS 48071 [RTIMIS2 220.00] CKT 1 SINGLE 27 : OPEN LINE FROM BUS 48052 [RRESIT2 220.00] TO BUS 48071 [RTIMIS2 220.00] CKT 2 SINGLE 28 : OPEN LINE FROM BUS 48055 [RSLATI2 220.00] TO BUS 48056 [RGRADI2 220.00] CKT 1 SINGLE 29 : OPEN LINE FROM BUS 48055 [RSLATI2 220.00] TO BUS 48057 [RCRAIO2A 220.00] CKT 1 SINGLE 30 : OPEN LINE FROM BUS 48055 [RSLATI2 220.00] TO BUS 48058 [RCRAIO2B 220.00] CKT 1 SINGLE 31 : OPEN LINE FROM BUS 48055 [RSLATI2 220.00] TO BUS 48060 [RISALN2A 220.00] CKT 1 SINGLE 32 : OPEN LINE FROM BUS 48056 [RGRADI2 220.00] TO BUS 48060 [RISALN2A 220.00] CKT 1 SINGLE 33 : OPEN LINE FROM BUS 48057 [RCRAIO2A 220.00] TO BUS 48060 [RISALN2A 220.00] CKT 1 SINGLE 34 : OPEN LINE FROM BUS 48057 [RCRAIO2A 220.00] TO BUS 48902 [RT.MAG2 220.00] CKT 1 SINGLE 35 : OPEN LINE FROM BUS 48058 [RCRAIO2B 220.00] TO BUS 48060 [RISALN2A 220.00] CKT 1 SINGLE 36 : OPEN LINE FROM BUS 48058 [RCRAIO2B 220.00] TO BUS 48061 [RSARDA2 220.00] CKT 1 SINGLE 37 : OPEN LINE FROM BUS 48062 [RTG.JI2 220.00] TO BUS 48063 [RPAROS2 220.00] CKT 1 SINGLE 38 : OPEN LINE FROM BUS 48063 [RPAROS2 220.00] TO BUS 48064 [RBARU 2 220.00] CKT 1 SINGLE 39 : OPEN LINE FROM BUS 48064 [RBARU 2 220.00] TO BUS 48065 [RHAJD 2 220.00] CKT 1 SINGLE 40 : OPEN LINE FROM BUS 48065 [RHAJD 2 220.00] TO BUS 48066 [RPESTI2 220.00] CKT 1 SINGLE 41 : OPEN LINE FROM BUS 48065 [RHAJD 2 220.00] TO BUS 48068 [RMINTI2B 220.00] CKT 1 SINGLE 42 : OPEN LINE FROM BUS 48065 [RHAJD 2 220.00] TO BUS 48914 [RR.MAR2 220.00] CKT 1 SINGLE 43 : OPEN LINE FROM BUS 48066 [RPESTI2 220.00] TO BUS 48067 [RMINTI2A 220.00] CKT 1 SINGLE 44 : OPEN LINE FROM BUS 48066 [RPESTI2 220.00] TO BUS 48068 [RMINTI2B 220.00] CKT 1 SINGLE 45 : OPEN LINE FROM BUS 48067 [RMINTI2A 220.00] TO BUS 48071 [RTIMIS2 220.00] CKT 1 SINGLE 46 : OPEN LINE FROM BUS 48068 [RMINTI2B 220.00] TO BUS 48097 [RAL.JL2 220.00] CKT 1 SINGLE 47 : OPEN LINE FROM BUS 48069 [RARAD 2 220.00] TO BUS 48070 [RSACAL2 220.00] CKT 1 SINGLE 48 : OPEN LINE FROM BUS 48069 [RARAD 2 220.00] TO BUS 48071 [RTIMIS2 220.00] CKT 1 SINGLE 49 : OPEN LINE FROM BUS 48070 [RSACAL2 220.00] TO BUS 48071 [RTIMIS2 220.00] CKT 1 SINGLE 50 : OPEN LINE FROM BUS 48073 [RFUNDE21 220.00] TO BUS 48079 [RBUC.S2B 220.00] CKT 1 SINGLE 51 : OPEN LINE FROM BUS 48073 [RFUNDE21 220.00] TO BUS 48905 [RBRAZI2A 220.00] CKT 1 SINGLE 52 : OPEN LINE FROM BUS 48074 [RL.SAR2 220.00] TO BUS 48075 [RFILES2 220.00] CKT 1 SINGLE 53 : OPEN LINE FROM BUS 48075 [RFILES2 220.00] TO BUS 48076 [RBARBO2 220.00] CKT 1 SINGLE 54 : OPEN LINE FROM BUS 48077 [RGUTIN21 220.00] TO BUS 48078 [RDUMBR2 220.00] CKT 1 SINGLE 55 : OPEN LINE FROM BUS 48077 [RGUTIN21 220.00] TO BUS 48081 [RFAI 2 220.00] CKT 1 SINGLE 56 : OPEN LINE FROM BUS 48078 [RDUMBR2 220.00] TO BUS 48083 [RSTEJA2 220.00] CKT 1 SINGLE 57 : OPEN LINE FROM BUS 48079 [RBUC.S2B 220.00] TO BUS 48901 [RGHIZD2 220.00] CKT 1 SINGLE 58 : OPEN LINE FROM BUS 48079 [RBUC.S2B 220.00] TO BUS 48935 [RRAC.M2 220.00] CKT 1 SINGLE 59 : OPEN LINE FROM BUS 48079 [RBUC.S2B 220.00] TO BUS 49051 [RFUNDE22 220.00] CKT 1 SINGLE 60 : OPEN LINE FROM BUS 48080 [RMUNTE2 220.00] TO BUS 48081 [RFAI 2 220.00] CKT 1 SINGLE 61 : OPEN LINE FROM BUS 48081 [RFAI 2 220.00] TO BUS 48082 [RSUCEA2 220.00] CKT 1 SINGLE 62 : OPEN LINE FROM BUS 48083 [RSTEJA2 220.00] TO BUS 48084 [RGHEOR2 220.00] CKT 1 SINGLE 63 : OPEN LINE FROM BUS 48084 [RGHEOR2 220.00] TO BUS 48085 [RFINTI2 220.00] CKT 1 SINGLE 64 : OPEN LINE FROM BUS 48085 [RFINTI2 220.00] TO BUS 48086 [RUNGHE2 220.00] CKT 1 SINGLE 65 : OPEN LINE FROM BUS 48086 [RUNGHE2 220.00] TO BUS 48087 [RIERNU2 220.00] CKT 1 SINGLE 66 : OPEN LINE FROM BUS 48086 [RUNGHE2 220.00] TO BUS 48087 [RIERNU2 220.00] CKT 2 SINGLE 67 : OPEN LINE FROM BUS 48087 [RIERNU2 220.00] TO BUS 48088 [RCUPT.2 220.00] CKT 1 SINGLE 68 : OPEN LINE FROM BUS 48087 [RIERNU2 220.00] TO BUS 48093 [RBAIA 2 220.00] CKT 1 SINGLE 69 : OPEN LINE FROM BUS 48088 [RCUPT.2 220.00] TO BUS 48089 [RCLUJ 2 220.00] CKT 1 SINGLE 70 : OPEN LINE FROM BUS 48089 [RCLUJ 2 220.00] TO BUS 48090 [RMARIS2 220.00] CKT 1 SINGLE 71 : OPEN LINE FROM BUS 48089 [RCLUJ 2 220.00] TO BUS 48091 [RTIHAU2 220.00] CKT 1 SINGLE 72 : OPEN LINE FROM BUS 48089 [RCLUJ 2 220.00] TO BUS 48097 [RAL.JL2 220.00] CKT 1 SINGLE 73 : OPEN LINE FROM BUS 48091 [RTIHAU2 220.00] TO BUS 48093 [RBAIA 2 220.00] CKT 1 SINGLE 74 : OPEN LINE FROM BUS 48093 [RBAIA 2 220.00] TO BUS 48094 [RROSIO2 220.00] CKT 1 SINGLE 75 : OPEN LINE FROM BUS 48093 [RBAIA 2 220.00] TO BUS 48094 [RROSIO2 220.00] CKT 2 SINGLE 76 : OPEN LINE FROM BUS 48094 [RROSIO2 220.00] TO BUS 48095 [RVETIS2 220.00] CKT 1 SINGLE 77 : OPEN LINE FROM BUS 48097 [RAL.JL2 220.00] TO BUS 48098 [RSUGAG2 220.00] CKT 1 SINGLE 78 : OPEN LINE FROM BUS 48097 [RAL.JL2 220.00] TO BUS 48099 [RGILCE2 220.00] CKT 1 SINGLE 79 : OPEN LINE FROM BUS 48855 [RMOSTI2 220.00] TO BUS 48935 [RRAC.M2 220.00] CKT 1 SINGLE 80 : OPEN LINE FROM BUS 48901 [RGHIZD2 220.00] TO BUS 48902 [RT.MAG2 220.00] CKT 1 SINGLE 81 : OPEN LINE FROM BUS 48901 [RGHIZD2 220.00] TO BUS 48935 [RRAC.M2 220.00] CKT 1 SINGLE 82 : OPEN LINE FROM BUS 48905 [RBRAZI2A 220.00] TO BUS 48906 [RTELEA2 220.00] CKT 1
4.73
SINGLE 83 : OPEN LINE FROM BUS 48905 [RBRAZI2A 220.00] TO BUS 48910 [RTIRGO22 220.00] CKT 1 SINGLE 84 : OPEN LINE FROM BUS 48905 [RBRAZI2A 220.00] TO BUS 48911 [RTIRGO21 220.00] CKT 1 SINGLE 85 : OPEN LINE FROM BUS 48905 [RBRAZI2A 220.00] TO BUS 49051 [RFUNDE22 220.00] CKT 1 SINGLE 86 : OPEN LINE FROM BUS 48906 [RTELEA2 220.00] TO BUS 48907 [RSTILP2 220.00] CKT 1 SINGLE 87 : OPEN LINE FROM BUS 75 [XSA_AR11 400.00] TO BUS 48008 [RARAD 1 400.00] CKT 1 SINGLE 88 : OPEN LINE FROM BUS 84 [XRO_MU11 400.00] TO BUS 48039 [RROSIO1 400.00] CKT 1 SINGLE 89 : OPEN LINE FROM BUS 85 [XPF_DJ11 400.00] TO BUS 48004 [RP.D.F1 400.00] CKT 1 SINGLE 90 : OPEN LINE FROM BUS 219 [XBE_OR11 400.00] TO BUS 48009 [RNADAB1 400.00] CKT 1 SINGLE 91 : OPEN LINE FROM BUS 48001 [RTANTA1 400.00] TO BUS 48002 [RURECH1 400.00] CKT 1 SINGLE 92 : OPEN LINE FROM BUS 48001 [RTANTA1 400.00] TO BUS 48007 [RSLATI1 400.00] CKT 1 SINGLE 93 : OPEN LINE FROM BUS 48001 [RTANTA1 400.00] TO BUS 48033 [RBRADU1 400.00] CKT 1 SINGLE 94 : OPEN LINE FROM BUS 48001 [RTANTA1 400.00] TO BUS 48034 [RSIBIU1 400.00] CKT 1 SINGLE 95 : OPEN LINE FROM BUS 48002 [RURECH1 400.00] TO BUS 48004 [RP.D.F1 400.00] CKT 1 SINGLE 96 : OPEN LINE FROM BUS 48002 [RURECH1 400.00] TO BUS 48010 [RDOMNE1 400.00] CKT 1 SINGLE 97 : OPEN LINE FROM BUS 48003 [RMINTI1 400.00] TO BUS 48008 [RARAD 1 400.00] CKT 1 SINGLE 98 : OPEN LINE FROM BUS 48003 [RMINTI1 400.00] TO BUS 48034 [RSIBIU1 400.00] CKT 1 SINGLE 99 : OPEN LINE FROM BUS 48004 [RP.D.F1 400.00] TO BUS 48007 [RSLATI1 400.00] CKT 1 SINGLE 100 : OPEN LINE FROM BUS 48004 [RP.D.F1 400.00] TO BUS 48018 [RRESIT1 400.00] CKT 1 SINGLE 101 : OPEN LINE FROM BUS 48006 [RDRAGA1 400.00] TO BUS 48007 [RSLATI1 400.00] CKT 1 SINGLE 102 : OPEN LINE FROM BUS 48007 [RSLATI1 400.00] TO BUS 48011 [RBUC.S1 400.00] CKT 1 SINGLE 103 : OPEN LINE FROM BUS 48008 [RARAD 1 400.00] TO BUS 48009 [RNADAB1 400.00] CKT 1 SINGLE 104 : OPEN LINE FROM BUS 48009 [RNADAB1 400.00] TO BUS 48096 [RORADE1 400.00] CKT 1 SINGLE 105 : OPEN LINE FROM BUS 48010 [RDOMNE1 400.00] TO BUS 48011 [RBUC.S1 400.00] CKT 1 SINGLE 106 : OPEN LINE FROM BUS 48010 [RDOMNE1 400.00] TO BUS 48904 [RBRAZI1 400.00] CKT 1 SINGLE 107 : OPEN LINE FROM BUS 48011 [RBUC.S1 400.00] TO BUS 48015 [RPELIC1 400.00] CKT 1 SINGLE 108 : OPEN LINE FROM BUS 48011 [RBUC.S1 400.00] TO BUS 48016 [RG.IAL1 400.00] CKT 1 SINGLE 109 : OPEN LINE FROM BUS 48014 [RSUCEA1 400.00] TO BUS 48037 [RGADAL1 400.00] CKT 1 SINGLE 110 : OPEN LINE FROM BUS 48014 [RSUCEA1 400.00] TO BUS 48950 [RROMAN2 400.00] CKT 1 SINGLE 111 : OPEN LINE FROM BUS 48015 [RPELIC1 400.00] TO BUS 48973 [RCERNA1 400.00] CKT 1 SINGLE 112 : OPEN LINE FROM BUS 48016 [RG.IAL1 400.00] TO BUS 48021 [RL.SAR1 400.00] CKT 1 SINGLE 113 : OPEN LINE FROM BUS 48016 [RG.IAL1 400.00] TO BUS 48973 [RCERNA1 400.00] CKT 1 SINGLE 114 : OPEN LINE FROM BUS 48016 [RG.IAL1 400.00] TO BUS 48973 [RCERNA1 400.00] CKT 2 SINGLE 115 : OPEN LINE FROM BUS 48017 [RCONST1 400.00] TO BUS 48019 [RTULCE1 400.00] CKT 1 SINGLE 116 : OPEN LINE FROM BUS 48017 [RCONST1 400.00] TO BUS 48973 [RCERNA1 400.00] CKT 1 SINGLE 117 : OPEN LINE FROM BUS 48017 [RCONST1 400.00] TO BUS 48974 [RMEDGI1 400.00] CKT 1 SINGLE 118 : OPEN LINE FROM BUS 48019 [RTULCE1 400.00] TO BUS 48020 [RISACC1 400.00] CKT 1 SINGLE 119 : OPEN LINE FROM BUS 48020 [RISACC1 400.00] TO BUS 48021 [RL.SAR1 400.00] CKT 1 SINGLE 120 : OPEN LINE FROM BUS 48020 [RISACC1 400.00] TO BUS 48022 [RSMIRD1 400.00] CKT 1 SINGLE 121 : OPEN LINE FROM BUS 48020 [RISACC1 400.00] TO BUS 48022 [RSMIRD1 400.00] CKT 2 SINGLE 122 : OPEN LINE FROM BUS 48021 [RL.SAR1 400.00] TO BUS 48022 [RSMIRD1 400.00] CKT 1 SINGLE 123 : OPEN LINE FROM BUS 48022 [RSMIRD1 400.00] TO BUS 48024 [RGUTIN1 400.00] CKT 1 SINGLE 124 : OPEN LINE FROM BUS 48024 [RGUTIN1 400.00] TO BUS 48025 [RBACAU2 400.00] CKT 1 SINGLE 125 : OPEN LINE FROM BUS 48024 [RGUTIN1 400.00] TO BUS 48031 [RBRASO1 400.00] CKT 1 SINGLE 126 : OPEN LINE FROM BUS 48025 [RBACAU2 400.00] TO BUS 48950 [RROMAN2 400.00] CKT 1 SINGLE 127 : OPEN LINE FROM BUS 48031 [RBRASO1 400.00] TO BUS 48032 [RDIRST1 400.00] CKT 1 SINGLE 128 : OPEN LINE FROM BUS 48031 [RBRASO1 400.00] TO BUS 48033 [RBRADU1 400.00] CKT 1 SINGLE 129 : OPEN LINE FROM BUS 48031 [RBRASO1 400.00] TO BUS 48034 [RSIBIU1 400.00] CKT 1 SINGLE 130 : OPEN LINE FROM BUS 48032 [RDIRST1 400.00] TO BUS 48904 [RBRAZI1 400.00] CKT 1 SINGLE 131 : OPEN LINE FROM BUS 48034 [RSIBIU1 400.00] TO BUS 48036 [RIERNU1 400.00] CKT 1 SINGLE 132 : OPEN LINE FROM BUS 48036 [RIERNU1 400.00] TO BUS 48037 [RGADAL1 400.00] CKT 1 SINGLE 133 : OPEN LINE FROM BUS 48037 [RGADAL1 400.00] TO BUS 48038 [RCLUJ 1 400.00] CKT 1 SINGLE 134 : OPEN LINE FROM BUS 48037 [RGADAL1 400.00] TO BUS 48039 [RROSIO1 400.00] CKT 1 SINGLE 135 : OPEN LINE FROM BUS 48039 [RROSIO1 400.00] TO BUS 48096 [RORADE1 400.00] CKT 1 SINGLE 136 : OPEN LINE FROM BUS 48973 [RCERNA1 400.00] TO BUS 48974 [RMEDGI1 400.00] CKT 1
All overloadings in Romanian network can be resolved with adequate operational activities (switching on shunts or change of topology by splitting busburs or redistribution of local load) and they are not related to interconnected operation of the system but local problems, like in case of tripping 220 kV line from Lotru-Sibiu second line is overloaded because over these two lines production of HPP Lotru is placed in the network. Reduction of production in Lotru is necessary.
4.6.5. Russia BLACKSEA REGIONAL MODEL WINTER MAXIMUM LOAD 2010 <----------------- MONITORED BRANCH -----------------> CONTINGENCY RATING FLOW % 58370*4BUDEN9 500.00 58371 4BUDEN8 330.00 2 SINGLE 112 500.0 573.8 114.8 58370*4BUDEN9 500.00 58371 4BUDEN8 330.00 1 SINGLE 113 500.0 573.8 114.8 MONITORED VOLTAGE REPORT: SYSTEM CONTINGENCY <-------- B U S --------> V-CONT V-INIT V-MAX V-MIN OWNER 509 RANGE BASE CASE 50717 4ELEC 91 500.00 1.05626 1.05626 1.05000 0.95000 OWNER 502 RANGE BASE CASE 50583 4NARAB21 220.00 0.88476 0.88476 1.15000 0.90000 OWNER 502 RANGE BASE CASE 50585 4RASSV21 220.00 0.88317 0.88317 1.15000 0.90000 OWNER 502 RANGE BASE CASE 50587 4ASTRA21 220.00 0.88334 0.88334 1.15000 0.90000 OWNER 502 RANGE BASE CASE 50588 4BARR 21 220.00 0.87505 0.87505 1.15000 0.90000 OWNER 502 RANGE BASE CASE 50592 4GAZ 21 220.00 0.86214 0.86214 1.15000 0.90000 OWNER 502 RANGE BASE CASE 50597 4LIMAN21 220.00 0.89312 0.89312 1.15000 0.90000 OWNER 502 RANGE SINGLE 10 58219 4KIRIL2 220.00 0.88000 0.91615 1.15000 0.90000
4.74
OWNER 502 RANGE SINGLE 10 58263 4VOSTO2 220.00 0.89562 0.93030 1.15000 0.90000 OWNER 508 RANGE SINGLE 30 50652 4ZELEZ81 330.00 0.89635 0.95416 1.10000 0.90000 OWNER 508 RANGE SINGLE 31 50655 4SADOV81 330.00 0.89141 0.96977 1.10000 0.90000 OWNER 509 RANGE SINGLE 77 50949 4TRUBN91 500.00 0.88840 0.97962 1.05000 0.95000 OWNER 502 RANGE SINGLE 77 50580 4VLAD 21 220.00 0.86186 0.92964 1.15000 0.90000 OWNER 502 RANGE SINGLE 77 50595 4GAZ 22 220.00 0.87284 0.94473 1.15000 0.90000 OWNER 509 RANGE SINGLE 87 58370 4BUDEN9 500.00 0.94269 0.97768 1.05000 0.95000 OWNER 509 RANGE SINGLE 87 58374 4BUDEN95 500.00 0.94269 0.97768 1.05000 0.95000 OWNER 502 RANGE SINGLE 94 58217 4KRYMS2 220.00 0.89097 0.93692 1.15000 0.90000 OWNER 502 RANGE SINGLE 94 58219 4KIRIL2 220.00 0.86849 0.91615 1.15000 0.90000 OWNER 502 RANGE SINGLE 94 58263 4VOSTO2 220.00 0.88376 0.93030 1.15000 0.90000 OWNER 509 RANGE SINGLE 97 58370 4BUDEN9 500.00 0.94641 0.97768 1.05000 0.95000 OWNER 509 RANGE SINGLE 97 58374 4BUDEN95 500.00 0.94641 0.97768 1.05000 0.95000 OWNER 509 RANGE SINGLE 99 58370 4BUDEN9 500.00 0.94493 0.97768 1.05000 0.95000 OWNER 509 RANGE SINGLE 99 58374 4BUDEN95 500.00 0.94493 0.97768 1.05000 0.95000 OWNER 509 RANGE SINGLE 105 58370 4BUDEN9 500.00 0.94828 0.97768 1.05000 0.95000 OWNER 509 RANGE SINGLE 105 58374 4BUDEN95 500.00 0.94828 0.97768 1.05000 0.95000 OWNER 502 RANGE SINGLE 110 58219 4KIRIL2 220.00 0.88318 0.91615 1.15000 0.90000 OWNER 502 RANGE SINGLE 110 58263 4VOSTO2 220.00 0.89811 0.93030 1.15000 0.90000 OWNER 508 RANGE SINGLE 116 58325 4MASHU8 330.00 0.89401 0.94943 1.10000 0.90000 OWNER 508 RANGE SINGLE 116 58402 4PROHL8 330.00 0.87990 0.94693 1.10000 0.90000 OWNER 508 RANGE SINGLE 116 58404 4BAKSA8 330.00 0.88459 0.94559 1.10000 0.90000 OWNER 508 RANGE SINGLE 116 58430 4NALJC8 330.00 0.87863 0.94022 1.10000 0.90000 OWNER 508 RANGE SINGLE 116 58505 4V-5008 330.00 0.88620 0.93076 1.10000 0.90000 OWNER 508 RANGE SINGLE 116 58510 4V-2 8 330.00 0.89270 0.93531 1.10000 0.90000 OWNER 508 RANGE SINGLE 116 58513 4MOZDO8 330.00 0.87692 0.93414 1.10000 0.90000 OWNER 508 RANGE SINGLE 122 58402 4PROHL8 330.00 0.88372 0.94693 1.10000 0.90000 OWNER 508 RANGE SINGLE 122 58404 4BAKSA8 330.00 0.89335 0.94559 1.10000 0.90000 OWNER 508 RANGE SINGLE 122 58430 4NALJC8 330.00 0.88748 0.94022 1.10000 0.90000 OWNER 508 RANGE SINGLE 122 58505 4V-5008 330.00 0.78673 0.93076 1.10000 0.90000 OWNER 508 RANGE SINGLE 122 58513 4MOZDO8 330.00 0.83460 0.93414 1.10000 0.90000 OWNER 509 RANGE SINGLE 124 58370 4BUDEN9 500.00 0.94390 0.97768 1.05000 0.95000 OWNER 509 RANGE SINGLE 124 58374 4BUDEN95 500.00 0.94390 0.97768 1.05000 0.95000 OWNER 508 RANGE SINGLE 124 58325 4MASHU8 330.00 0.89331 0.94943 1.10000 0.90000 OWNER 508 RANGE SINGLE 124 58402 4PROHL8 330.00 0.87780 0.94693 1.10000 0.90000 OWNER 508 RANGE SINGLE 124 58404 4BAKSA8 330.00 0.88375 0.94559 1.10000 0.90000 OWNER 508 RANGE SINGLE 124 58430 4NALJC8 330.00 0.87777 0.94022 1.10000 0.90000 OWNER 508 RANGE SINGLE 124 58505 4V-5008 330.00 0.80095 0.93076 1.10000 0.90000 OWNER 508 RANGE SINGLE 124 58510 4V-2 8 330.00 0.80211 0.93531 1.10000 0.90000 OWNER 508 RANGE SINGLE 124 58513 4MOZDO8 330.00 0.83791 0.93414 1.10000 0.90000 OWNER 508 RANGE SINGLE 126 58712 4DERBE8 330.00 0.89376 0.91871 1.10000 0.90000 OWNER 508 RANGE SINGLE 127 58712 4DERBE8 330.00 0.89381 0.91871 1.10000 0.90000 BLACKSEA REGIONAL MODEL SUMMER MINIMUM LOAD 2010 <----------------- MONITORED BRANCH -----------------> CONTINGENCY RATING FLOW % MONITORED VOLTAGE REPORT: SYSTEM CONTINGENCY <-------- B U S --------> V-CONT V-INIT V-MAX V-MIN OWNER 509 RANGE BASE CASE 50717 4ELEC 91 500.00 1.06560 1.06560 1.05000 0.95000 OWNER 509 RANGE BASE CASE 50758 4NVAES91 500.00 1.06051 1.06051 1.05000 0.95000 OWNER 509 RANGE BASE CASE 50801 4STOSK91 500.00 1.05285 1.05285 1.05000 0.95000 OWNER 509 RANGE BASE CASE 50813 4METAL91 500.00 1.05413 1.05413 1.05000 0.95000 OWNER 509 RANGE BASE CASE 50902 4BALAS91 500.00 1.06186 1.06186 1.05000 0.95000 OWNER 509 RANGE BASE CASE 50940 4OTPNV91 500.00 1.05582 1.05582 1.05000 0.95000 OWNER 509 RANGE BASE CASE 58260 4CENTR9 500.00 1.05094 1.05094 1.05000 0.95000 OWNER 509 RANGE BASE CASE 58370 4BUDEN9 500.00 1.06250 1.06250 1.05000 0.95000 OWNER 509 RANGE BASE CASE 58374 4BUDEN95 500.00 1.06257 1.06257 1.05000 0.95000 OWNER 502 RANGE BASE CASE 50597 4LIMAN21 220.00 1.15040 1.15040 1.15000 0.90000 OWNER 509 RANGE SINGLE 77 50934 4FROLO91 500.00 1.07237 1.04644 1.05000 0.95000 OWNER 509 RANGE SINGLE 78 50949 4TRUBN91 500.00 0.89869 0.96657 1.05000 0.95000 OWNER 509 RANGE SINGLE 86 58194 4VDAES97 500.00 1.14198 1.01903 1.05000 0.95000 OWNER 508 RANGE SINGLE 86 58332 4PRIKU8 330.00 1.12736 1.08515 1.10000 0.90000 OWNER 508 RANGE SINGLE 86 58363 4BLAGO8 330.00 1.10383 1.07737 1.10000 0.90000 OWNER 508 RANGE SINGLE 86 58371 4BUDEN8 330.00 1.13283 1.08744 1.10000 0.90000 OWNER 508 RANGE SINGLE 86 58373 4BUDEN82 330.00 1.13274 1.08738 1.10000 0.90000 OWNER 509 RANGE SINGLE 110 58361 4STGRE91 500.00 1.05774 1.00628 1.05000 0.95000 OWNER 508 RANGE SINGLE 131 58332 4PRIKU8 330.00 1.12256 1.08515 1.10000 0.90000 OWNER 508 RANGE SINGLE 131 58363 4BLAGO8 330.00 1.10476 1.07737 1.10000 0.90000 OWNER 508 RANGE SINGLE 131 58371 4BUDEN8 330.00 1.12676 1.08744 1.10000 0.90000 OWNER 508 RANGE SINGLE 131 58373 4BUDEN82 330.00 1.12683 1.08738 1.10000 0.90000 OWNER 508 RANGE SINGLE 131 58773 4CHI298 330.00 1.24282 1.05061 1.10000 0.90000 CONTINGENCY LEGEND: LABEL EVENTS SINGLE 1 : OPEN LINE FROM BUS 506 [XRU_UA01 750.00] TO BUS 50678 [4K AES02 750.00] CKT 1 SINGLE 2 : OPEN LINE FROM BUS 511 [XRU_UA91 500.00] TO BUS 58180 [4SH-309 500.00] CKT 1 SINGLE 3 : OPEN LINE FROM BUS 512 [XRU_UA92 500.00] TO BUS 50758 [4NVAES91 500.00] CKT 0 SINGLE 4 : OPEN LINE FROM BUS 513 [XRU_UA81 330.00] TO BUS 58146 [4HCHGP8 330.00] CKT 1 SINGLE 5 : OPEN LINE FROM BUS 514 [XRU_UA82 330.00] TO BUS 50809 [4VALUI81 330.00] CKT 1 SINGLE 6 : OPEN LINE FROM BUS 515 [XRU_UA83 330.00] TO BUS 50823 [4SHEBE81 330.00] CKT 1 SINGLE 7 : OPEN LINE FROM BUS 516 [XRU_UA84 330.00] TO BUS 50663 [4K AES81 330.00] CKT 1 SINGLE 8 : OPEN LINE FROM BUS 517 [XRU_UA85 330.00] TO BUS 50663 [4K AES81 330.00] CKT 1 SINGLE 9 : OPEN LINE FROM BUS 518 [XRU_UA86 330.00] TO BUS 50811 [4BELGO81 330.00] CKT 1 SINGLE 10 : OPEN LINE FROM BUS 543 [XGE_RU91 500.00] TO BUS 58260 [4CENTR9 500.00] CKT 1
4.75
SINGLE 11 : OPEN LINE FROM BUS 547 [XAZ_RU81 330.00] TO BUS 58712 [4DERBE8 330.00] CKT 1 SINGLE 12 : OPEN LINE FROM BUS 553 [XBY_RU01 750.00] TO BUS 50540 [4S AES01 750.00] CKT 1 SINGLE 13 : OPEN LINE FROM BUS 554 [XBY_RU81 330.00] TO BUS 50528 [4ROSL381 330.00] CKT 1 SINGLE 14 : OPEN LINE FROM BUS 555 [XBY_RU82 330.00] TO BUS 50509 [4TAL3381 330.00] CKT 1 SINGLE 15 : OPEN LINE FROM BUS 50509 [4TAL3381 330.00] TO BUS 50528 [4ROSL381 330.00] CKT 0 SINGLE 16 : OPEN LINE FROM BUS 50513 [4S AES91 500.00] TO BUS 50530 [4S AES81 330.00] CKT 1 SINGLE 17 : OPEN LINE FROM BUS 50513 [4S AES91 500.00] TO BUS 50530 [4S AES81 330.00] CKT 2 SINGLE 18 : OPEN LINE FROM BUS 50513 [4S AES91 500.00] TO BUS 50540 [4S AES01 750.00] CKT 1 SINGLE 19 : OPEN LINE FROM BUS 50513 [4S AES91 500.00] TO BUS 50540 [4S AES01 750.00] CKT 2 SINGLE 20 : OPEN LINE FROM BUS 50513 [4S AES91 500.00] TO BUS 50963 [4MIHAI91 500.00] CKT 1 SINGLE 21 : OPEN LINE FROM BUS 50513 [4S AES91 500.00] TO BUS 50963 [4MIHAI91 500.00] CKT 98 SINGLE 22 : OPEN LINE FROM BUS 50528 [4ROSL381 330.00] TO BUS 50530 [4S AES81 330.00] CKT 1 SINGLE 23 : OPEN LINE FROM BUS 50528 [4ROSL381 330.00] TO BUS 50530 [4S AES81 330.00] CKT 2 SINGLE 24 : OPEN LINE FROM BUS 50540 [4S AES01 750.00] TO BUS 50554 [4NBRAN01 750.00] CKT 0 SINGLE 25 : OPEN LINE FROM BUS 50554 [4NBRAN01 750.00] TO BUS 50555 [4NBRAN91 500.00] CKT 1 SINGLE 26 : OPEN LINE FROM BUS 50554 [4NBRAN01 750.00] TO BUS 50555 [4NBRAN91 500.00] CKT 2 SINGLE 27 : OPEN LINE FROM BUS 50554 [4NBRAN01 750.00] TO BUS 50675 [4K AES01 750.00] CKT 0 SINGLE 28 : OPEN LINE FROM BUS 50555 [4NBRAN91 500.00] TO BUS 50717 [4ELEC 91 500.00] CKT 0 SINGLE 29 : OPEN LINE FROM BUS 50652 [4ZELEZ81 330.00] TO BUS 50662 [4UZNAJ81 330.00] CKT 0 SINGLE 30 : OPEN LINE FROM BUS 50652 [4ZELEZ81 330.00] TO BUS 50676 [4K AES82 330.00] CKT 0 SINGLE 31 : OPEN LINE FROM BUS 50655 [4SADOV81 330.00] TO BUS 50662 [4UZNAJ81 330.00] CKT 0 SINGLE 32 : OPEN LINE FROM BUS 50662 [4UZNAJ81 330.00] TO BUS 50669 [4KURSK81 330.00] CKT 0 SINGLE 33 : OPEN LINE FROM BUS 50662 [4UZNAJ81 330.00] TO BUS 50676 [4K AES82 330.00] CKT 1 SINGLE 34 : OPEN LINE FROM BUS 50662 [4UZNAJ81 330.00] TO BUS 50676 [4K AES82 330.00] CKT 2 SINGLE 35 : OPEN LINE FROM BUS 50662 [4UZNAJ81 330.00] TO BUS 50811 [4BELGO81 330.00] CKT 0 SINGLE 36 : OPEN LINE FROM BUS 50663 [4K AES81 330.00] TO BUS 50676 [4K AES82 330.00] CKT 99 SINGLE 37 : OPEN LINE FROM BUS 50663 [4K AES81 330.00] TO BUS 50678 [4K AES02 750.00] CKT 0 SINGLE 38 : OPEN LINE FROM BUS 50669 [4KURSK81 330.00] TO BUS 50673 [4SEIMS81 330.00] CKT 0 SINGLE 39 : OPEN LINE FROM BUS 50669 [4KURSK81 330.00] TO BUS 50676 [4K AES82 330.00] CKT 0 SINGLE 40 : OPEN LINE FROM BUS 50675 [4K AES01 750.00] TO BUS 50676 [4K AES82 330.00] CKT 0 SINGLE 41 : OPEN LINE FROM BUS 50675 [4K AES01 750.00] TO BUS 50678 [4K AES02 750.00] CKT 0 SINGLE 42 : OPEN LINE FROM BUS 50678 [4K AES02 750.00] TO BUS 50816 [4METAL01 750.00] CKT 0 SINGLE 43 : OPEN LINE FROM BUS 50703 [4BORIN91 500.00] TO BUS 50713 [4LIPEC91 500.00] CKT 0 SINGLE 44 : OPEN LINE FROM BUS 50703 [4BORIN91 500.00] TO BUS 50717 [4ELEC 91 500.00] CKT 0 SINGLE 45 : OPEN LINE FROM BUS 50703 [4BORIN91 500.00] TO BUS 50758 [4NVAES91 500.00] CKT 0 SINGLE 46 : OPEN LINE FROM BUS 50713 [4LIPEC91 500.00] TO BUS 50860 [4TAMBO91 500.00] CKT 0 SINGLE 47 : OPEN LINE FROM BUS 50713 [4LIPEC91 500.00] TO BUS 50902 [4BALAS91 500.00] CKT 0 SINGLE 48 : OPEN LINE FROM BUS 50713 [4LIPEC91 500.00] TO BUS 50940 [4OTPNV91 500.00] CKT 0 SINGLE 49 : OPEN LINE FROM BUS 50713 [4LIPEC91 500.00] TO BUS 50962 [4RGRES91 500.00] CKT 1 SINGLE 50 : OPEN LINE FROM BUS 50713 [4LIPEC91 500.00] TO BUS 50962 [4RGRES91 500.00] CKT 2 SINGLE 51 : OPEN LINE FROM BUS 50758 [4NVAES91 500.00] TO BUS 50801 [4STOSK91 500.00] CKT 0 SINGLE 52 : OPEN LINE FROM BUS 50758 [4NVAES91 500.00] TO BUS 50940 [4OTPNV91 500.00] CKT 0 SINGLE 53 : OPEN LINE FROM BUS 50760 [4LISKI81 330.00] TO BUS 50809 [4VALUI81 330.00] CKT 0 SINGLE 54 : OPEN LINE FROM BUS 50801 [4STOSK91 500.00] TO BUS 50803 [4STOSK81 330.00] CKT 1 SINGLE 55 : OPEN LINE FROM BUS 50801 [4STOSK91 500.00] TO BUS 50803 [4STOSK81 330.00] CKT 2 SINGLE 56 : OPEN LINE FROM BUS 50801 [4STOSK91 500.00] TO BUS 50813 [4METAL91 500.00] CKT 0 SINGLE 57 : OPEN LINE FROM BUS 50803 [4STOSK81 330.00] TO BUS 50806 [4GUBKI81 330.00] CKT 0 SINGLE 58 : OPEN LINE FROM BUS 50803 [4STOSK81 330.00] TO BUS 50828 [4OEMK 81 330.00] CKT 1 SINGLE 59 : OPEN LINE FROM BUS 50803 [4STOSK81 330.00] TO BUS 50828 [4OEMK 81 330.00] CKT 2 SINGLE 60 : OPEN LINE FROM BUS 50806 [4GUBKI81 330.00] TO BUS 50807 [4LEBED81 330.00] CKT 0 SINGLE 61 : OPEN LINE FROM BUS 50807 [4LEBED81 330.00] TO BUS 50811 [4BELGO81 330.00] CKT 0 SINGLE 62 : OPEN LINE FROM BUS 50807 [4LEBED81 330.00] TO BUS 50814 [4METAL81 330.00] CKT 0 SINGLE 63 : OPEN LINE FROM BUS 50809 [4VALUI81 330.00] TO BUS 50814 [4METAL81 330.00] CKT 0 SINGLE 64 : OPEN LINE FROM BUS 50811 [4BELGO81 330.00] TO BUS 50823 [4SHEBE81 330.00] CKT 0 SINGLE 65 : OPEN LINE FROM BUS 50813 [4METAL91 500.00] TO BUS 50816 [4METAL01 750.00] CKT 0 SINGLE 66 : OPEN LINE FROM BUS 50814 [4METAL81 330.00] TO BUS 50816 [4METAL01 750.00] CKT 1 SINGLE 67 : OPEN LINE FROM BUS 50814 [4METAL81 330.00] TO BUS 50816 [4METAL01 750.00] CKT 2 SINGLE 68 : OPEN LINE FROM BUS 50814 [4METAL81 330.00] TO BUS 50828 [4OEMK 81 330.00] CKT 1 SINGLE 69 : OPEN LINE FROM BUS 50814 [4METAL81 330.00] TO BUS 50828 [4OEMK 81 330.00] CKT 2 SINGLE 70 : OPEN LINE FROM BUS 50860 [4TAMBO91 500.00] TO BUS 50962 [4RGRES91 500.00] CKT 0 SINGLE 71 : OPEN LINE FROM BUS 50902 [4BALAS91 500.00] TO BUS 50913 [4VOLGA91 500.00] CKT 0 SINGLE 72 : OPEN LINE FROM BUS 50902 [4BALAS91 500.00] TO BUS 50934 [4FROLO91 500.00] CKT 0 SINGLE 73 : OPEN LINE FROM BUS 50902 [4BALAS91 500.00] TO BUS 50940 [4OTPNV91 500.00] CKT 0 SINGLE 74 : OPEN LINE FROM BUS 50913 [4VOLGA91 500.00] TO BUS 50920 [4VGGES91 500.00] CKT 0 SINGLE 75 : OPEN LINE FROM BUS 50913 [4VOLGA91 500.00] TO BUS 50932 [4UZNAJ91 500.00] CKT 0 SINGLE 76 : OPEN LINE FROM BUS 50920 [4VGGES91 500.00] TO BUS 50934 [4FROLO91 500.00] CKT 0 SINGLE 77 : OPEN LINE FROM BUS 50932 [4UZNAJ91 500.00] TO BUS 50949 [4TRUBN91 500.00] CKT 0 SINGLE 78 : OPEN LINE FROM BUS 50932 [4UZNAJ91 500.00] TO BUS 58190 [4VDAES9 500.00] CKT 0 SINGLE 79 : OPEN LINE FROM BUS 50932 [4UZNAJ91 500.00] TO BUS 58192 [4VDAES9J 500.00] CKT 0 SINGLE 80 : OPEN LINE FROM BUS 50962 [4RGRES91 500.00] TO BUS 50963 [4MIHAI91 500.00] CKT 1 SINGLE 81 : OPEN LINE FROM BUS 50962 [4RGRES91 500.00] TO BUS 50963 [4MIHAI91 500.00] CKT 2 SINGLE 82 : OPEN LINE FROM BUS 58146 [4HCHGP8 330.00] TO BUS 58254 [4TIHOR8 330.00] CKT 0 SINGLE 83 : OPEN LINE FROM BUS 58180 [4SH-309 500.00] TO BUS 58190 [4VDAES9 500.00] CKT 0 SINGLE 84 : OPEN LINE FROM BUS 58190 [4VDAES9 500.00] TO BUS 58192 [4VDAES9J 500.00] CKT 0 SINGLE 85 : OPEN LINE FROM BUS 58190 [4VDAES9 500.00] TO BUS 58193 [4VDAES95 500.00] CKT 0 SINGLE 87 : OPEN LINE FROM BUS 58193 [4VDAES95 500.00] TO BUS 58273 [4TIHOR95 500.00] CKT 0 SINGLE 89 : OPEN LINE FROM BUS 58233 [4ARMAV8 330.00] TO BUS 58253 [4KROPO8 330.00] CKT 0 SINGLE 90 : OPEN LINE FROM BUS 58233 [4ARMAV8 330.00] TO BUS 58310 [4NEVGR8 330.00] CKT 0 SINGLE 91 : OPEN LINE FROM BUS 58233 [4ARMAV8 330.00] TO BUS 58344 [4STGRE8 330.00] CKT 1 SINGLE 92 : OPEN LINE FROM BUS 58233 [4ARMAV8 330.00] TO BUS 58344 [4STGRE8 330.00] CKT 2 SINGLE 93 : OPEN LINE FROM BUS 58253 [4KROPO8 330.00] TO BUS 58254 [4TIHOR8 330.00] CKT 0 SINGLE 94 : OPEN LINE FROM BUS 58260 [4CENTR9 500.00] TO BUS 58361 [4STGRE91 500.00] CKT 0 SINGLE 95 : OPEN LINE FROM BUS 58270 [4TIHOR9 500.00] TO BUS 58273 [4TIHOR95 500.00] CKT 0 SINGLE 96 : OPEN LINE FROM BUS 58270 [4TIHOR9 500.00] TO BUS 58362 [4STGRE92 500.00] CKT 0 SINGLE 97 : OPEN LINE FROM BUS 58303 [4STAVR8 330.00] TO BUS 58344 [4STGRE8 330.00] CKT 0 SINGLE 98 : OPEN LINE FROM BUS 58303 [4STAVR8 330.00] TO BUS 58349 [4GEC-48 330.00] CKT 0 SINGLE 99 : OPEN LINE FROM BUS 58303 [4STAVR8 330.00] TO BUS 58363 [4BLAGO8 330.00] CKT 0
4.76
SINGLE 101 : OPEN LINE FROM BUS 58310 [4NEVGR8 330.00] TO BUS 58349 [4GEC-48 330.00] CKT 0 SINGLE 104 : OPEN LINE FROM BUS 58325 [4MASHU8 330.00] TO BUS 58402 [4PROHL8 330.00] CKT 0 SINGLE 105 : OPEN LINE FROM BUS 58332 [4PRIKU8 330.00] TO BUS 58363 [4BLAGO8 330.00] CKT 0 SINGLE 106 : OPEN LINE FROM BUS 58332 [4PRIKU8 330.00] TO BUS 58371 [4BUDEN8 330.00] CKT 0 SINGLE 107 : OPEN LINE FROM BUS 58344 [4STGRE8 330.00] TO BUS 58360 [4STGRE90 500.00] CKT 3 SINGLE 108 : OPEN LINE FROM BUS 58344 [4STGRE8 330.00] TO BUS 58360 [4STGRE90 500.00] CKT 4 SINGLE 110 : OPEN LINE FROM BUS 58360 [4STGRE90 500.00] TO BUS 58361 [4STGRE91 500.00] CKT 0 SINGLE 111 : OPEN LINE FROM BUS 58360 [4STGRE90 500.00] TO BUS 58362 [4STGRE92 500.00] CKT 0 SINGLE 112 : OPEN LINE FROM BUS 58370 [4BUDEN9 500.00] TO BUS 58371 [4BUDEN8 330.00] CKT 1 SINGLE 113 : OPEN LINE FROM BUS 58370 [4BUDEN9 500.00] TO BUS 58371 [4BUDEN8 330.00] CKT 2 SINGLE 116 : OPEN LINE FROM BUS 58371 [4BUDEN8 330.00] TO BUS 58402 [4PROHL8 330.00] CKT 0 SINGLE 118 : OPEN LINE FROM BUS 58402 [4PROHL8 330.00] TO BUS 58404 [4BAKSA8 330.00] CKT 0 SINGLE 120 : OPEN LINE FROM BUS 58404 [4BAKSA8 330.00] TO BUS 58430 [4NALJC8 330.00] CKT 0 SINGLE 122 : OPEN LINE FROM BUS 58505 [4V-5008 330.00] TO BUS 58510 [4V-2 8 330.00] CKT 0 SINGLE 124 : OPEN LINE FROM BUS 58510 [4V-2 8 330.00] TO BUS 58714 [4CHIRJ8 330.00] CKT 0 SINGLE 125 : OPEN LINE FROM BUS 58703 [4CHIRG8 330.00] TO BUS 58704 [4CHGES8 330.00] CKT 0 SINGLE 126 : OPEN LINE FROM BUS 58703 [4CHIRG8 330.00] TO BUS 58714 [4CHIRJ8 330.00] CKT 0 SINGLE 127 : OPEN LINE FROM BUS 58704 [4CHGES8 330.00] TO BUS 58714 [4CHIRJ8 330.00] CKT 0 SINGLE 128 : OPEN LINE FROM BUS 58710 [4MAHAC8 330.00] TO BUS 58712 [4DERBE8 330.00] CKT 0
4.6.6. Turkey BLACKSEA REGIONAL MODEL WINTER MAXIMUM LOAD 2010 <----------------- MONITORED BRANCH -----------------> CONTINGENCY RATING FLOW % 60612 THOPA 3 150.00 61103*THOPA 2 220.00 1 BASE CASE 150.0 154.4 102.9 60665 TELBIS11 400.00 61060*G-4ELBIS 21.000 1 GENMAX 345.0 481.3 139.5 60665 TELBIS11 400.00 61060*G-4ELBIS 21.000 2 GENMAX 345.0 481.3 139.5 60665 TELBIS11 400.00 61060*G-4ELBIS 21.000 3 GENMAX 345.0 481.3 139.5 60665 TELBIS11 400.00 61060*G-4ELBIS 21.000 4 GENMAX 345.0 481.3 139.5 60063 TS.MUR3 150.00 60081*TBAGCI3A 150.00 1 SINGLE 11 177.2 180.7 100.5 60088 TADAPA12 400.00 60091*TGEBZE11 400.00 1 SINGLE 19 1046.8 1022.9 102.1 60063 TS.MUR3 150.00 60081*TBAGCI3A 150.00 1 SINGLE 20 177.2 180.2 100.1 60088 TADAPA12 400.00 60091*TGEBZE11 400.00 1 SINGLE 24 1046.8 1210.0 121.1 60091*TGEBZE11 400.00 60143 TDUMYG1 400.00 1 SINGLE 24 1057.2 1035.5 102.6 60201*TBOZUY3 150.00 60212 TSEYIT3 150.00 1 SINGLE 30 177.2 190.7 105.3 60088 TADAPA12 400.00 60091*TGEBZE11 400.00 1 SINGLE 36 1046.8 1085.9 108.3 60097*TAKCAK3 150.00 60575 TEREGL32 150.00 1 SINGLE 40 128.6 172.7 129.8 60088 TADAPA12 400.00 60091*TGEBZE11 400.00 1 SINGLE 42 1046.8 1128.9 113.4 60232*TBORNO3 150.00 60259 TUNIVE3 150.00 1 SINGLE 57 177.2 185.2 102.7 60612 THOPA 3 150.00 61103*THOPA 2 220.00 1 SINGLE 134 150.0 173.5 115.7 60612 THOPA 3 150.00 61103*THOPA 2 220.00 2 SINGLE 134 180.0 183.3 101.8 60634*TAGRI 3 150.00 60647 THORAS3 150.00 1 SINGLE 135 128.6 133.2 135.3 60642*TERZUR31 150.00 60643 TERZUR32 150.00 2 SINGLE 135 128.6 174.2 139.7 60747 TADILC3 150.00 60758*TERCIS3 150.00 1 SINGLE 135 128.6 118.5 116.2 60634 TAGRI 3 150.00 60758*TERCIS3 150.00 1 SINGLE 137 128.6 118.9 102.2 60784*TBATMA32 150.00 60801 TBATMA3M 150.00 1 SINGLE 160 240.6 255.4 107.5 MONITORED VOLTAGE REPORT: SYSTEM CONTINGENCY <-------- B U S --------> V-CONT V-INIT V-MAX V-MIN '6-400 ' RANGE SINGLE 8 60032 TBABAE12 400.00 1.05506 1.03270 1.05000 0.95000 '6-400 ' RANGE SINGLE 82 60394 THATAY1 400.00 0.94600 0.99096 1.05000 0.95000 '6-400 ' RANGE SINGLE 135 60656 TAKYAC11 400.00 0.71809 0.96498 1.05000 0.95000 '6-400 ' RANGE SINGLE 135 60797 TVAN 1 400.00 0.71910 0.95036 1.05000 0.95000 '6-400 ' RANGE SINGLE 135 60798 TCIZRE1 400.00 0.94472 0.98443 1.05000 0.95000 '6-400 ' RANGE SINGLE 135 60799 TPS3 1 400.00 0.94817 0.98931 1.05000 0.95000 '6-400 ' RANGE SINGLE 137 60797 TVAN 1 400.00 0.77371 0.95036 1.05000 0.95000 '6-400 ' RANGE SINGLE 143 60722 TURFA 1 400.00 0.91658 0.98131 1.05000 0.95000 '6-400 ' RANGE SINGLE 143 60729 TKIZIL1 400.00 0.92868 0.97248 1.05000 0.95000 '6-400 ' RANGE SINGLE 143 60783 TBATMA1 400.00 0.94011 0.97125 1.05000 0.95000 '6-400 ' RANGE SINGLE 160 60729 TKIZIL1 400.00 0.93557 0.97248 1.05000 0.95000 '6-400 ' RANGE SINGLE 160 60745 TDIYAR1 400.00 0.91917 0.97291 1.05000 0.95000 '6-400 ' RANGE SINGLE 160 60783 TBATMA1 400.00 0.92854 0.97125 1.05000 0.95000 '6-400 ' RANGE SINGLE 168 60798 TCIZRE1 400.00 0.92462 0.98443 1.05000 0.95000 BLACKSEA REGIONAL MODEL SUMMER MINIMUM LOAD 2010 <----------------- MONITORED BRANCH -----------------> CONTINGENCY RATING FLOW % 60292 TDALAM3 150.00 69755*G-DALMSK1 6.3000 1 BASE CASE 12.0 12.9 107.1 60097*TAKCAK3 150.00 60575 TEREGL32 150.00 1 SINGLE 40 128.6 157.7 118.8 60665 TELBIS11 400.00 69544*G-4ELBIS1 21.000 1 SINGLE 65 345.0 429.3 124.4 MONITORED VOLTAGE REPORT: SYSTEM CONTINGENCY <-------- B U S --------> V-CONT V-INIT V-MAX V-MIN '6-400 ' RANGE SINGLE 8 60032 TBABAE12 400.00 1.06477 1.02296 1.05000 0.95000 '6-400 ' RANGE SINGLE 73 60322 TVARSA1 400.00 0.94841 0.97415 1.05000 0.95000 '6-400 ' RANGE SINGLE 125 60530 TKONYA1 400.00 0.93919 0.96443 1.05000 0.95000 '6-400 ' RANGE SINGLE 169 60798 TCIZRE1 400.00 1.06116 1.00273 1.05000 0.95000 '6-400 ' RANGE SINGLE 169 60799 TPS3 1 400.00 1.06283 1.01176 1.05000 0.95000
4.77
CONTINGENCY LEGEND: LABEL EVENTS INT-197 : OPEN LINE FROM BUS 197 [XMI_BA11 400.00] TO BUS 12471 [VMI3 11 400.00] CKT 1 OPEN LINE FROM BUS 197 [XMI_BA11 400.00] TO BUS 60032 [TBABAE12 400.00] CKT 1 INT-198 : OPEN LINE FROM BUS 198 [XMI_HA11 400.00] TO BUS 12471 [VMI3 11 400.00] CKT 1 OPEN LINE FROM BUS 198 [XMI_HA11 400.00] TO BUS 60002 [THAMIT1 400.00] CKT 1 INT-215 : OPEN LINE FROM BUS 215 [XFI_BA11 400.00] TO BUS 60000 [TBABAE11 400.00] CKT 1 OPEN LINE FROM BUS 215 [XFI_BA11 400.00] TO BUS 80258 [GKEXRU1 400.00] CKT 1 INT-542 : OPEN LINE FROM BUS 542 [XGE_TR21 220.00] TO BUS 20017 [6BATUM2 220.00] CKT 1 OPEN LINE FROM BUS 542 [XGE_TR21 220.00] TO BUS 61103 [THOPA 2 220.00] CKT 1 GENMAX : OPEN LINE FROM BUS 60979 [60979 21.000] TO BUS 60384 [TISKEN1 400.00] CKT 1 OPEN LINE FROM BUS 60979 [60979 21.000] TO BUS 60384 [TISKEN1 400.00] CKT 2 SINGLE 1 : OPEN LINE FROM BUS 215 [XFI_BA11 400.00] TO BUS 60000 [TBABAE11 400.00] CKT 1 SINGLE 2 : OPEN LINE FROM BUS 60000 [TBABAE11 400.00] TO BUS 60001 [TUNIMR1 400.00] CKT 1 SINGLE 3 : OPEN LINE FROM BUS 60000 [TBABAE11 400.00] TO BUS 60002 [THAMIT1 400.00] CKT 1 SINGLE 4 : OPEN LINE FROM BUS 60001 [TUNIMR1 400.00] TO BUS 60031 [TKAPTA1 400.00] CKT 1 SINGLE 5 : OPEN LINE FROM BUS 60001 [TUNIMR1 400.00] TO BUS 60038 [TIKITE1 400.00] CKT 1 SINGLE 6 : OPEN LINE FROM BUS 60001 [TUNIMR1 400.00] TO BUS 60039 [THABIP1 400.00] CKT 1 SINGLE 7 : OPEN LINE FROM BUS 60002 [THAMIT1 400.00] TO BUS 60031 [TKAPTA1 400.00] CKT 1 SINGLE 8 : OPEN LINE FROM BUS 60002 [THAMIT1 400.00] TO BUS 60032 [TBABAE12 400.00] CKT 1 SINGLE 9 : OPEN LINE FROM BUS 60002 [THAMIT1 400.00] TO BUS 60037 [TALIBE1 400.00] CKT 1 SINGLE 10 : OPEN LINE FROM BUS 60036 [TAMBAR1 400.00] TO BUS 60038 [TIKITE1 400.00] CKT 1 SINGLE 11 : OPEN LINE FROM BUS 60037 [TALIBE1 400.00] TO BUS 60079 [TYILDI1 400.00] CKT 1 SINGLE 12 : OPEN LINE FROM BUS 60037 [TALIBE1 400.00] TO BUS 60082 [TATISA1 400.00] CKT 1 SINGLE 13 : OPEN LINE FROM BUS 60037 [TALIBE1 400.00] TO BUS 60094 [TUMRAN1 400.00] CKT 1 SINGLE 14 : OPEN LINE FROM BUS 60037 [TALIBE1 400.00] TO BUS 60131 [TBEYKO1 400.00] CKT 1 SINGLE 15 : OPEN LINE FROM BUS 60038 [TIKITE1 400.00] TO BUS 60039 [THABIP1 400.00] CKT 1 SINGLE 16 : OPEN LINE FROM BUS 60038 [TIKITE1 400.00] TO BUS 60041 [TDAVUT1 400.00] CKT 1 SINGLE 17 : OPEN LINE FROM BUS 60038 [TIKITE1 400.00] TO BUS 60082 [TATISA1 400.00] CKT 1 SINGLE 18 : OPEN LINE FROM BUS 60039 [THABIP1 400.00] TO BUS 60085 [TZEKER1 400.00] CKT 1 SINGLE 19 : OPEN LINE FROM BUS 60039 [THABIP1 400.00] TO BUS 60129 [TADAPA11 400.00] CKT 1 SINGLE 20 : OPEN LINE FROM BUS 60041 [TDAVUT1 400.00] TO BUS 60079 [TYILDI1 400.00] CKT 1 SINGLE 21 : OPEN LINE FROM BUS 60085 [TZEKER1 400.00] TO BUS 60093 [TPASAK1 400.00] CKT 1 SINGLE 22 : OPEN LINE FROM BUS 60088 [TADAPA12 400.00] TO BUS 60090 [TAKYAC1 400.00] CKT 1 SINGLE 23 : OPEN LINE FROM BUS 60088 [TADAPA12 400.00] TO BUS 60091 [TGEBZE11 400.00] CKT 1 SINGLE 24 : OPEN LINE FROM BUS 60088 [TADAPA12 400.00] TO BUS 60091 [TGEBZE11 400.00] CKT 2 SINGLE 25 : OPEN LINE FROM BUS 60088 [TADAPA12 400.00] TO BUS 60092 [TOSMAN1 400.00] CKT 1 SINGLE 26 : OPEN LINE FROM BUS 60088 [TADAPA12 400.00] TO BUS 60143 [TDUMYG1 400.00] CKT 1 SINGLE 27 : OPEN LINE FROM BUS 60088 [TADAPA12 400.00] TO BUS 60148 [TGEBZE12 400.00] CKT 1 SINGLE 28 : OPEN LINE FROM BUS 60088 [TADAPA12 400.00] TO BUS 60166 [TBURSA12 400.00] CKT 1 SINGLE 29 : OPEN LINE FROM BUS 60088 [TADAPA12 400.00] TO BUS 60400 [TCAYIR1 400.00] CKT 1 SINGLE 30 : OPEN LINE FROM BUS 60088 [TADAPA12 400.00] TO BUS 60401 [TGOKCE1 400.00] CKT 1 SINGLE 31 : OPEN LINE FROM BUS 60089 [TAKYAC13 400.00] TO BUS 60090 [TAKYAC1 400.00] CKT 1 SINGLE 32 : OPEN LINE FROM BUS 60089 [TAKYAC13 400.00] TO BUS 60404 [TTEMEL1 400.00] CKT 1 SINGLE 33 : OPEN LINE FROM BUS 60091 [TGEBZE11 400.00] TO BUS 60093 [TPASAK1 400.00] CKT 1 SINGLE 34 : OPEN LINE FROM BUS 60091 [TGEBZE11 400.00] TO BUS 60094 [TUMRAN1 400.00] CKT 1 SINGLE 35 : OPEN LINE FROM BUS 60091 [TGEBZE11 400.00] TO BUS 60094 [TUMRAN1 400.00] CKT 2 SINGLE 36 : OPEN LINE FROM BUS 60091 [TGEBZE11 400.00] TO BUS 60143 [TDUMYG1 400.00] CKT 1 SINGLE 37 : OPEN LINE FROM BUS 60092 [TOSMAN1 400.00] TO BUS 60129 [TADAPA11 400.00] CKT 1 SINGLE 38 : OPEN LINE FROM BUS 60092 [TOSMAN1 400.00] TO BUS 60403 [TSINCA1 400.00] CKT 1 SINGLE 39 : OPEN LINE FROM BUS 60092 [TOSMAN1 400.00] TO BUS 60449 [TCANKI1 400.00] CKT 1 SINGLE 40 : OPEN LINE FROM BUS 60092 [TOSMAN1 400.00] TO BUS 60563 [TEREGL1 400.00] CKT 1 SINGLE 41 : OPEN LINE FROM BUS 60093 [TPASAK1 400.00] TO BUS 60131 [TBEYKO1 400.00] CKT 1 SINGLE 42 : OPEN LINE FROM BUS 60093 [TPASAK1 400.00] TO BUS 60148 [TGEBZE12 400.00] CKT 1 SINGLE 43 : OPEN LINE FROM BUS 60129 [TADAPA11 400.00] TO BUS 60148 [TGEBZE12 400.00] CKT 1 SINGLE 44 : OPEN LINE FROM BUS 60143 [TDUMYG1 400.00] TO BUS 60166 [TBURSA12 400.00] CKT 1 SINGLE 45 : OPEN LINE FROM BUS 60148 [TGEBZE12 400.00] TO BUS 60404 [TTEMEL1 400.00] CKT 1 SINGLE 46 : OPEN LINE FROM BUS 60149 [TBURSA11 400.00] TO BUS 60166 [TBURSA12 400.00] CKT 1 SINGLE 47 : OPEN LINE FROM BUS 60149 [TBURSA11 400.00] TO BUS 60177 [TBALIK1 400.00] CKT 1 SINGLE 48 : OPEN LINE FROM BUS 60149 [TBURSA11 400.00] TO BUS 60196 [TTUNCB1 400.00] CKT 1 SINGLE 49 : OPEN LINE FROM BUS 60166 [TBURSA12 400.00] TO BUS 60194 [TKARAB1 400.00] CKT 1 SINGLE 50 : OPEN LINE FROM BUS 60177 [TBALIK1 400.00] TO BUS 60266 [TSOMA 1 400.00] CKT 1 SINGLE 51 : OPEN LINE FROM BUS 60194 [TKARAB1 400.00] TO BUS 60266 [TSOMA 1 400.00] CKT 1 SINGLE 52 : OPEN LINE FROM BUS 60195 [TSEYIT1 400.00] TO BUS 60196 [TTUNCB1 400.00] CKT 1 SINGLE 53 : OPEN LINE FROM BUS 60195 [TSEYIT1 400.00] TO BUS 60224 [TISIKL1 400.00] CKT 1 SINGLE 54 : OPEN LINE FROM BUS 60195 [TSEYIT1 400.00] TO BUS 60401 [TGOKCE1 400.00] CKT 1 SINGLE 55 : OPEN LINE FROM BUS 60195 [TSEYIT1 400.00] TO BUS 60558 [TAFYON1 400.00] CKT 1 SINGLE 56 : OPEN LINE FROM BUS 60223 [TALIAG1 400.00] TO BUS 60224 [TISIKL1 400.00] CKT 1 SINGLE 57 : OPEN LINE FROM BUS 60223 [TALIAG1 400.00] TO BUS 60225 [TUZUND1 400.00] CKT 1 SINGLE 58 : OPEN LINE FROM BUS 60223 [TALIAG1 400.00] TO BUS 60260 [TALIAD1 400.00] CKT 1 SINGLE 59 : OPEN LINE FROM BUS 60223 [TALIAG1 400.00] TO BUS 60260 [TALIAD1 400.00] CKT 2 SINGLE 60 : OPEN LINE FROM BUS 60223 [TALIAG1 400.00] TO BUS 60266 [TSOMA 1 400.00] CKT 1 SINGLE 61 : OPEN LINE FROM BUS 60223 [TALIAG1 400.00] TO BUS 60281 [TMANIS1 400.00] CKT 1 SINGLE 62 : OPEN LINE FROM BUS 60224 [TISIKL1 400.00] TO BUS 60281 [TMANIS1 400.00] CKT 1 SINGLE 63 : OPEN LINE FROM BUS 60224 [TISIKL1 400.00] TO BUS 60283 [TYATAG1 400.00] CKT 1 SINGLE 64 : OPEN LINE FROM BUS 60224 [TISIKL1 400.00] TO BUS 60283 [TYATAG1 400.00] CKT 2 SINGLE 65 : OPEN LINE FROM BUS 60225 [TUZUND1 400.00] TO BUS 60261 [TRES 1 400.00] CKT 1 SINGLE 66 : OPEN LINE FROM BUS 60225 [TUZUND1 400.00] TO BUS 60318 [TGERME1 400.00] CKT 1 SINGLE 67 : OPEN LINE FROM BUS 60282 [TKEMER1 400.00] TO BUS 60283 [TYATAG1 400.00] CKT 1 SINGLE 68 : OPEN LINE FROM BUS 60282 [TKEMER1 400.00] TO BUS 60284 [TYENIK1 400.00] CKT 1 SINGLE 69 : OPEN LINE FROM BUS 60283 [TYATAG1 400.00] TO BUS 60284 [TYENIK1 400.00] CKT 1 SINGLE 70 : OPEN LINE FROM BUS 60283 [TYATAG1 400.00] TO BUS 60313 [TDENIZ1 400.00] CKT 1 SINGLE 71 : OPEN LINE FROM BUS 60284 [TYENIK1 400.00] TO BUS 60318 [TGERME1 400.00] CKT 1 SINGLE 72 : OPEN LINE FROM BUS 60313 [TDENIZ1 400.00] TO BUS 60322 [TVARSA1 400.00] CKT 1 SINGLE 73 : OPEN LINE FROM BUS 60321 [TOYMAP1 400.00] TO BUS 60322 [TVARSA1 400.00] CKT 1 SINGLE 74 : OPEN LINE FROM BUS 60321 [TOYMAP1 400.00] TO BUS 60322 [TVARSA1 400.00] CKT 2
4.78
SINGLE 75 : OPEN LINE FROM BUS 60321 [TOYMAP1 400.00] TO BUS 60515 [TSEYDI1 400.00] CKT 1 SINGLE 76 : OPEN LINE FROM BUS 60339 [TERMEN1 400.00] TO BUS 60395 [TMERSI1 400.00] CKT 1 SINGLE 77 : OPEN LINE FROM BUS 60339 [TERMEN1 400.00] TO BUS 60515 [TSEYDI1 400.00] CKT 1 SINGLE 78 : OPEN LINE FROM BUS 60342 [TADANA1 400.00] TO BUS 60343 [TERZIN1 400.00] CKT 1 SINGLE 79 : OPEN LINE FROM BUS 60342 [TADANA1 400.00] TO BUS 60384 [TISKEN1 400.00] CKT 1 SINGLE 80 : OPEN LINE FROM BUS 60342 [TADANA1 400.00] TO BUS 60514 [TCASEY1 400.00] CKT 1 SINGLE 81 : OPEN LINE FROM BUS 60343 [TERZIN1 400.00] TO BUS 60384 [TISKEN1 400.00] CKT 1 SINGLE 82 : OPEN LINE FROM BUS 60343 [TERZIN1 400.00] TO BUS 60394 [THATAY1 400.00] CKT 1 SINGLE 83 : OPEN LINE FROM BUS 60343 [TERZIN1 400.00] TO BUS 60663 [TANDIR1 400.00] CKT 1 SINGLE 84 : OPEN LINE FROM BUS 60343 [TERZIN1 400.00] TO BUS 60671 [TG.ANT1 400.00] CKT 1 SINGLE 85 : OPEN LINE FROM BUS 60384 [TISKEN1 400.00] TO BUS 60395 [TMERSI1 400.00] CKT 1 SINGLE 86 : OPEN LINE FROM BUS 60400 [TCAYIR1 400.00] TO BUS 60403 [TSINCA1 400.00] CKT 1 SINGLE 87 : OPEN LINE FROM BUS 60401 [TGOKCE1 400.00] TO BUS 60402 [TGOLBA1 400.00] CKT 1 SINGLE 88 : OPEN LINE FROM BUS 60402 [TGOLBA1 400.00] TO BUS 60403 [TSINCA1 400.00] CKT 1 SINGLE 89 : OPEN LINE FROM BUS 60402 [TGOLBA1 400.00] TO BUS 60484 [TCAKAY11 400.00] CKT 1 SINGLE 90 : OPEN LINE FROM BUS 60402 [TGOLBA1 400.00] TO BUS 60485 [TCAKAY12 400.00] CKT 1 SINGLE 91 : OPEN LINE FROM BUS 60403 [TSINCA1 400.00] TO BUS 60404 [TTEMEL1 400.00] CKT 1 SINGLE 92 : OPEN LINE FROM BUS 60403 [TSINCA1 400.00] TO BUS 60415 [TBAGLU1 400.00] CKT 1 SINGLE 93 : OPEN LINE FROM BUS 60403 [TSINCA1 400.00] TO BUS 60481 [TCAAVA12 400.00] CKT 1 SINGLE 94 : OPEN LINE FROM BUS 60403 [TSINCA1 400.00] TO BUS 60482 [TCAAVA13 400.00] CKT 1 SINGLE 95 : OPEN LINE FROM BUS 60404 [TTEMEL1 400.00] TO BUS 60475 [TAGACC12 400.00] CKT 1 SINGLE 96 : OPEN LINE FROM BUS 60404 [TTEMEL1 400.00] TO BUS 60477 [TAGACC14 400.00] CKT 1 SINGLE 97 : OPEN LINE FROM BUS 60415 [TBAGLU1 400.00] TO BUS 60447 [TCAAYA12 400.00] CKT 1 SINGLE 98 : OPEN LINE FROM BUS 60446 [TCAAYA11 400.00] TO BUS 60449 [TCANKI1 400.00] CKT 1 SINGLE 99 : OPEN LINE FROM BUS 60446 [TCAAYA11 400.00] TO BUS 60450 [TKAYAB1 400.00] CKT 1 SINGLE 100 : OPEN LINE FROM BUS 60447 [TCAAYA12 400.00] TO BUS 60450 [TKAYAB1 400.00] CKT 1 SINGLE 101 : OPEN LINE FROM BUS 60448 [TCAAYA13 400.00] TO BUS 60450 [TKAYAB1 400.00] CKT 1 SINGLE 102 : OPEN LINE FROM BUS 60448 [TCAAYA13 400.00] TO BUS 60675 [TSIVAS1 400.00] CKT 1 SINGLE 103 : OPEN LINE FROM BUS 60450 [TKAYAB1 400.00] TO BUS 60561 [TALTIN1 400.00] CKT 1 SINGLE 104 : OPEN LINE FROM BUS 60450 [TKAYAB1 400.00] TO BUS 60562 [TCARSA1 400.00] CKT 1 SINGLE 105 : OPEN LINE FROM BUS 60474 [TAGACC11 400.00] TO BUS 60475 [TAGACC12 400.00] CKT 1 SINGLE 106 : OPEN LINE FROM BUS 60474 [TAGACC11 400.00] TO BUS 60487 [TYESIL1 400.00] CKT 1 SINGLE 107 : OPEN LINE FROM BUS 60476 [TAGACC13 400.00] TO BUS 60477 [TAGACC14 400.00] CKT 1 SINGLE 108 : OPEN LINE FROM BUS 60476 [TAGACC13 400.00] TO BUS 60487 [TYESIL1 400.00] CKT 1 SINGLE 109 : OPEN LINE FROM BUS 60478 [TAVANO11 400.00] TO BUS 60480 [TCAAVA11 400.00] CKT 1 SINGLE 110 : OPEN LINE FROM BUS 60478 [TAVANO11 400.00] TO BUS 60481 [TCAAVA12 400.00] CKT 1 SINGLE 111 : OPEN LINE FROM BUS 60479 [TAVANO12 400.00] TO BUS 60482 [TCAAVA13 400.00] CKT 1 SINGLE 112 : OPEN LINE FROM BUS 60479 [TAVANO12 400.00] TO BUS 60483 [TCAAVA14 400.00] CKT 1 SINGLE 113 : OPEN LINE FROM BUS 60480 [TCAAVA11 400.00] TO BUS 60665 [TELBIS11 400.00] CKT 1 SINGLE 114 : OPEN LINE FROM BUS 60483 [TCAAVA14 400.00] TO BUS 60666 [TELBIS12 400.00] CKT 1 SINGLE 115 : OPEN LINE FROM BUS 60484 [TCAKAY11 400.00] TO BUS 60486 [TKAYSE1 400.00] CKT 1 SINGLE 116 : OPEN LINE FROM BUS 60485 [TCAKAY12 400.00] TO BUS 60486 [TKAYSE1 400.00] CKT 1 SINGLE 117 : OPEN LINE FROM BUS 60486 [TKAYSE1 400.00] TO BUS 60665 [TELBIS11 400.00] CKT 1 SINGLE 118 : OPEN LINE FROM BUS 60486 [TKAYSE1 400.00] TO BUS 60674 [TKEBAN1 400.00] CKT 1 SINGLE 119 : OPEN LINE FROM BUS 60486 [TKAYSE1 400.00] TO BUS 60674 [TKEBAN1 400.00] CKT 2 SINGLE 120 : OPEN LINE FROM BUS 60487 [TYESIL1 400.00] TO BUS 60513 [TTUFAN1 400.00] CKT 1 SINGLE 121 : OPEN LINE FROM BUS 60487 [TYESIL1 400.00] TO BUS 60530 [TKONYA1 400.00] CKT 1 SINGLE 122 : OPEN LINE FROM BUS 60487 [TYESIL1 400.00] TO BUS 60668 [TGOKCA12 400.00] CKT 1 SINGLE 123 : OPEN LINE FROM BUS 60487 [TYESIL1 400.00] TO BUS 60670 [TGOKCA14 400.00] CKT 1 SINGLE 124 : OPEN LINE FROM BUS 60513 [TTUFAN1 400.00] TO BUS 60666 [TELBIS12 400.00] CKT 1 SINGLE 125 : OPEN LINE FROM BUS 60514 [TCASEY1 400.00] TO BUS 60515 [TSEYDI1 400.00] CKT 1 SINGLE 126 : OPEN LINE FROM BUS 60515 [TSEYDI1 400.00] TO BUS 60530 [TKONYA1 400.00] CKT 1 SINGLE 127 : OPEN LINE FROM BUS 60515 [TSEYDI1 400.00] TO BUS 60558 [TAFYON1 400.00] CKT 1 SINGLE 128 : OPEN LINE FROM BUS 60561 [TALTIN1 400.00] TO BUS 60562 [TCARSA1 400.00] CKT 1 SINGLE 129 : OPEN LINE FROM BUS 60562 [TCARSA1 400.00] TO BUS 60564 [TH.UGU1 400.00] CKT 1 SINGLE 130 : OPEN LINE FROM BUS 60562 [TCARSA1 400.00] TO BUS 60564 [TH.UGU1 400.00] CKT 2 SINGLE 131 : OPEN LINE FROM BUS 60562 [TCARSA1 400.00] TO BUS 60603 [TTIREB1 400.00] CKT 1 SINGLE 132 : OPEN LINE FROM BUS 60603 [TTIREB1 400.00] TO BUS 60624 [TBORCK1 400.00] CKT 1 SINGLE 133 : OPEN LINE FROM BUS 60624 [TBORCK1 400.00] TO BUS 60625 [TDERIN1 400.00] CKT 1 SINGLE 134 : OPEN LINE FROM BUS 60625 [TDERIN1 400.00] TO BUS 60633 [TERZUR1 400.00] CKT 1 SINGLE 135 : OPEN LINE FROM BUS 60633 [TERZUR1 400.00] TO BUS 60656 [TAKYAC11 400.00] CKT 1 SINGLE 136 : OPEN LINE FROM BUS 60633 [TERZUR1 400.00] TO BUS 60746 [TOZLUC1 400.00] CKT 1 SINGLE 137 : OPEN LINE FROM BUS 60656 [TAKYAC11 400.00] TO BUS 60797 [TVAN 1 400.00] CKT 1 SINGLE 138 : OPEN LINE FROM BUS 60663 [TANDIR1 400.00] TO BUS 60666 [TELBIS12 400.00] CKT 1 SINGLE 139 : OPEN LINE FROM BUS 60664 [TATATU1 400.00] TO BUS 60666 [TELBIS12 400.00] CKT 1 SINGLE 140 : OPEN LINE FROM BUS 60664 [TATATU1 400.00] TO BUS 60667 [TGOKCA11 400.00] CKT 1 SINGLE 141 : OPEN LINE FROM BUS 60664 [TATATU1 400.00] TO BUS 60669 [TGOKCA13 400.00] CKT 1 SINGLE 142 : OPEN LINE FROM BUS 60664 [TATATU1 400.00] TO BUS 60671 [TG.ANT1 400.00] CKT 1 SINGLE 143 : OPEN LINE FROM BUS 60664 [TATATU1 400.00] TO BUS 60722 [TURFA 1 400.00] CKT 1 SINGLE 144 : OPEN LINE FROM BUS 60664 [TATATU1 400.00] TO BUS 60728 [TBIREC1 400.00] CKT 1 SINGLE 145 : OPEN LINE FROM BUS 60664 [TATATU1 400.00] TO BUS 60737 [THILVA1 400.00] CKT 1 SINGLE 146 : OPEN LINE FROM BUS 60665 [TELBIS11 400.00] TO BUS 60666 [TELBIS12 400.00] CKT 1 SINGLE 147 : OPEN LINE FROM BUS 60665 [TELBIS11 400.00] TO BUS 60674 [TKEBAN1 400.00] CKT 1 SINGLE 148 : OPEN LINE FROM BUS 60666 [TELBIS12 400.00] TO BUS 60733 [TELBS21 400.00] CKT 1 SINGLE 149 : OPEN LINE FROM BUS 60666 [TELBIS12 400.00] TO BUS 60733 [TELBS21 400.00] CKT 2 SINGLE 150 : OPEN LINE FROM BUS 60666 [TELBIS12 400.00] TO BUS 60733 [TELBS21 400.00] CKT 3 SINGLE 151 : OPEN LINE FROM BUS 60666 [TELBIS12 400.00] TO BUS 60733 [TELBS21 400.00] CKT 4 SINGLE 152 : OPEN LINE FROM BUS 60667 [TGOKCA11 400.00] TO BUS 60668 [TGOKCA12 400.00] CKT 1 SINGLE 153 : OPEN LINE FROM BUS 60669 [TGOKCA13 400.00] TO BUS 60670 [TGOKCA14 400.00] CKT 1 SINGLE 154 : OPEN LINE FROM BUS 60671 [TG.ANT1 400.00] TO BUS 60728 [TBIREC1 400.00] CKT 1 SINGLE 155 : OPEN LINE FROM BUS 60672 [TKANGA1 400.00] TO BUS 60674 [TKEBAN1 400.00] CKT 1 SINGLE 156 : OPEN LINE FROM BUS 60672 [TKANGA1 400.00] TO BUS 60675 [TSIVAS1 400.00] CKT 1 SINGLE 157 : OPEN LINE FROM BUS 60673 [TKARAK1 400.00] TO BUS 60674 [TKEBAN1 400.00] CKT 1 SINGLE 158 : OPEN LINE FROM BUS 60673 [TKARAK1 400.00] TO BUS 60674 [TKEBAN1 400.00] CKT 2 SINGLE 159 : OPEN LINE FROM BUS 60673 [TKARAK1 400.00] TO BUS 60737 [THILVA1 400.00] CKT 1 SINGLE 160 : OPEN LINE FROM BUS 60673 [TKARAK1 400.00] TO BUS 60745 [TDIYAR1 400.00] CKT 1 SINGLE 161 : OPEN LINE FROM BUS 60674 [TKEBAN1 400.00] TO BUS 60732 [TKEBAN1H 400.00] CKT 1
4.79
SINGLE 162 : OPEN LINE FROM BUS 60674 [TKEBAN1 400.00] TO BUS 60732 [TKEBAN1H 400.00] CKT 2 SINGLE 163 : OPEN LINE FROM BUS 60674 [TKEBAN1 400.00] TO BUS 60732 [TKEBAN1H 400.00] CKT 3 SINGLE 164 : OPEN LINE FROM BUS 60674 [TKEBAN1 400.00] TO BUS 60746 [TOZLUC1 400.00] CKT 1 SINGLE 165 : OPEN LINE FROM BUS 60722 [TURFA 1 400.00] TO BUS 60729 [TKIZIL1 400.00] CKT 1 SINGLE 166 : OPEN LINE FROM BUS 60729 [TKIZIL1 400.00] TO BUS 60783 [TBATMA1 400.00] CKT 1 SINGLE 167 : OPEN LINE FROM BUS 60745 [TDIYAR1 400.00] TO BUS 60783 [TBATMA1 400.00] CKT 1 SINGLE 168 : OPEN LINE FROM BUS 60798 [TCIZRE1 400.00] TO BUS 60799 [TPS3 1 400.00] CKT 1
4.6.7. Ukraine BLACKSEA REGIONAL MODEL WINTER MAXIMUM LOAD 2010 ACCC OVERLOAD REPORT: MONITORED BRANCHES AND INTERFACES LOADED ABOVE 100.0 % OF RATING SET A CONTINGENCY CASE LOADING NOT CHECKED UNLESS IT DIFFERS FROM ITS BASE CASE LOADING BY 10.0 MVA (MW FOR INTERFACES) CONTINGENCY CASE LOADING NOT CHECKED UNLESS IT EXCEEDS ITS BASE CASE LOADING BY 5.0 PERCENT OF RATING SET A ACCC VOLTAGE REPORT: VOLTAGE BAND CHECK IN CONTINGENCY CASES SKIPPED FOR ANY BUS WITHIN 0.02000 OF ITS BASE CASE VOLTAGE MAGNITUDE AC CONTINGENCY RESULTS FILE: D:\miksa\0\BlackSea\0report\UA\ua.acc DISTRIBUTION FACTOR FILE: D:\miksa\0\BlackSea\0report\UA\UA.dfx SUBSYSTEM DESCRIPTION FILE: D:\miksa\0\BlackSea\0report\UA\UA.sub MONITORED ELEMENT FILE: D:\miksa\0\BlackSea\0report\UA\UA.mon CONTINGENCY DESCRIPTION FILE: D:\miksa\0\BlackSea\0report\UA\ukraine.con <----------------- MONITORED BRANCH -----------------> CONTINGENCY RATING FLOW % 70520*UJUAZS81 330.00 70521 UJUAZS31 150.00 0 BASE CASE 250.0 283.0 113.2 70380*UZAPAR01 750.00 70381 UZAP7S81 330.00 2 45-S 1000.0 1216.1 121.6 70308 UDNEPR81 330.00 70356*UDNEPR01 750.00 2 46-S 1000.0 1112.6 111.3 70520*UJUAZS81 330.00 70521 UJUAZS31 150.00 0 57-S 250.0 320.2 128.1 70520*UJUAZS81 330.00 70521 UJUAZS31 150.00 0 58-S 250.0 351.8 140.7 MONITORED VOLTAGE REPORT: SYSTEM CONTINGENCY <-------- B U S --------> V-CONT V-INIT V-MAX V-MIN OWNER 703 RANGE BASE CASE 70256 UKRJUK31 150.00 1.07623 1.07623 1.05000 0.95000 OWNER 703 RANGE BASE CASE 70269 ULOZ1531 150.00 0.93842 0.93842 1.05000 0.95000 OWNER 703 RANGE BASE CASE 70311 UDGEC131 150.00 1.05940 1.05940 1.05000 0.95000 OWNER 703 RANGE BASE CASE 70320 UDDZ_132 150.00 1.05132 1.05132 1.05000 0.95000 OWNER 703 RANGE BASE CASE 70324 UDD_TE31 150.00 1.05646 1.05646 1.05000 0.95000 OWNER 703 RANGE BASE CASE 70329 UKRGEC31 150.00 1.08000 1.08000 1.05000 0.95000 OWNER 703 RANGE BASE CASE 70345 UPOBUZ31 150.00 1.05474 1.05474 1.05000 0.95000 OWNER 703 RANGE BASE CASE 70347 UPROME31 150.00 1.06000 1.06000 1.05000 0.95000 OWNER 703 RANGE BASE CASE 70355 UMELIT31 150.00 1.05490 1.05490 1.05000 0.95000 OWNER 703 RANGE BASE CASE 70521 UJUAZS31 150.00 1.05538 1.05538 1.05000 0.95000 OWNER 703 RANGE BASE CASE 70524 UCENTR31 150.00 0.94800 0.94800 1.05000 0.95000 OWNER 703 RANGE BASE CASE 70533 UNTROI31 150.00 0.94948 0.94948 1.05000 0.95000 OWNER 703 RANGE BASE CASE 70535 USNIGI31 150.00 0.94441 0.94441 1.05000 0.95000 OWNER 700 RANGE 8-S 70242 USEVUK01 750.00 0.89461 0.99421 1.05000 0.92000 OWNER 700 RANGE 33-S 70703 UCAEC_01 750.00 0.85305 0.97259 1.05000 0.92000 OWNER 700 RANGE 34-S 70599 UJUAZS01 750.00 0.91018 0.95903 1.05000 0.92000 OWNER 700 RANGE 37-S 70006 UJDONB01 750.00 0.91670 0.95680 1.05000 0.92000 OWNER 703 RANGE 44-S 70315 UNIKOP32 150.00 1.07409 1.04075 1.05000 0.95000 OWNER 703 RANGE 44-S 70337 UFERRO31 150.00 1.05222 1.01516 1.05000 0.95000 OWNER 703 RANGE 44-S 70387 UNIKOP31 150.00 1.07409 1.04075 1.05000 0.95000 OWNER 708 RANGE 56-S 70530 UKOTOV81 330.00 0.87228 0.98442 1.10000 0.88000 OWNER 703 RANGE 57-S 70503 UTRIHA31 150.00 0.94959 0.97986 1.05000 0.95000 OWNER 703 RANGE 57-S 70516 UHNPZ_31 150.00 0.93607 0.95684 1.05000 0.95000 OWNER 703 RANGE 57-S 70524 UCENTR31 150.00 0.92046 0.94800 1.05000 0.95000 OWNER 703 RANGE 57-S 70535 USNIGI31 150.00 0.91633 0.94441 1.05000 0.95000 OWNER 703 RANGE 58-S 70392 UBERDN31 150.00 0.93019 0.97327 1.05000 0.95000 OWNER 703 RANGE 58-S 70503 UTRIHA31 150.00 0.90447 0.97986 1.05000 0.95000 OWNER 703 RANGE 58-S 70516 UHNPZ_31 150.00 0.89436 0.95684 1.05000 0.95000 OWNER 703 RANGE 58-S 70524 UCENTR31 150.00 0.87269 0.94800 1.05000 0.95000 OWNER 703 RANGE 58-S 70526 UNIKOL31 150.00 0.90637 0.98028 1.05000 0.95000 OWNER 703 RANGE 58-S 70533 UNTROI31 150.00 0.90270 0.94948 1.05000 0.95000 OWNER 703 RANGE 58-S 70535 USNIGI31 150.00 0.86700 0.94441 1.05000 0.95000 OWNER 703 RANGE 58-S 70536 UNIKOS31 150.00 0.91001 0.96554 1.05000 0.95000 OWNER 703 RANGE 58-S 70550 UHERSO31 150.00 0.92129 0.98131 1.05000 0.95000 OWNER 708 RANGE 58-S 70419 USIMFE81 330.00 0.84925 0.91509 1.10000 0.88000 OWNER 708 RANGE 58-S 70423 UKBURU81 330.00 0.86346 0.93184 1.10000 0.88000 OWNER 708 RANGE 58-S 70525 UNIKOL81 330.00 0.87795 0.94363 1.10000 0.88000 OWNER 703 RANGE 62-S 70269 ULOZ1531 150.00 0.91139 0.93842 1.05000 0.95000 OWNER 703 RANGE 62-S 70348 UPRIZO31 150.00 0.92969 0.96403 1.05000 0.95000 OWNER 703 RANGE 62-S 70369 UPAVLO31 150.00 0.93826 0.97488 1.05000 0.95000 BLACKSEA REGIONAL MODEL SUMMER MINIMUM LOAD 2010 <----------------- MONITORED BRANCH -----------------> CONTINGENCY RATING FLOW % 70313*UZAEC_01 750.00 70338 UZAEC_81 330.00 0 37-S 1000.0 1035.7 103.6
4.80
70380*UZAPAR01 750.00 70381 UZAP7S81 330.00 2 45-S 1000.0 1164.0 116.4 70308 UDNEPR81 330.00 70356*UDNEPR01 750.00 2 46-S 1000.0 1070.5 107.0 MONITORED VOLTAGE REPORT: SYSTEM CONTINGENCY <-------- B U S --------> V-CONT V-INIT V-MAX V-MIN OWNER 703 RANGE BASE CASE 70236 UKRMTC31 150.00 1.05232 1.05232 1.05000 0.95000 OWNER 703 RANGE BASE CASE 70345 UPOBUZ31 150.00 1.05879 1.05879 1.05000 0.95000 OWNER 703 RANGE BASE CASE 70355 UMELIT31 150.00 1.06787 1.06787 1.05000 0.95000 OWNER 703 RANGE BASE CASE 70521 UJUAZS31 150.00 1.06198 1.06198 1.05000 0.95000 OWNER 703 RANGE BASE CASE 70532 UPERV131 150.00 1.05150 1.05150 1.05000 0.95000 OWNER 703 RANGE BASE CASE 70740 UUMANJ31 150.00 1.06329 1.06329 1.05000 0.95000 OWNER 703 RANGE BASE CASE 70763 UTALJN31 150.00 1.06284 1.06284 1.05000 0.95000 OWNER 702 RANGE BASE CASE 70502 UTRIHA21 220.00 1.11645 1.11645 1.10000 0.82000 OWNER 702 RANGE 9-S 70016 UVELIK21 220.00 1.13006 1.07420 1.10000 0.82000 OWNER 700 RANGE 33-S 70703 UCAEC_01 750.00 0.91396 0.99868 1.05000 0.92000 OWNER 700 RANGE 38-S 70380 UZAPAR01 750.00 0.91552 0.93893 1.05000 0.92000 CONTINGENCY LEGEND: LABEL EVENTS 1-S : OPEN BRANCH FROM BUS 78 [XSA_MU11 400.00] TO BUS 70919 [UMUKAC11 400.00] CKT 1 2-S : OPEN BRANCH FROM BUS 84 [XRO_MU11 400.00] TO BUS 70919 [UMUKAC11 400.00] CKT 1 3-S : OPEN BRANCH FROM BUS 154 [XKI_MU21 220.00] TO BUS 70917 [UMUKAC21 220.00] CKT 1 4-S : OPEN BRANCH FROM BUS 155 [XTI_MU21 220.00] TO BUS 70917 [UMUKAC21 220.00] CKT 1 5-S : OPEN BRANCH FROM BUS 196 [XAL_ZA01 750.00] TO BUS 70995 [UZUKR702 750.00] CKT 1 6-S : OPEN BRANCH FROM BUS 501 [XPL_UA01 750.00] TO BUS 70808 [UHAEC_01 750.00] CKT 1 7-S : OPEN BRANCH FROM BUS 504 [XVK_MU11 400.00] TO BUS 70919 [UMUKAC11 400.00] CKT 1 8-S : OPEN BRANCH FROM BUS 506 [XRU_UA01 750.00] TO BUS 70242 [USEVUK01 750.00] CKT 1 9-S : OPEN BRANCH FROM BUS 508 [XRU_UA22 220.00] TO BUS 70102 [ULUTEC22 220.00] CKT 1 10-S : OPEN BRANCH FROM BUS 510 [XRU_UA24 220.00] TO BUS 70127 [UAMVRO21 220.00] CKT 1 11-S : OPEN BRANCH FROM BUS 511 [XRU_UA91 500.00] TO BUS 70178 [UPOBED91 500.00] CKT 1 12-S : OPEN BRANCH FROM BUS 512 [XRU_UA92 500.00] TO BUS 70185 [UDONBA91 500.00] CKT 1 13-S : OPEN BRANCH FROM BUS 513 [XRU_UA81 330.00] TO BUS 70125 [UJOZNA81 330.00] CKT 1 14-S : OPEN BRANCH FROM BUS 514 [XRU_UA82 330.00] TO BUS 70201 [UZMTZS81 330.00] CKT 1 15-S : OPEN BRANCH FROM BUS 515 [XRU_UA83 330.00] TO BUS 70211 [ULOSEV81 330.00] CKT 1 16-S : OPEN BRANCH FROM BUS 516 [XRU_UA84 330.00] TO BUS 70245 [USOSTK81 330.00] CKT 1 17-S : OPEN BRANCH FROM BUS 517 [XRU_UA85 330.00] TO BUS 70247 [USUMIS81 330.00] CKT 1 18-S : OPEN BRANCH FROM BUS 518 [XRU_UA86 330.00] TO BUS 70299 [UOTPLO81 330.00] CKT 1 19-S : OPEN BRANCH FROM BUS 519 [XMD_UA81 330.00] TO BUS 70805 [UDSGEC81 330.00] CKT 1 20-S : OPEN BRANCH FROM BUS 520 [XMD_UA82 330.00] TO BUS 70508 [UUSATO81 330.00] CKT 1 21-S : OPEN BRANCH FROM BUS 521 [XMD_UA83 330.00] TO BUS 70512 [UNODES81 330.00] CKT 1 22-S : OPEN BRANCH FROM BUS 522 [XMD_UA84 330.00] TO BUS 70530 [UKOTOV81 330.00] CKT 1 23-S : OPEN BRANCH FROM BUS 523 [XMD_UA85 330.00] TO BUS 70530 [UKOTOV81 330.00] CKT 2 24-S : OPEN BRANCH FROM BUS 524 [XMD_UA86 330.00] TO BUS 70530 [UKOTOV81 330.00] CKT 1 25-S : OPEN BRANCH FROM BUS 525 [XMD_UA87 330.00] TO BUS 70545 [UARCIZ81 330.00] CKT 1 26-S : OPEN BRANCH FROM BUS 539 [XUA_BY81 330.00] TO BUS 70727 [UCAEC_81 330.00] CKT 1 27-S : OPEN BRANCH FROM BUS 540 [XUA_BY82 330.00] TO BUS 70733 [UCERNI81 330.00] CKT 1 28-S : OPEN BRANCH FROM BUS 70985 [URAEC_01 750.00] TO BUS 70945 [UZUKR701 750.00] CKT 0 29-S : OPEN BRANCH FROM BUS 70945 [UZUKR701 750.00] TO BUS 70808 [UHAEC_01 750.00] CKT 0 30-S : OPEN BRANCH FROM BUS 70945 [UZUKR701 750.00] TO BUS 70827 [UVN_7501 750.00] CKT 0 31-S : OPEN BRANCH FROM BUS 70772 [UKIEV01 750.00] TO BUS 70808 [UHAEC_01 750.00] CKT 0 32-S : OPEN BRANCH FROM BUS 70772 [UKIEV01 750.00] TO BUS 70827 [UVN_7501 750.00] CKT 0 33-S : OPEN BRANCH FROM BUS 70772 [UKIEV01 750.00] TO BUS 70703 [UCAEC_01 750.00] CKT 0 34-S : OPEN BRANCH FROM BUS 70827 [UVN_7501 750.00] TO BUS 70599 [UJUAZS01 750.00] CKT 0 35-S : OPEN BRANCH FROM BUS 70599 [UJUAZS01 750.00] TO BUS 70356 [UDNEPR01 750.00] CKT 0 36-S : OPEN BRANCH FROM BUS 70356 [UDNEPR01 750.00] TO BUS 70380 [UZAPAR01 750.00] CKT 0 37-S : OPEN BRANCH FROM BUS 70313 [UZAEC_01 750.00] TO BUS 70006 [UJDONB01 750.00] CKT 0 38-S : OPEN BRANCH FROM BUS 70380 [UZAPAR01 750.00] TO BUS 70186 [UDONBA01 750.00] CKT 0 39-S : OPEN BRANCH FROM BUS 70006 [UJDONB01 750.00] TO BUS 70186 [UDONBA01 750.00] CKT 0 40-S : OPEN BRANCH FROM BUS 70006 [UJDONB01 750.00] TO BUS 70007 [UJDONB81 330.00] CKT 1 41-S : OPEN BRANCH FROM BUS 70186 [UDONBA01 750.00] TO BUS 70181 [UDONBA81 330.00] CKT 1 42-S : OPEN BRANCH FROM BUS 70186 [UDONBA01 750.00] TO BUS 70185 [UDONBA91 500.00] CKT 1 43-S : OPEN BRANCH FROM BUS 70242 [USEVUK01 750.00] TO BUS 70241 [USEVUK81 330.00] CKT 0 44-S : OPEN BRANCH FROM BUS 70313 [UZAEC_01 750.00] TO BUS 70338 [UZAEC_81 330.00] CKT 0 45-S : OPEN BRANCH FROM BUS 70380 [UZAPAR01 750.00] TO BUS 70381 [UZAP7S81 330.00] CKT 1 46-S : OPEN BRANCH FROM BUS 70356 [UDNEPR01 750.00] TO BUS 70308 [UDNEPR81 330.00] CKT 1 47-S : OPEN BRANCH FROM BUS 70599 [UJUAZS01 750.00] TO BUS 70520 [UJUAZS81 330.00] CKT 0 48-S : OPEN BRANCH FROM BUS 70703 [UCAEC_01 750.00] TO BUS 70727 [UCAEC_81 330.00] CKT 1 49-S : OPEN BRANCH FROM BUS 70772 [UKIEV01 750.00] TO BUS 70773 [UKIEV81 330.00] CKT 0 50-S : OPEN BRANCH FROM BUS 70827 [UVN_7501 750.00] TO BUS 70826 [UVN_7581 330.00] CKT 0 51-S : OPEN BRANCH FROM BUS 70808 [UHAEC_01 750.00] TO BUS 70809 [UHAEC_81 330.00] CKT 0 52-S : OPEN BRANCH FROM BUS 70945 [UZUKR701 750.00] TO BUS 70941 [UZAPUK81 330.00] CKT 1 53-S : OPEN BRANCH FROM BUS 70985 [URAEC_01 750.00] TO BUS 70902 [URAEC_81 330.00] CKT 0 54-S : OPEN BRANCH FROM BUS 70508 [UUSATO81 330.00] TO BUS 70523 [UADZAL81 330.00] CKT 1 55-S : OPEN BRANCH FROM BUS 70508 [UUSATO81 330.00] TO BUS 70523 [UADZAL81 330.00] CKT 2 56-S : OPEN BRANCH FROM BUS 70822 [ULDTEC81 330.00] TO BUS 70530 [UKOTOV81 330.00] CKT 0 57-S : OPEN BRANCH FROM BUS 70520 [UJUAZS81 330.00] TO BUS 70523 [UADZAL81 330.00] CKT 0 58-S : OPEN BRANCH FROM BUS 70520 [UJUAZS81 330.00] TO BUS 70501 [UTRIHA81 330.00] CKT 0 59-S : OPEN BRANCH FROM BUS 70851 [UDNGAE81 330.00] TO BUS 70822 [ULDTEC81 330.00] CKT 0 60-S : OPEN BRANCH FROM BUS 70818 [UBAR3 81 330.00] TO BUS 70851 [UDNGAE81 330.00] CKT 0 61-S : OPEN BRANCH FROM BUS 70381 [UZAP7S81 330.00] TO BUS 70140 [UKUTEC81 330.00] CKT 0 62-S : OPEN BRANCH FROM BUS 70316 [UPDTEC81 330.00] TO BUS 70306 [UPAVLO81 330.00] CKT 0 63-S : OPEN BRANCH FROM BUS 70306 [UPAVLO81 330.00] TO BUS 70144 [UKRARM81 330.00] CKT 0 64-S : OPEN BRANCH FROM BUS 70144 [UKRARM81 330.00] TO BUS 70151 [UCENTR81 330.00] CKT 0 65-S : OPEN BRANCH FROM BUS 70328 [UKRGEC81 330.00] TO BUS 70218 [UKREME81 330.00] CKT 0 66-S : OPEN BRANCH FROM BUS 70218 [UKREME81 330.00] TO BUS 70308 [UDNEPR81 330.00] CKT 0 67-S : OPEN BRANCH FROM BUS 70701 [UNEZIN81 330.00] TO BUS 70214 [UKANAT81 330.00] CKT 0 68-S : OPEN BRANCH FROM BUS 70185 [UDONBA91 500.00] TO BUS 70178 [UPOBED91 500.00] CKT 0
4.81
69-S : OPEN BRANCH FROM BUS 70170 [UHARCI81 330.00] TO BUS 70125 [UJOZNA81 330.00] CKT 0 70-S : OPEN BRANCH FROM BUS 70934 [UBUTEC11 400.00] TO BUS 70919 [UMUKAC11 400.00] CKT 0
4.6.8. Armenia BLACKSEA REGIONAL MODEL WINTER MAXIMUM LOAD 2010 ACCC OVERLOAD REPORT: MONITORED BRANCHES AND INTERFACES LOADED ABOVE 100.0 % OF RATING SET A CONTINGENCY CASE LOADING NOT CHECKED UNLESS IT DIFFERS FROM ITS BASE CASE LOADING BY 10.0 MVA (MW FOR INTERFACES) CONTINGENCY CASE LOADING NOT CHECKED UNLESS IT EXCEEDS ITS BASE CASE LOADING BY 5.0 PERCENT OF RATING SET A ACCC VOLTAGE REPORT: VOLTAGE BAND CHECK IN CONTINGENCY CASES SKIPPED FOR ANY BUS WITHIN 0.02000 OF ITS BASE CASE VOLTAGE MAGNITUDE AC CONTINGENCY RESULTS FILE: E:\0\BSR\0report\AM\AM.acc DISTRIBUTION FACTOR FILE: E:\0\BSR\0report\AM\AM.dfx SUBSYSTEM DESCRIPTION FILE: E:\0\BSR\0report\AM\AM.sub MONITORED ELEMENT FILE: E:\0\BSR\0report\AM\AM.mon CONTINGENCY DESCRIPTION FILE: E:\0\BSR\0report\AM\AM.con <----------------- MONITORED BRANCH -----------------> CONTINGENCY RATING FLOW % MONITORED VOLTAGE REPORT: SYSTEM CONTINGENCY <-------- B U S --------> V-CONT V-INIT V-MAX V-MIN BLACKSEA REGIONAL MODEL SUMMER MINIMUM LOAD 2010 <----------------- MONITORED BRANCH -----------------> CONTINGENCY RATING FLOW % MONITORED VOLTAGE REPORT: SYSTEM CONTINGENCY <-------- B U S --------> V-CONT V-INIT V-MAX V-MIN CONTINGENCY LEGEND: LABEL EVENTS SINGLE 1 : OPEN LINE FROM BUS 541 [XAM_GE21 220.00] TO BUS 82011 [8ALVRD2 220.00] CKT 1 SINGLE 2 : OPEN LINE FROM BUS 609 [XAM_GE11 400.00] TO BUS 84099 [8HRAZD1 400.00] CKT 1 SINGLE 3 : OPEN LINE FROM BUS 82001 [8HRAZD2 220.00] TO BUS 82003 [8HRZ_H2 220.00] CKT 1 SINGLE 4 : OPEN LINE FROM BUS 82001 [8HRAZD2 220.00] TO BUS 82003 [8HRZ_H2 220.00] CKT 2 SINGLE 5 : OPEN LINE FROM BUS 82001 [8HRAZD2 220.00] TO BUS 82007 [8VANDZ2 220.00] CKT 1 SINGLE 6 : OPEN LINE FROM BUS 82001 [8HRAZD2 220.00] TO BUS 82007 [8VANDZ2 220.00] CKT 2 SINGLE 7 : OPEN LINE FROM BUS 82001 [8HRAZD2 220.00] TO BUS 82022 [8ZOVUN2 220.00] CKT 1 SINGLE 8 : OPEN LINE FROM BUS 82001 [8HRAZD2 220.00] TO BUS 82029 [8MARSH2 220.00] CKT 1 SINGLE 9 : OPEN LINE FROM BUS 82001 [8HRAZD2 220.00] TO BUS 82040 [8GAVAR2 220.00] CKT 1 SINGLE 10 : OPEN LINE FROM BUS 82001 [8HRAZD2 220.00] TO BUS 84099 [8HRAZD1 400.00] CKT 1 SINGLE 11 : OPEN LINE FROM BUS 82001 [8HRAZD2 220.00] TO BUS 84099 [8HRAZD1 400.00] CKT 2 SINGLE 12 : OPEN LINE FROM BUS 82003 [8HRZ_H2 220.00] TO BUS 82021 [8SHAUM2 220.00] CKT 1 SINGLE 13 : OPEN LINE FROM BUS 82007 [8VANDZ2 220.00] TO BUS 82011 [8ALVRD2 220.00] CKT 1 SINGLE 14 : OPEN LINE FROM BUS 82007 [8VANDZ2 220.00] TO BUS 82013 [8GYUMR2 220.00] CKT 1 SINGLE 15 : OPEN LINE FROM BUS 82013 [8GYUMR2 220.00] TO BUS 82015 [8ASHNK2 220.00] CKT 1 SINGLE 16 : OPEN LINE FROM BUS 82015 [8ASHNK2 220.00] TO BUS 82018 [8AMNPP2 220.00] CKT 1 SINGLE 17 : OPEN LINE FROM BUS 82015 [8ASHNK2 220.00] TO BUS 82018 [8AMNPP2 220.00] CKT 2 SINGLE 18 : OPEN LINE FROM BUS 82018 [8AMNPP2 220.00] TO BUS 82021 [8SHAUM2 220.00] CKT 1 SINGLE 19 : OPEN LINE FROM BUS 82018 [8AMNPP2 220.00] TO BUS 82029 [8MARSH2 220.00] CKT 1 SINGLE 20 : OPEN LINE FROM BUS 82018 [8AMNPP2 220.00] TO BUS 82032 [8ARART2 220.00] CKT 1 SINGLE 21 : OPEN LINE FROM BUS 82021 [8SHAUM2 220.00] TO BUS 82022 [8ZOVUN2 220.00] CKT 1 SINGLE 22 : OPEN LINE FROM BUS 82021 [8SHAUM2 220.00] TO BUS 82045 [8HAGHT2 220.00] CKT 1 SINGLE 23 : OPEN LINE FROM BUS 82032 [8ARART2 220.00] TO BUS 82033 [8YEHGN2 220.00] CKT 1 SINGLE 24 : OPEN LINE FROM BUS 82032 [8ARART2 220.00] TO BUS 82045 [8HAGHT2 220.00] CKT 1 SINGLE 25 : OPEN LINE FROM BUS 82033 [8YEHGN2 220.00] TO BUS 82034 [8SPAND2 220.00] CKT 1 SINGLE 26 : OPEN LINE FROM BUS 82033 [8YEHGN2 220.00] TO BUS 82035 [8SHAMB2 220.00] CKT 1 SINGLE 27 : OPEN LINE FROM BUS 82033 [8YEHGN2 220.00] TO BUS 82039 [8LICHK2 220.00] CKT 1 SINGLE 28 : OPEN LINE FROM BUS 82034 [8SPAND2 220.00] TO BUS 82036 [8SHINU2 220.00] CKT 1 SINGLE 29 : OPEN LINE FROM BUS 82035 [8SHAMB2 220.00] TO BUS 82036 [8SHINU2 220.00] CKT 1 SINGLE 30 : OPEN LINE FROM BUS 82036 [8SHINU2 220.00] TO BUS 82038 [8AGARK2 220.00] CKT 1 SINGLE 31 : OPEN LINE FROM BUS 82036 [8SHINU2 220.00] TO BUS 82038 [8AGARK2 220.00] CKT 2 SINGLE 32 : OPEN LINE FROM BUS 82039 [8LICHK2 220.00] TO BUS 82040 [8GAVAR2 220.00] CKT 1
4.82
4.7. Border capacities Table 4.1 - Indicative NTC values Winter 2010
FROM TO MW VALUE PROVIDED BY
Bulgaria Romania 1300 Bulgaria/RomaniaTurkey 650 Bulgaria/Turkey
Georgia Russia 400 Georgia/RussiaTurkey 200 Georgia/Turkey
Moldova Romaina 1950 Moldova/RomaniaUkraine 1150 Moldova/Ukraine
Romania Bulgaria 1450 Bulgaria/RomaniaMoldova 550 Moldova/RomaniaUkraine 2500+ Romania/Ukraine
Russia Georgia 400 Georgia/RussiaUkraine 3000 Russia/Ukraine
Turkey Bulgaria 900 Bulgaria/TurkeyGeorgia 200 Georgia/Turkey
Ukraine Moldova 1000 Moldova/UkraineRussia 3000 Russia/UkraineRomania 1750 Romania/Ukraine
Indicative values for Net Transfer Capacities ( NTC ) in Black Sea regioWINTER 2010
(Non binding values)
These indicative values have been computed by extrapolation from standard situations, in order to evaluate the transfer capacity through a single interface at the same time. Thus these figures should be considered separately and are not cumulative. When the evaluation of a transfer limit requires to use a set of assumption which are too far from usual or foreseeable situation (leading to high inaccuracies), the NTC figure has been replaced by « no realistic limit ».
4.83
Table 4.2 – Indicative NTC values Summer 2010
FROM TO MW VALUE PROVIDED BY
Bulgaria Romania 1900 Bulgaria/RomaniaTurkey 600 Bulgaria/Turkey
Georgia Russia 850 Georgia/RussiaTurkey 200 Georgia/Turkey
Moldova Romaina 700 Moldova/RomaniaUkraine 1600 Moldova/Ukraine
Romania Bulgaria 1550 Bulgaria/RomaniaMoldova 650 Moldova/RomaniaUkraine 2500+ Romania/Ukraine
Russia Georgia 650 Georgia/RussiaUkraine 3000 Ukraine/Russia
Turkey Bulgaria 1500 Bulgaria/TurkeyGeorgia 200 Georgia/Turkey
Ukraine Moldova 1750 Moldova/UkraineRussia 3000 Ukraine/RussiaRomania 1750 Romania/Ukraine
Indicative values for Net Transfer Capacities ( NTC ) in Black Sea regioSUMMER 2010
(Non binding values)
These indicative values have been computed by extrapolation from standard situations, in order to evaluate the transfer capacity through a single interface at the same time. Thus these figures should be considered separately and are not cumulative. When the evaluation of a transfer limit requires to use a set of assumption which are too far from usual or foreseeable situation (leading to high inaccuracies), the NTC figure has been replaced by « no realistic limit ».
4.84
4.7.1. BULGARIA
97040
0
625*
*in isolated operation
Figure 4.35 – Bulgaria – NTC border capacities (values for 2005)
Romania
Greece
Bulgaria
Macedonia
Serbia
Black Sea
400
1100
900
650
Romania
Greece
Bulgaria
Macedonia
Serbia
Black Sea
400
1100
1500600
winter summer
Figure 4.36 – Bulgaria – NTC border capacities 2010
Table 4.3 – Bulgaria – Winter 2010 results
SCENARIO AMOUNT Area overloadings
/ out of limits voltages
Area contingencies # limit
/ Unom
Flow /
Voltage
rate /
volt.dev. 1 2 3 4 5 6 7 8
BG-RO 1500 INT OHL 400 kV RTANTA1-VAEC_41 INT OHL 400 kV RTANTA1-VAEC_41 1 1310MVA 1350.7MVA 101.5%RO-BG 1650 PRODUCTION LIMIT REACHED BG-TR 850 BG TR 400/220kV VMI3 2-VMI3 12 BG OHL 400 kV VMI3 11-VMI 1 1 800MVA 795.2MVA 99.5%TR-BG 1000 TR OHL 400 kV TADAPA12-TGEBZE11 TR OHL 400 kV TADAPA12-TGEBZE11 2 1430MVA 1303MVA 96.0%
Table 4.4 – Bulgaria – Summer 2010 results
SCENARIO AMOUNT Area overloadings
/ out of limits voltages
Area contingencies # limit
/ Unom
Flow /
Voltage
rate /
volt.dev. 1 2 3 4 5 6 7 8
BG-RO 2100 INT OHL 400 kV RTANTA1-VAEC_41 INT OHL 400 kV RTANTA1-VAEC_41 1 1310MVA 1289MVA 97.5% RO-BG 1750 PRODUCTION LIMIT REACHED BG-TR 800 BG TR 400/220kV VMI3 2-VMI3 12 BG OHL 400 kV VMI3 11-VMI 1 1 800 MVA 821.9 MVA 102.7% TR-BG 2000 TR OHL 400 kV TADAPA12-TGEBZE11 TR OHL 400 kV TADAPA12-TGEBZE11 2 1046.8MVA 977 MVA 93.3%
4.85
4.7.2. GEORGIA
Russia
Georgia
Turkey
IraqSyria
Iran
Armenia
Black Sea60
0
Azerbaijan
220
170
150
400
150
Russia
Georgia
Turkey
IraqSyria
Iran
Armenia
Black Sea
700
Azerbaijan
220
170
150
1000
150
winter summer
Figure 4.37 – Georgia – Network capacities 2005
Russia
Georgia
Turkey
IraqSyria
Iran
Armenia
Black Sea
400
Azerbaijan
220
170
200
400
200
Russia
Georgia
Turkey
IraqSyria
Iran
Armenia
Black Sea
650
Azerbaijan
220
170
200
850
200
winter summer
Figure 4.38 – Georgia – Network capacities 2010 Georgian and Russian Power Systems are connected through 500 KV lines is “Kavkasioni” by which the inflow amount For 2010 summer is: A) 1000 MW from Georgia to Russia , when the generated power by Enguri H.P.P is 1200 MW with voltage normal ranges . B) 700 MW from Russia to Georgia, when Enguri H.P.P is out of service and in thermal plant 1 unit is operable with 120 MW. For winter 2010 is : A) 405 MW from Georgia to Russia, when the generated power by Enguri H.P.P is 1200 MW with normal voltages. B) 610 MW from Russia to Georgia with normal voltages.
4.86
4.7.3. MOLDOVA No Net Transfer Capacities for Moldova have been published up to now. The capability of Moldovan network at present is highly dependant on operation of neighboring Ukrainian network.
1000 19
50
1950 55
0
UKRAINE
ROMANIA
MOLDOVA17
50 1600
700 65
0
UKRAINE
ROMANIA
MOLDOVA
winter summer
Figure 4.39 – Moldova – Network capacities 2010
Table 4.5 – Moldova – Winter 2010 results
SCENARIO AMOUNT Area
overloadings /
out of limits voltages Area contingencies #
limit /
Unom
Flow /
Voltage
rate /
volt.dev. 1 2 3 4 5 6 7 8
MD OHL 330kV 5BALTS8-5STRAS8 1 788.8MVA MD-RO 1300
MODEL INSTABILITY INT OHL 400kV 5VULKA1-RISACC1 1 1212.4MVA
RO-MD 800 PRODUCTION LIMIT REACHED MD OHL 330kV 5BALTS8-5STRAS8 1 788.8MVA
MD-UA 1300 MODEL INSTABILITY
INT OHL 400kV 5VULKA1-RISACC1 1 1212.4MVA UA-MD 800 PRODUCTION LIMIT REACHED
Table 4.6 – Moldova – Summer 2010 results
SCENARIO AMOUNT Area
overloadings /
out of limits voltages Area contingencies #
limit /
Unom
Flow /
Voltage
rate /
volt.dev. 1 2 3 4 5 6 7 8
MD-RO 800 INT OHL 400kV RROSIO1-UMUKAC11 1 INT OHL 400kV 5BALTS1-RSUCEA1 1 1 692.8MVA RO-MD 750 RO OHL 220kV RLOTRU2-RSIBIU2 1 RO OHL 220kV RLOTRU2-RSIBIU2 2 333.4MVA MD-UA 1250 INT OHL 400kV RROSIO1-UMUKAC11 1 INT OHL 750kV MAISA 0-UZUKR702 1 2598.1MVA UA-MD 750 PRODUCTION LIMIT REACHED
4.87
4.7.4. ROMANIA
Romania
Ukraine
Hungary
Bulgaria
SerbiaBlack Sea
750
850
1350
Moldavia
800
Romania
Ukraine
Hungary
Bulgaria
SerbiaBlack Sea
1530
1650
1580
Moldavia
2230
Winter Summer Source: Indicative values for Net Transfer Capacities ( NTC ) in Europe
Figure 4.40 – Romania – Network capacities 2005
550
700 65
0
Winter Summer
Figure 4.41 – Romania – Network capacities 2010 Table 4.7 – Romania – Winter 2010 results
SCENARIO AMOUNT Area
overloadings /
out of limits voltages Area contingencies #
limit /
Unom
Flow /
Voltage
rate /
volt.dev. 1 2 3 4 5 6 7 8
RO-MD 1400 MD TR 330/110 5BALTS1 INT OHL 400kV 5BALTS1-RSUCEA1 1 1 210MVA 487 231.9% MD-RO 200 MD PRODUCTION LIMIT REACHED RO-UA 2000 PRODUCTION LIMIT REACHED UA-RO 500 INT OHL 400kV RROSIO1-UMUKAC11 1 INT OHL 750kV MAISA 0-UZUKR702 1 693MVA 695 100.3% RO-BG 1200 INT OHL 400 kV RTANTA1-VAEC_41 INT OHL 400 kV RTANTA1-VAEC_41 1 1211MVA 1232.8 101.8% BG-RO 1500 PRODUCTION LIMIT REACHED
Table 4.8 – Romania – Summer 2010 results
SCENARIO AMOUNT Area
overloadings /
out of limits voltages Area contingencies #
limit /
Unom
Flow /
Voltage
rate /
volt.dev. 1 2 3 4 5 6 7 8 RO-MD 1050 MD TR 330/110 5BALTS1 INT OHL 400kV 5BALTS1-RSUCEA1 1 1 210MVA 537.6 256.0% MD-RO 200 INT OHL 330kV UUSATO81-5MREPP8 1 INT OHL 400kV 5BALTS1-RSUCEA1 1 1 120MVA 122.16 101.8% RO-UA 2000 PRODUCTION LIMIT REACHED UA-RO 450 INT OHL 400kV RROSIO1-UMUKAC11 1 INT OHL 750kV MAISA 0-UZUKR702 1 693MVA 700 101.0% RO-BG 1350 INT OHL 400 kV RTANTA1-VAEC_41 INT OHL 400 kV RTANTA1-VAEC_41 1 1211MVA 1215.844 100.4% BG-RO 2100 PRODUCTION LIMIT REACHED
4.88
4.7.5. RUSSIA
GEORGIA
400 40
0
ROSSIA
UKRAINE
OVA
3000 30
00
GEORGIA
650 85
0
ROSSIA
UKRAINE
OVA
3000 30
00
Winter Summer
Figure 4.42 – Russia – Network capacities 2005
GEORGIA
400 40
0
ROSSIA
UKRAINE
OVA
3000 30
00
GEORGIA
650 85
0
ROSSIA
UKRAINE
OVA
3000 30
00
Winter Summer
Figure 4.43 – Russia – Network capacities 2010
4.89
4.7.6. TURKEY
200 20
0
TURKEY
600650
BULGARIA
GEORGIA
200 20
0
TURKEY
1500600
BULGARIA
GEORGIA
Winter Summer
Figure 4.44 – Turkey – Network capacities 2005
200 20
0
TURKEY
900650
BULGARIA
GEORGIA
200 20
0
TURKEY
1500600
BULGARIA
GEORGIA
Winter Summer
Figure 4.45 – Turkey – Network capacities 2010
Table 4.9 – Turkey – winter 2010 results SCENARIO AMOUNT Area overloadings
/ out of limits voltages
Area contingencies # limit /
Unom
Flow /
Voltage
rate /
volt.dev. 1 2 3 4 5 6 7 8
TR-BG 1100 TR OHL 400 kV TADAPA12-TGEBZE11 TR OHL 400 kV TADAPA12-TGEBZE11 2 1430.7MVA 1302.5MVA 95.9% TR 400/150 kV THAMIT1 OHL 400 kV TBABAE11-TUNIMR1 1 250MVA 286.5MVA 114.6%
BG-TR 850 BG TR 400/220 kV VMI3 2 1 BG OHL 400 kV VMI3 11-VMI 1 1 800 MVA 795.2 MVA 99.5% TR TR 220/150 kV THOPA 3 1 1 150.0MVA 170.2MVA 113.5% TR TR 220/150 kV THOPA 3 2 180.0MVA 179.8MVA 99.9% INT OHL 220kV THOPA 2-6BATUM2 1 371.1MVA 349.3MVA 96.9% GE OHL 220kV 6VARDI2 - 6ZUGDI2 1
TR OHL 500 kV 6HENGU9-6ZESTA9
318.2MVA 382.2MVA 118.9% INT OHL 220kV THOPA 2-6BATUM2 1 1 371.1MVA 356.1MVA 97.3% TR TR 220/150 kV THOPA 3 1 150.0MVA 172.9MVA 115.3% TR TR 220/150 kV THOPA 3 2 180.0MVA 182.6MVA 101.5% TR TR 400/150 kV TBORCK1 1 250.0MVA 243.4MVA 97.4%
TR-GE 200
TR TR 400/150 kV TBORCK1 2
TR OHL 400 kV TDERIN1-TERZUR1
250.0MVA 243.4MVA 97.4% GE OHL 220 kV 6VARDI2 - 6ZUGDI2 1 318.2 MVA 455.0 MVA 145.0% GE-TR 200 GE TR 500/220 kV 6HENGU9 1 GE OHL 500 kV 6HENGU9-6ZESTA9 500 MVA 773.7 MVA 154.7%
Table 4.10 – Turkey – Summer 2010 results
SCENARIO AMOUNT Area overloadings
/ out of limits voltages
Area contingencies # limit
/ Unom
Flow /
Voltage
rate /
volt.dev. 1 2 3 4 5 6 7 8 TR-BG 1700TR OHL 400 kV TADAPA12-TGEBZE11 TR OHL 400 kV TADAPA12-TGEBZE11 2 1046.8MVA 976.8 95.3%BG-TR 800BG TR 400/220 kV VMI3 2 1 BG OHL 400 kV VMI3 11-VMI 1 1 800 MVA 821.9 102.7%
TR TR 220/150 kV THOPA 3 1 150.0MVA 165.6MVA 110.4%TR TR 220/150 kV THOPA 3 2 180.0MVA 174.9MVA 97.2%TR-GE 200TR OHL 150 kV TMURAT3-TBORCK3
TR OHL 400 kV TTIREB1-TBORCK1 1 240.6MVA 370.2MVA 154.2%
GE TR 500/220 kV 6HENGU9 1 500MVA 483.8MVA 96.8%GE-TR 200TR TR 220/150 kV THOPA 3 1
INT OHL 500kV 4CENTR9-6HENGU9 1 150.0MVA 177.7MVA 118.5%
4.90
TR TR 220/150 kV THOPA 3 2 180.0MVA 187.7MVA 104.3%INT OHL 220kV THOPA 2-6BATUM2 1 371.1MVA 360.8MVA 103.3%GE OHL 220kV 6VARDI2 - 6TKVAR2 1 371.0MVA 375.2MVA 104.7%GE OHL 220kV 6TKVAR2-6SOUKH2 1 371.0MVA 365.0MVA 101.9%
4.91
4.7.7. UKRAINE
Figure 4.46 - Ukraine – Network capacities for 2005
1750 25
00
ROSSIA
ROMANIA
UKRAINE
MOLDOVA10
00 1150
3000 30
00
1750 25
00
ROSSIA
ROMANIA
UKRAINE
MOLDOVA17
50 1600
3000 30
00
Winter Summer
Figure 4.47 – Ukraine – Network capacities 2010 Table 4.11 – Ukraine – winter 2010 results
SCENARIO AMOUNT Area
overloadings /
out of limits voltages Area contingencies #
limit /
Unom
Flow /
Voltage
rate /
volt.dev. 1 2 3 4 5 6 7 8 UA-MD 500 RO OHL 220kV RBUC.S2B-RFUNDE22 1 304.8MVA 398.4 130.7% MD-UA 1850 PRODUCTION LIMIT REACHED UA-RO 350 INT OHL 400kV RROSIO1-UMUKAC11 1 INT OHL 750kV MAISA 0-UZUKR702 1 692MVA 728 105.2% RO-UA 3000 PRODUCTION LIMIT REACHED
4.92
Table 4.12 – Ukraine – Summer 2010 results
SCENARIO AMOUNT Area
overloadings /
out of limits voltages Area contingencies #
limit /
Unom
Flow /
Voltage
rate /
volt.dev. 1 2 3 4 5 6 7 8
RO OHL 220kV RFUNDE22-RBUC.S2B 1 304.8MVA 348.4 114.3% UA-MD 2000 RO OHL 220kV RFUNDE21-RBUC.S2B 1 304.8MVA 342 112.2%
MD-UA 2000 PRODUCTION LIMIT REACHED UA-RO 300 INT OHL 400kV RROSIO1-UMUKAC11 1 INT OHL 750kV MAISA 0-UZUKR702 1 692 717 103.6% RO-UA 3000 PRODUCTION LIMIT REACHED
4.7.8. ARMENIA There are no NTC values for Armenia, since it operates only in radial operation with neighboring countries, and transfers are limited by the capacities of existing interconnection lines.
4.93
4.8. Import/Export Scenarios
Russia
Georgia
Azerb
Albania
Austria
BIH
Bulgaria
Belarus
Croatia
Czech republic
Greece
Italy
Hungary
Lithuania
Makedonia
Poland
Romania
Slovakia
Slovenia
Turkey
Ukraine
SRB
Iran
Black Sea
Armenia
3400
13001450
1500
18001100
Figure 4.48 – Import/Export – Network capacities Winter 2010
Table 4.13 – Import/Export - Winter 2010 results
SCENARIO AMOUNT Area
overloadings /
out of limits voltages Area contingencies #
limit /
Unom
Flow /
Voltage
rate /
volt.dev. 1 2 3 4 5 6 7 8 RO-TR 1300INT OHL 400 kV RTANTA1-VAEC_41 INT OHL 400 kV RTANTA1-VAEC_41 1 1211MVA 1236.2 102.0%TR-RO 1450TR OHL 400kV TADAPA12-TGEBZE11 1 TR OHL 400kV TADAPA12-TGEBZE11 2 1430.7MVA 1456.5 101.8%UA+RU-CE 3450INT OHL 750kV ZRZE7101-UHAEC_01 1 INT OHL 400kV RROSIO1-UMUKAC11 1 2507.1MVA UA+RU-SEE 1500RO TR 400/220kV RROSIO1 1 RO OHL 400kV RROSIO1-RGADAL1 1 400MVA
OHL 400 kV TADAPA12-TGEBZE11 OHL 400 kV TADAPA12-TGEBZE11 2 1430.7MVA 1314.4MVA 96.9%TR-UCTE 1200TR TR 400/150 kV THAMIT1 TR OHL 400 kV TBABAE11-TUNIMR1 1 250.0MVA 320.2MVA 128.1%
TR OHL 400 kV GFILIP1-VMI3 11 1 250.0MVA 259.4MVA 103.8%TR TR 400/150 kV THAMIT1 1 TR OHL 400 kV GKEXRU1-TBABAE11 1 250.0MVA 348.5MVA 139.4%
RO OHL 110kV RCTA N5-RCTA B5 RO OHL 400 kV TBABAE12-VMI3 11 1 149.6MVA 165.4MVA 111.1%UCTE-TR 1000
BG TR 220/110 kV VPLEVE21 1 BG OHL 400 kV VCAREV1-VMIZIA1 1 200.0MVA 194.9MVA 97.5%
4.94
Russia
Georgia
Azerb
Albania
Austria
BIH
Bulgaria
Belarus
Croatia
Czech republic
Greece
Italy
Hungary
Lithuania
Makedonia
Poland
Romania
Slovakia
Slovenia
Turkey
Ukraine
SRB
Iran
Black Sea
Armenia
3400
13001450
2000
18001100
Figure 4.49 – Import/Export – Network capacities Summer 2010
Table 4.14 – Import/Export - Summer 2010 results
SCENARIO AMOUNT Area overloadings
/ out of limits voltages
Area contingencies # limit
/ Unom
Flow /
Voltage
rate /
volt.dev. 1 2 3 4 5 6 7 8 RO-TR 1450TR OHL 400kV THAMIT1-TBABAE12 INT OHL 400kV THAMIT1-VMI3 11 1 1057.2MVA 1082.6 102.4%TR-RO 1300 PRODUCTION LIMIT REACHED UA+RU-CE 3400INT OHL 750kV ZRZE7101-UHAEC_01 1 INT OHL 400kV QVKAP_1-UMUKAC11 1 692.8MVA UA+RU-SEE 2000INT OHL 400kV 5BALTS1-RSUCEA1 1 INT OHL 750kV MAISA 0-UZUKR702 1 1212.4MVA TR-UCTE 1800TR OHL 400 kV TADAPA12-TGEBZE11 TR OHL 400 kV TADAPA12-TGEBZE11 2 1046.8MVA 998.1MVA 97.5%
TR OHL 400 kV TADAPA12-TGEBZE12 TR OHL 400 kV TPASAK1-TGEBZE12 1 1589.3MVA 1480.0MVA 95.2%UCTE-TR 1100BG TR 400/220 kV VMI3 2 1 BG OHL 400 kV VMI3 11-VMI 1 1 800MVA 810.8MVA 101.3%
5.1
5. NEW PLANNED LINES AND SUBSTATIONS
5.2
Table 5.1 – Black Sea region - Planned network reinforcements CAPACITY LENGTH VOLTAGE
LEVEL limited CROSS BR1 BR2 TOTAL TYPE SUBSTATION1 SUBSTATION2 kV/kV
Number Of
Circuits /units A or MVA A or MVA
MATERIAL OR
TRANSFORMERTYPE mm2 km km km
DATE OF COMMISSION STATUS
1 2 3 2 3 4 5 6 7 8 9 10 11 12 13 14 BULGARIA
OHL BG C.Mogila MK Stip 400 1 1890 - ACSR 2X500 80 70 150 2008 construction OHL BG M.East GR Nea Santa 400 1 1890 - ACSR 2X500 - - - - Feasibility study OHL BG Zlatitsa BG Plovdiv 400 1 1890 - ACSR 2X500 - - 140 2007
GEORGIA SS GE Qsani 500/400 1 3X267 LTC 2009 Feasibility study
OHL GE Qsani AM TPP Hrazdan 400 1 1100 1400 ACSR 2x300 80 90 170 2009 Feasibility study OHL GE Mukharani AZ AZ TPP 330 1 283 SS GE Akhaltske 500/400 1 BB GE Akhaltske 400 1
OHL GE Akhaltske Marneuli 500 1 OHL GE Marneuli Gardabani 500 1 OHL GE Akhaltske Menji 500 1 OHL GE Menji Kudoni 500 1 OHL GE Akhaltske Zestaponi 500 1 71 OHL GE Akhaltske TR Borcka 400 1 130 OHL GE Gardabani AR Atarbeksan 330 1 OHL GE Enguri RU Centralna(Sochi) 500 1 450
MOLDOVA OHL MD Balti RO Suceava 400 1 SS MD Chisinau 400/330 1
OHL MD Chisinau RO Iasi 400 1 OHL MD Balti UA Dnestrovska HPP 330 1 OHL MD Balti MD Straseni 330 1 OHL MD Straseni MD Chisinau 330 1 OHL MD Balti MD Ribnita 330 1 SS MD Balti 400/330 1 IPC SS MD Moldovskaya 400/330 1 IPC
ROMANIA SS RO Portile de Fier II 220/110 2 2*200 2 windings 2008
OHL RO Portile de Fier II RO Cetate 220 1 875 Ol-Al 450 80 2008 OHL RO Portile de Fier II RO Portile de Fier I 220 1 875 Ol-Al 450 71 2008 CSS RO Nadab - 400 OHL RO Oradea RO Nadab 400 1 1997 Ol-Al 3*300 75 OHL RO Arad RO Nadab 400 1 1997 Ol-Al 3*300 35 OHL RO Nadab HU Bekescsaba Border 400 1 1750 Ol-Al 3*300 23 2008 OHL HU Bekescsaba Border HU Bekescsaba 400 1 1750 Ol-Al 2*500 37 2010 SS RO Suceava 400/110 2 250 2 windings 2010
OHL RO Suceava MD Balti 400 1 1750 Ol-Al 3*300 95 2014
5.3
SS RO Bacau 400/220 1 400 2 windings 2014 SS RO Roman 400/220 1 400 2 windings 2014
OHL RO Suceava RO Roman 400 1 1700 Ol-Al 3*300 100 2014 OHL RO Roman RO Bacau 400 1 1700 Ol-Al 3*300 58.8 2014 OHL RO Bacau RO Gutinas 400 1 1700 Ol-Al 3*300 55.3 2014 SS RO Iasi 400/220 2010
OHL RO Iasi MD Chisinau 400 1 2010 SS RO Resita 400/220 1 400 2 windings 2014 SS RO Resita 400/110 1 250 2 windings 2014
OHL RO Portile de Fier I RO Resita 400 1 1997 Ol-Al 3*300 117 2014 SS RO Timisoara 400/220 1 400 2 windings 2014
OHL RO Timisoara RO Resita 400 1 1997 Ol-Al 3*300 73 2014 OHL RO Timisoara RO Arad 400 1 1997 Ol-Al 3*300 55 2014 OHL RO Timisoara CS Vrsac 400 1 1750 Ol-Al 3*300 100 2014 DC RO Constanta 400 600 ? SK RO Constanta TR Pasakoy 400 1 600 200 200 400 ?
OHL RO Constanta RO Medgidia 400 1 1800 Ol-Al 3*300 21 2010-2014 RUSSIA
OHL RU Sotchi GE Enguri 500 1 450 SS RU Rostov 500 2
OHL RU Rostov Sahti 30 500 1 OHL RU Rostov Frolovskaya 500 1 OHL RU Rostov R 20 220 1 SS RU Krimskaya II 500 2
OHL RU Krimskaya II Tihoreck 500 1 SS RU Senaya Senaya 220 1
OHL RU Krimskaya II Senaya 220 1 OHL RU Krimskaya II Slavyansk 220 1 OHL RU Slavyansk Senaya 220 1 SS RU Nevinomysk 500 1
OHL RU Nevinomysk Volgodonskaya 500 1 SS RU Mozdok 500 2
OHL RU Nevinomysk Mozdok 500 1 SS RU Alagir 330 2
OHL RU Nalcik Alagir 330 1 OHL RU V2 Alagir 330 1 SS RU Kizljar 330 2 SS RU Grozniy 330 2 SS RU Artem 330 2
OHL RU Mozdok Artem 330 1 OHL RU HP Irganskaya Artem 330 1 OHL RU Derbent Artem 330 1 OHL RU Derbent AZ Apsheron 330 1
TURKEY SS TR Afyon - - 400/150 250 2006 construction SS TR Agri - - 400/150 250+150 2006 construction
5.4
OHL TR Aliağa Manisa 400 1 ACSR 3Bx1272 2006 completed SS TR Baglum - - 400/150 2x250 2006 construction SS TR Beykoz GIS - - 400/33 2x125 2006 construction SS TR Davutpaşa GIS - - 400/150 250 2006 construction SS TR Davutpaşa GIS - - 400/33 125 2006 construction SS TR Erzurum - - 400/150 250 2006 construction
OHL TR Erzurum Horasan 400 1 ACSR 3Bx954 2006 construction SS TR Germencik - - 400/150 2x250 2006 construction SS TR Hilvan - - 400/150 250 2006 construction SS TR Hilvan - - 400/33 125 2006 construction
OHL TR Horasan Agri 400 1 ACSR 3Bx954 2006 construction OHL TR HPP Borçka-Deriner HPP Yusufeli 400 1 ACSR 3Bx954 2006 construction OHL TR HPP Oymapinar Varsak 400 1 ACSR 3Bx954 2006 construction OHL TR HPP Yusufeli Erzurum 400 1 ACSR 3Bx954 2006 construction SS TR Ikiteli - - 400/33 2x125 2005 completed K TR Ikitelli Davutpasa 400 1 2000 mm2 2006 completed
OHL TR Isiklar Manisa 400 1 ACSR 3Bx1272 2006 completed OHL TR Iyidere HPP Borçka 400 1 ACSR 3Bx1272 2006 completed OHL TR Karabiga-Çan TPP Soma 400 1 ACSR 3Bx954 2006 construction OHL TR Karakya-Ataturk Hilvan 400 1 ACSR 3Bx954 2006 completed SS TR Manisa - - 400/150 2x250 2006 construction
OHL TR Tirebolu Iyidere 400 1 ACSR 3Bx1272 2006 completed SS TR TPP Iskenderun - - 400/150 250 2006 construction
OHL TR TPP Unimar Babaeski 400 1 ACSR 3Bx954 2006 construction OHL TR Yeniköy-Uzundere Aydin 400 2 ACSR 3Bx954 2006 completed
K TR Yildiztepe Davutpasa 400 2 2000 mm2 2006 construction SS TR Zekeriyakoy GIS - - 400/150 250 2006 construction SS TR Zekeriyakoy GIS - - 400/33 125 2006 construction SS TR Hatay - - 400/150 250 2007 construction SS TR Hatay - - 400/33 125 2007 construction
OHL TR Hatay Erzin 400 1 ACSR 3Bx954 2007 construction SS TR Mersin - - 400/150 250 2007 construction SS TR Mersin - - 400/33 125 2007 construction
OHL TR Mersin TPP Iskenderun 400 1 ACSR 3Bx954 2007 construction OHL TR Seydişehir HPP Oymapinar 400 1 ACSR 3Bx954 2007 construction SS TR Umraniye - - 400/150 2x250 2007 construction SS TR Borçka - - 400/150 250 ?
OHL TR Borcka GE Akhaltske 400 1 130 OHL TR Babaeski GR N.Santa 400 1 ACSR 3Bx954 64 2010 F.study DC TR Pasakoy 400 600 MW Idea SK TR Pasakoy RO Constanta 400 1 600 MW 200 200 400 Idea
UKRAINE OHL UA Pivdenoukrainskaya RO Isaccea 750 1 4000 A - ACSR 400*5 406 3 409 2015 Feasibility study SS UA Kyivska 750/330 1 1000 MVA - PST - - - - 2008 Construction
OHL UA Rivnenska NPP UA Kyivska 750 1 4000 A - ACSR 400*5 370 0 370 2008 Construction OHL UA Zahidnoukrainska UA Bogorodchani 330 1 1670 A - ACSR 400*2 111 0 111 2010 Construction
5.5
OHL UA Dnistrovska PSHPP UA Bar 330 1 1670 A - ACSR 400*2 95 0 95 2007 Construction OHL UA Novoodeska UA Artsyz 330 1 1670 A - ACSR 400*2 140 0 140 2007 Feasibility study OHL UA Adgalyk UA Usatovo 330 1 1670 A - ACSR 400*2 124 0 124 2007 Feasibility study OHL UA Zarya UA Mirna 330 1 1380 A - ACSR 300*2 14 0 14 2008 Construction OHL UA Simferopol UA Sevastopol 330 1 1670 A - ACSR 400*2 70 0 70 2007 Feasibility study OHL UA Dgankoj UA Melitopol–Simferopol 330 1 1380 A - ACSR 400*2 16 0 16 2006 Construction OHL UA Pivnichnoukrainska UA Kyivska 750 1 4000 A - ACSR 400*5 292 0 292 2015 Feasibility study OHL UA Zaporizka NPP UA Kahovska 750 1 4000 A - ACSR 400*5 190 0 190 2015 Feasibility study OHL UA Lutsk Pivnichna UA Ternopil 330 1 1670 A - ACSR 400*2 180 0 180 2010 Feasibility study OHL UA K.Podolska UA Ternopil 330 1 1670 A - ACSR 400*2 150 0 150 2012 Feasibility study OHL UA HPP Dnistrovska MD Balti 330 1 1670 A - ACSR 400*2 120 0 120 2012 Idea
ARMENIA SS AM Hrazdan TPP 400/220 10 2x5x200 2x5x220 2009 Feasibility study
OHL AM Hrazdan TPP IR Tavriz 400 2 2x1800 2x1900 ACSR 2x(2x500) 332 100 432 2010 Feasibility study OHL AM Hrazdan TPP GE Ksani 400 1 1100 1400 ACSR 2x300 90 80 170 2009 Feasibility study
1 Type of project (OHL - overhead line, K - cable, SK - submarine cable, SS - substation, BB - back to back system...) 2 Country (ISO code) 3 Substation name 4 Installed voltage (for lines nominal voltage, for transformers ratio in voltages) 5 number of circuits/units 6 Conventional transmission capacity of elements for OHL in Amps, for transformers in MVA 7 Conventional transmission capacity limited by transformers or substations 8 Type of conductor or transformer (ACSR - Aluminum Cross-section Steel Reinforced, or code of conductor, PS - phase shift transformer...) 9 Cross-section (number of ropes in bundle x cross-section/cross-section of reinforcement rope) 10 Length till border of first state 11 Length till border of second state 12 Total length 13 Date of commissioning (estimate) 14 Status of project (Idea, Feasibility study, Construction, Damaged, out of service, Decommissioned...)
Table 5.2 – Black Sea region - Planned new generation units VOLTAGE
LEVEL CAPACITY DATE OF
COMMISSIONING TYPE SUBSTATION1 kV kV MW MVA year STATUS
1 2 3 4 5 6 7 8 9 NPP BG Belene 24 400 2x1000 2x1111 2012 construction
CCHP MD Balti 15.75 400 3x150 3x176 2010 CCHP MD Vulkanesti 15.75 400 3x150 3x176 2010 NPP RO Cernavoda 24 400 2x700 740 2010- 2014 construction HPP RU Zaramagskaya 330 2010 HPP RU Cherkeskaya II 330 2010 NPP RU Volgodonskaya 20 500 1000 1111 2010 HPP TR Ermenek 400 320 -2010 HPP TR Kargı 400 214 -2010 HPP TR Borçka 400 300 -2010
5.6
HPP TR Deriner 400 670 -2010 PSHPP UA Dnistrovska 15.75 330 324/416 360 2008 Construction CCHP UA Kyivska 6 20 330 250 353 2008 Construction PSHPP UA Tashlykska 15.75 330 2x146/2x211 307 2006 Construction PSHPP UA Tashlykska 15.75 330 2x146/2x211 307 2008 Construction CCHP AM Yerevan TPP new unit 18 110 208 240 2009 Tendering TPP AM Hrarzdan TPP unit 5 15.75 220 440 510 2009 Partly Constructed
1 Type of plant (HPP - Hydropower plant, TPP - Thermal power plant, PSHPP - Pump Storage Hydro Power Plant, CCHP - Combined Cycle Heating Plant...) 2 Country 3 Substation name 4 Generator voltage level 5 Network voltage level 6 Installed active power 7 Installed apparent power 8 Date of commissioning (estimate) 9 Status of the project (Idea, Feasibility study, Construction...)
6.1
6. FINDINGS Findings based on past experience and calculations performed, what are critical points of interconnected network, limitations in regional network and how new elements that are modeled influence these limitations Connection between Turkey and Georgia is at present only one 220kV line Hopa(TR)-Batumi(GE), and this is most limiting factor for transfer capacity between these two countries. Building of the new 400 kV line Borcka (TR)- Akhaltske (GE) will significantly increase transfer capacity between these two countries, to at least 600 MW in both directions. It is also essential to strengthen internal 500 kV network in Georgia, with two new lines connecting Achalciche (GE) substation with existing stations Zestafoni and Gardabani. To increase further secure operation of the system is also necessary to build line Enguri-Achalchice as back up to old line Enguri-Zestafoni. Together with building the second line between Centralna (RU)-Enguri(GE), this will significantly increase overall network capacities in the region.
1. In case of a synchronous operation of the whole area a natural load flow loop is triggered. The direction is Russia → Ukraine → Romania → Bulgaria → Turkey → Georgia → Russia and it can involve up to 300 MW creating big problems for the weak interconnection between Georgia and Turkey. {to be checked for Armenia}
2. Connection between Turkey and Georgia (only one 220 kV s.c. OHL) is presently the most limiting factor for transfer capacity in the analyzed area. Building of a new interconnection 400 kV s.c. OHL (Borcka – Akhaltsikhe) operating in asynchronous mode (back-to-back station of 650 MW) will significantly increase the safety in operation of Georgian Power System and the total transfer capacity in both directions.
3. According to the calculations the NTC between the countries are presented in the following Table: Table 1 – Indicative values for the bilateral transmission capacity – Winter Peak Load No FROM TO ∆Emax [MW] BCE [MW] TRM [MW] NTC [MW] 1 Bulgaria Romania 1500 0 200 1300 2 Bulgaria Turkey 850 0 200 650 3 Georgia Russia 650 -200 50 400 4 Georgia Turkey 250 0 50 200 5 Moldova Romania 1300 750 100 1950 6 Moldova Ukraine 1850 -450 250 1150 7 Romania Bulgaria 1650 0 200 1450 8 Romania Moldova 1400 -750 100 550 9 Romania Ukraine above2500 0 150 2500 10 Russia Georgia 250 200 50 400 11 Russia Ukraine 3150 200 350 3000 12 Turkey Bulgaria 1100 0 200 900 13 Turkey Georgia 450 0 50 400 14 Ukraine Moldova 800 450 250 1000 15 Ukraine Russia 3550 -200 350 3000 16 Ukraine Romania 1900 0 150 1750
6.2
Table 2 – Indicative values for the bilateral transmission capacity – Summer Light Load No FROM TO ∆Emax [MW] BCE [MW] TRM [MW] NTC [MW] 1 Bulgaria Romania 2100 0 200 1900 2 Bulgaria Turkey 800 0 200 600 3 Georgia Russia 900 0 50 850 4 Georgia Turkey 50 200 50 200 5 Moldova Romania 450 350 100 700 6 Moldova Ukraine 2200 -350 250 1600 7 Romania Bulgaria 1750 0 200 1550 8 Romania Moldova 1100 -350 100 650 9 Romania Ukraine above2500 0 150 2500 10 Russia Georgia 700 0 50 650 11 Russia Ukraine 3150 200 350 3000 12 Turkey Bulgaria 1700 0 200 1500 13 Turkey Georgia 450 -200 50 200 14 Ukraine Moldova 1650 350 250 1750 15 Ukraine Russia 3550 -200 350 3000 16 Ukraine Romania 1900 0 150 1750
4. If we consider the structure forecasted for 2010 the results from the previous tables shows a
very strongly meshed power grid between some of the countries in the area, thus: • Between Ukraine and Russia – over 3000 MW in both winter and summer regimes. • Between Romania and Ukraine – over 2500 MW in both winter and summer regimes
5. Also, for the same time horizon (2010) and power grid structure we can identify some “weak points” : • Between Georgia and Turkey – only 200 MW in both winter and summer regimes • Between Turkey and Bulgaria – only 600 MW in the winter regime • Between Romania and Moldova - ~600 MW in both winter and summer regimes • Between Russia and Georgia – 600 ÷ 700 MW Taking into account the geographical conditions and the other interconnection of Turkey with Greece in the same area, it is understandable the low capacity between Turkey and Bulgaria but for the rest of the week points identified in this project new investments are to be recommended.
6. According to the companies proposals the new projects were classified in three categories:
• construction;
• Feasibility study
• Ideas/proposals. The projects in construction or in a very close stage to the construction starting were classified in the first category and included in the model with the status “ON”.
Elements classified as Feasibility study are projects for which technical evaluation is in progress or it is finished. Now they are in stage of finding adequate ways to financial fund they realization.
6.3
The rest of the new projects were classified in the category Idea/proposal and most of them are included in the model with the status “OFF”. These projects will be analyzed in the future weather they are feasible or not.
TYPE SUBSTATION1 SUBSTATION2
VOLTAGE LEVEL kV/kV
CAPACITY A or MVA
DATE OF COMM STATUS
BULGARIA OHL BG C.Mogila MK Stip 400 1890 2008 construction OHL BG M.East GR Nea Santa 400 1890 - Feasibility study OHL BG Zlatitsa BG Plovdiv 400 1890 2007 Feasibility study
GEORGIA SS GE Qsani 500/400 3X267 2009 Feasibility study OHL GE Qsani AM TPP Hrazdan 400 1100 2009 Feasibility study OHL GE Mukharani AZ AZ TPP 330 existing SS GE Akhaltske 500/400 Feasibility study BB GE Akhaltske 400 Feasibility study OHL GE Akhaltske Marneuli 500 Feasibility study OHL GE Marneuli Gardabani 500 Feasibility study OHL GE Akhaltske Menji 500 Feasibility study OHL GE Menji Kudoni 500 Feasibility study OHL GE Akhaltske Zestaponi 500 Feasibility study OHL GE Akhaltske TR Borcka 400 Feasibility study OHL GE Enguri RU Centralna(Sochi) 500 Idea
MOLDOVA OHL MD Balti RO Suceava 400 Idea SS MD Chisinau 400/330 Idea OHL MD Chisinau RO Iasi 400 Idea OHL MD Balti UA Dnestrovska HPP 330 Idea OHL MD Balti MD Straseni 330 Idea OHL MD Straseni MD Chisinau 330 Idea OHL MD Balti MD Ribnita 330 Idea SS MD Balti 400/330 Idea SS MD Moldovskaya 400/330 Idea
ROMANIA SS RO Portile de Fier II 220/110 2*200 2008 Feasibility study OHL RO Portile de Fier II RO Cetate 220 875 2008 Feasibility study OHL RO Portile de Fier II RO Portile de Fier I 220 875 2008 Feasibility study CSS RO Nadab - 400 Feasibility study OHL RO Oradea RO Nadab 400 1997 Feasibility study OHL RO Arad RO Nadab 400 1997 Feasibility study OHL RO Nadab HU Bekescsaba Border 400 1750 2008 Feasibility study OHL HU Bekescsaba Border HU Bekescsaba 400 1750 2010 Feasibility study SS RO Suceava 400/110 250 2010 Feasibility study OHL RO Suceava MD Balti 400 1750 2014 Feasibility study SS RO Bacau 400/220 400 2014 Feasibility study SS RO Roman 400/220 400 2014 Feasibility study OHL RO Suceava RO Roman 400 1700 2014 Feasibility study OHL RO Roman RO Bacau 400 1700 2014 Feasibility study OHL RO Bacau RO Gutinas 400 1700 2014 Feasibility study SS RO Iasi 400/220 2010 Feasibility study OHL RO Iasi MD Chisinau 400 2010 Feasibility study SS RO Resita 400/220 400 2014 Feasibility study SS RO Resita 400/110 250 2014 Feasibility study OHL RO Portile de Fier I RO Resita 400 1997 2014 Feasibility study SS RO Timisoara 400/220 400 2014 Feasibility study OHL RO Timisoara RO Resita 400 1997 2014 Feasibility study OHL RO Timisoara RO Arad 400 1997 2014 Feasibility study OHL RO Timisoara CS Vrsac 400 1750 2014 Feasibility study DC RO Constanta 400 600 ? Feasibility study SK RO Constanta TR Pasakoy 400 600 ? Feasibility study OHL RO Constanta RO Medgidia 400 1800 2014 Feasibility study
RUSSIA OHL RU Sotchi GE Enguri 500 Idea SS RU Rostov 500 Feasibility study OHL RU Rostov Sahti 30 500 Feasibility study OHL RU Rostov Frolovskaya 500 Feasibility study OHL RU Rostov R 20 220 Feasibility study SS RU Krimskaya II 500 Feasibility study OHL RU Krimskaya II Tihoreck 500 Feasibility study SS RU Senaya Senaya 220 Feasibility study
6.4
OHL RU Krimskaya II Senaya 220 Feasibility study OHL RU Krimskaya II Slavyansk 220 Feasibility study OHL RU Slavyansk Senaya 220 Feasibility study SS RU Nevinomysk 500 Feasibility study OHL RU Nevinomysk Volgodonskaya 500 Feasibility study SS RU Mozdok 500 Feasibility study OHL RU Nevinomysk Mozdok 500 Feasibility study SS RU Alagir 330 Feasibility study OHL RU Nalcik Alagir 330 Feasibility study OHL RU V2 Alagir 330 Feasibility study SS RU Kizljar 330 Feasibility study SS RU Grozniy 330 Feasibility study SS RU Artem 330 Feasibility study OHL RU Mozdok Artem 330 Feasibility study OHL RU HP Irganskaya Artem 330 Feasibility study OHL RU Derbent Artem 330 Feasibility study OHL RU Derbent AZ Apsheron 330 Feasibility study
TURKEY SS TR Afyon - - 400/150 250 2006 construction SS TR Agri - - 400/150 250+150 2006 construction SS TR Baglum - - 400/150 2x250 2006 construction SS TR Beykoz GIS - - 400/33 2x125 2006 construction SS TR Davutpaşa GIS - - 400/150 250 2006 construction SS TR Davutpaşa GIS - - 400/33 125 2006 construction SS TR Erzurum - - 400/150 250 2006 construction OHL TR Erzurum Horasan 400 2006 construction SS TR Germencik - - 400/150 2x250 2006 construction SS TR Hilvan - - 400/150 250 2006 construction SS TR Hilvan - - 400/33 125 2006 construction OHL TR Horasan Agri 400 2006 construction OHL TR HPP Borçka-Deriner HPP Yusufeli 400 2006 construction OHL TR HPP Oymapinar Varsak 400 2006 construction OHL TR HPP Yusufeli Erzurum 400 2006 construction OHL TR Karabiga-Çan TPP Soma 400 2006 construction SS TR Manisa - - 400/150 2x250 2006 construction SS TR TPP Iskenderun - - 400/150 250 2006 construction OHL TR TPP Unimar Babaeski 400 2006 construction K TR Yildiztepe Davutpasa 400 2006 construction SS TR Zekeriyakoy GIS - - 400/150 250 2006 construction SS TR Zekeriyakoy GIS - - 400/33 125 2006 construction SS TR Hatay - - 400/150 250 2007 construction SS TR Hatay - - 400/33 125 2007 construction OHL TR Hatay Erzin 400 2007 construction SS TR Mersin - - 400/150 250 2007 construction SS TR Mersin - - 400/33 125 2007 construction OHL TR Mersin TPP Iskenderun 400 2007 construction OHL TR Seydişehir HPP Oymapinar 400 2007 construction SS TR Umraniye - - 400/150 2x250 2007 construction SS TR Borçka - - 400/150 250 2010 Feasibility study OHL TR Borcka GE Akhaltske 400 Feasibility study OHL TR Babaeski GR N.Santa 400 2010 F.study DC TR Pasakoy 400 600 MW Idea SK TR Pasakoy RO Constanta 400 600 MW Idea
UKRAINE OHL UA Pivdenoukrainskaya RO Isaccea 750 4000 A 2015 Feasibility study SS UA Kyivska 750/330 1000 MVA 2008 Construction OHL UA Rivnenska NPP UA Kyivska 750 4000 A 2008 Construction OHL UA Zahidnoukrainska UA Bogorodchani 330 1670 A 2010 Construction OHL UA Dnistrovska PSHPP UA Bar 330 1670 A 2007 Construction OHL UA Novoodeska UA Artsyz 330 1670 A 2007 Feasibility study OHL UA Adgalyk UA Usatovo 330 1670 A 2007 Feasibility study OHL UA Zarya UA Mirna 330 1380 A 2008 Construction OHL UA Simferopol UA Sevastopol 330 1670 A 2007 Feasibility study OHL UA Dgankoj UA Melitopol–Simferopol 330 1380 A 2006 Construction OHL UA Pivnichnoukrainska UA Kyivska 750 4000 A 2015 Feasibility study OHL UA Zaporizka NPP UA Kahovska 750 4000 A 2015 Feasibility study OHL UA Lutsk Pivnichna UA Ternopil 330 1670 A 2010 Feasibility study OHL UA K.Podolska UA Ternopil 330 1670 A 2012 Feasibility study OHL UA HPP Dnistrovska MD Balti 330 1670 A 2012 Idea
ARMENIA SS AM Hrazdan TPP 400/220 2x5x200 2009 Feasibility study
6.5
OHL AM Hrazdan TPP IR Tavriz 400 2x1800 2010 Feasibility study OHL AM Hrazdan TPP GE Ksani 400 1100 2009 Feasibility study
7. Network capacities analyses for market realistic scenarios of power exchanges showed that expected network topology enables secure exchange of following quantities from Black Sea region
Russia
Georgia
Azerb
Albania
Austria
BIH
Bulgaria
Belarus
Croatia
Czech republic
Greece
Italy
Hungary
Lithuania
Makedonia
Poland
Romania
Slovakia
Slovenia
Turkey
Ukraine
SRB
Iran
Black Sea
Armenia
3400
13001450
1500
18001100
Import/Export – Network capacities Winter 2010
13001450
Import/Export – Network capacities Summer 2010
6.6
6.1