ENVIRONMENTAL AND SOCIAL MANAGAMENT PLAN...
Transcript of ENVIRONMENTAL AND SOCIAL MANAGAMENT PLAN...
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UKRAINE DISTRICT HEATING ENERGY EFFICIENCY
PROJECT
Oblasne Public Utility “Mykolaivoblteploenergo”
ENVIRONMENTAL AND SOCIAL MANAGAMENT
PLAN
(ESMP)
(for the projects of В category)
Mykolaiv
2019
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CONTENT
1. INTRODUCTION ................................................................................................................................. 5
1.1 General information on the PROJECT ................................................................................................. 5
1.2 ESMP development objective. ................................................................................................................ 6
2. LEGISLATIVE BASIS, LICENSES AND PERMITS ................................................................ 6
2.1 List of regulations. ............................................................................................................... 6
2.2 Enterprise Licenses. ............................................................................................................. 9
2.3 Emission allowances. ......................................................................................................... 10
2.5 Permit documents for wastewater discharges. ................................................................... 19
3. CHARACTERISTICS OF EXISTING HEAT SUPPLY SYSTEM ........................................... 20
4. CHARACTERISTICS OF THE PROJECT ACTIVITIES AND LOCATIONS WHERE THE
PROJECT WILL BE IMPLEMENTED .......................................................................................... 24
4.1. The closure of inefficient boiler houses with the re-connection of consumers to the existing
system. 25
4.2. Reconstruction of existing boiler houses ........................................................................................... 27
4.3 Construction of heating mains .................................................................................................. 30
4.3 Replacement of isolation on overground sections of heating networks ........................................... 30
4.5. Modernization of CHP, IHS and boiler rooms .................................................................................. 33
5. INFLUENCES CHARACTERISTICS OF PROJECT ACTIVITIES ON ENVIRONMENT
AND SOCIAL SPHERE................................................................................................................... 35
5.1. Effect on atmospheric air. .......................................................................................................... 35
5.2. Noise Effect. .............................................................................................................................. 37
5.3. Influence on the quality of surface and groundwater. ............................................................... 38
5.4. Impact on the ground. ............................................................................................................... 39
5.5. Waste management. .................................................................................................................. 39
5.6. Prevention of emergency situations . ......................................................................................... 41
5.7. Influence on flora and fauna. .................................................................................................... 42
5.8. Influence during transportation. ............................................................................................... 42
5.9. Influence on human health. ....................................................................................................... 42
5.10. Impact on socio-economic development .................................................................................. 43
5.11. Assessment of the impact on the environment and the social sphere during the construction of
heating mains ................................................................................................................................... 44
6. Health and Safety Protection Measures on Site ......................................................................... 51
7. PLAN OF MITIGATION MEASURES .................................................................................. 57
8. MONITORING PLAN .............................................................................................................. 70
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9. THE INSTITUTIONAL CAPACITY ....................................................................................... 75
10. PUBLIC PARTICIPATION, INFORMATION AND CONSULTATION ................................. 77
11. THE GRIEVANCE REDRESS MECHANISM ........................................................................ 78
12. CONCLUSIONS ....................................................................................................................... 82
ANNEXES
Annex 1. Overview of boiler houses of the district heating system of
OPU "Mykolaivoblteploenergo".
Annex 2. Summary information on boiler equipment.
Annex 3. Maps with application of boiler reconstruction.
Annex 4 . Reconstruction scheme of the fourth heat supply zone with the association of boiler
houses on 9 Buzsky Boulevard, 3,6,13,21 Velyka Morska street, 16 Terrasna street, 8 Nikolska
street, 6 Mostobudivnikyv street and 1-k Sportyvna street
Annex 5. Reconstruction scheme of the fifth heat supply zone with the association of boiler
houses on 42 Samoylovicha street and 1 Zavodska square.
Annex 6. Heating networks insulation
Annex 7. Green areas inspection report
Annex 8. RPMU structure
Annex 9. Minutes of public hearing
Annex 10. Ads in the newspaper "Evening Nikolaev" and the newspaper "Ridne Pribuzhzhya"
Annex 11. Ads in the newspaper "Ridne Prybuzhzhya" on the results of public participants
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Abbreviation
AbRAP
ASC (SCADA)
Abbreviated Resettlement Action Plan
Automated system of communication and control Supervisory Control And Data Acquisition
CTF
CH
CPMU
CHS
DH
Fund of Clean Technologies
Centralized Heating
Central Project Management unit
Central Heating Substations
District Heating
Derzhprodspozhyvsluzhba State Service of Ukraine for Food Safety and Consumer Protection
EA
EIA
EHS
ESMP
Environmental Assessment
Environmental Impact Assessment
Environmental, Health, and Safety Guidelines (IFC World Bank)
Environmental and Social Management Plan
FM
FAT
GHG
GoU
Financial Management Fund of appropriate technologies
Green House Gases
Government of Ukraine
GRM
IFC
IHS
Minpryrody
Grievance Redress Mechanism
International Financila Corporation
Individual Heating Substations
Ministry of Ecology and Natural Resources of Ukraine
Minregion
MM
MPU
Ministry of Regional Development and Utilities Sector of Ukraine
Mass Media
Municipal Public Utility NGPA
NPA
NAP
Non-governmental public association
Notice on Planned Activity
National Association on planning
OP 4.01
OP 4.12
PAP
PLESA
POM
PIU
PA
PAS
Project/ UDHEEP
World Bank Policy on Environmental Assessment
World Bank Policy on Involuntary Resettlement
Project Affected Person
Program Level Environmental and Social Assessment
Project Operation Manual
Project Implementation Unit
Planned Activity Public Association
Ukraine District Heating Energy Efficiency Project
REIA
RPA
RPIU
Report on Environmental Impact Analisys
Report on Planned Activity
Regional Project Implementation Unit
SEP
SEA
Stakeholders Engagement Plan
Strategic Environmental Assessment
VRU Verkhovna Rada of Ukraine (Parliament)
WB
WHP
World Bank
Worldwide Healthcare Organization
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1. INTRODUCTION
The project " Ukraine District Heating Energy Efficiency Project " (UDHEEP)
aims to increase energy efficiency and quality of servicing selected selected heat supply
companies, increase their financial viability and improve the environment. The global
goal is to reduce greenhouse gas emissions by preventing heat generation by increasing
the efficiency of heat production, reducing heat losses in heat transfer and distribution
systems, and reducing the consumption of heat in the residential sector.
The main beneficiaries are the heat supply company. Additional beneficiaries are
residential customers who will benefit from more reliable, high-quality services
provided by participating companies. For the consumers of Mykolaiv city,
implementation of the Project will ensure a stable supply of heating and hot water
throughout the year. The implementation of the Project will allow the Oblast Public
Utility "Mykolaivoblteploenergo" (further - OPU "Mykolaivoblteploenergo") to
modernize the heat supply system as a whole, introduce energy and resource saving
materials and technologies, implement dispatching and automated control systems for
the entire company, and improve the system of measuring consumption. The project
implementation should become a gradual step in the supply of heat and hot water in
Mykolaiv.
1.1 General information on the PROJECT
The purpose of the project is to increase energy efficiency and quality of services of
the OPU "Mykolaivoblteploenergo", as utility of district heating, improvement of
financial results of enterprise activity and reduction of pollutants emissions and
greenhouse gases, including CO2, into atmospheric air.
Globally, the project must reduce greenhouse gas emissions from the generation of
thermal energy by improving the efficiency of heat generation, reducing heat losses in
transmission and distribution systems, district heating, as well as through reduction of
heat energy consumption of households.
OPU "Mykolaivoblteploenergo" plans to carry out the following list of measures in
order to ensure the quality of services, and reduce the cost price of a unit of thermal
energy.
1. Reconstruction of boiler houses: reconstruction and replacement of obsolete
boilers, replacement of burners with modern ones, replacement of safety and
control automatics, replacement of network pumps, equipping with the
converters of rotational speed of boilers electric motors, installation of modern
equipment, automation and dispatching systems, including SCADA, to ensure
the operation of the boiler house without the constant presence of the
attendants.
2. Construction of heating mains with the use of pre-insulated polyurethane foam
pipes, the closure of inefficient boiler houses and switching of consumers, if
possible, to other boiler houses of the utility.
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3. Replacing of insulation on the aerial parts of the heating networks to
polyurethane insulation or similar.
4. Modernization of CHP, IHS and boiler houses: installation of automatic heat
supply regulation, depending on the temperature of the outside air, provision
of the necessary hydraulic mode of operation, installation of units for the
calculation of thermal energy.
The listed energy efficiency measures and quality of services are planned to be
implemented by November 2020 inclusive.
1.2 ESMP development objective.
The ESMP give an overview of environmental impacts of the proposed district
heating rehabilitation programme and their management.
The mitigation plan below provides a description of proposed measures to abate the
anticipated impacts of the project during the construction and operation stages. The
plan also indicates responsibilities with respect to mitigation measures application.
In order to ensure efficient implementation of the mitigation measures proposed,
including the respect of environmental obligations during the construction stage, a
program of monitoring activities has been developed and presented below in a
tabular form.
The main ESMP tasks are as follows:
1) identification of site-specific major environmental and health and safety
impacts (including emissions, earthworks, vegetation clearance, waste
amounts etc.);
2) identification of complex of measures to reduce negative and increase
positive environmental and social influence;
3) identification of complex of measures on monitoring and control;
4) identification of institutional structure, that will be responsible for ESMP
implementation;
5) identification of schedule of works performance and their cost;
6) development of institutional capabilities.
2. LEGISLATIVE BASIS, LICENSES AND PERMITS
2.1 List of regulations.
- DBN V.2.5-67: 2013 "Heating, ventilation and air conditioning";
- DBN V.2.5-39: 2008 "Thermal networks";
- NPAOP 0.00-1.11.98 Rules of construction and safe operation of steam and hot water
pipelines;
- NPAOP 0.00-1.11 Rules of technical operation of thermal installations and networks;
- NPAOP 0.00-1.20-98 "Rules of safety by gas supply of Ukraine";
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- NPAOP 40.1-1,21-98 "Rules for the installation of electrical installations";
- The Order of the Ministry of Fuel and Energy of Ukraine No. 71 dated February 14,
2007;
- DSTU - NBV.2.5-35: 2007 Heating networks and hot water supply networks using
pre-insulated pipelines. Instruction for design, installation, acceptance and operation;
- DSTU B.D.1.1-1:2013 Rules for determining the construction cost;
- DBN V.2.5-20-2001 Gas supply;
- DBN V.2.5-39: 2008 Thermal networks. Engineering equipment of buildings and
structures. External networks and facilities;
- DBN A.3.2-2-2009 "Labor protection and industrial safety in construction";
- DBN 2.2-1-2003 “Composition and content of EIA materials when designing and
constructing of enterprises, buildings and facilities”.
- DBN 2.2-3-2014 “Composition and content of the project documentation for
construction”
- Subsoil Code of Ukraine (published on July 27, 1994);
- Water Code of Ukraine (published on June 6, 1995);
- Land Code of Ukraine (published on October 25, 2001);
- Law of Ukraine "On Environmental Protection" (published on June 25, 1991);
- Law of Ukraine "On the Protection of Atmospheric Air" (published on October 16,
1992);
- Law of Ukraine "On Environmental Impact Assessment" (published on May 23, 2017);
- Law of Ukraine "On Protection of Population and Territories against Technogenic and
Natural Emergencies" (published on June 8, 2000);
- Law of Ukraine "On Heat Supply" (published on June 2, 2005);
- Law of Ukraine "On Waste" (adopted on March 5, 1998);
- Law of Ukraine "On the Protection of the Cultural Heritage" No. 1805-III of June 08,
2000
- Resolution of the CMU On approval of the list of activities and objects that constitute
an increased environmental hazard from August 28, 2013 № 808;
- Resolution of the Cabinet of Ministers of Ukraine "On Approval of the Regulation on
the Procedure for the Implementation of State Accounting for the Protection of the
Atmospheric Air" (published on December 29, 1993);
- EU Directive. 2010-75 Industrial emissions
- Operational Policy of the World Bank ОР / ВР 4.01 "Environmental Assessment" This
policy is applied in case of the evident causing by the project of the potential (negative)
environmental risks and effects in the area of realization of sub-projects. OP/BP 4.01
embraces effects on the environmental natural environment (air, water and soils), health
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and human safety; material cultural heritage; trans-border and global environmental
questions.;
- Operational Policy of the World Bank OP / BP 4.11 "Material Cultural Heritage"
This policy addresses physical cultural resources, which are defined as movable or
immovable objects, sites, structures, groups of structures, and natural features and
landscapes that have archaeological, paleontological, historical, architectural, religious,
aesthetic, or other cultural significance. Physical cultural resources may be located in
urban or rural settings, and may be above or below ground, or under water. Their cultural
interest may be at the local, provincial or national level, or within the international
community;
- Operational Policy of the World Bank ОР/ВР 4.12 OP 4.12 covers direct economic
and social impacts are caused by the involuntary taking of land or the involuntary
restriction of access to legally designated parks and protected areas resulting in adverse
impacts on the livelihoods of the displaced persons. This policy is applied where it isn't
feasible to avoid resettlement.
- Program Level Environmental and Social Assessment (PLESA) for modernization
district heating systems in Ukrainian cities (2014) is directed to performance of
research of condition of the natural environment and human health according to
provisions of the Operational policy of the World Bank.
- World Bank IFC EHS guidelines. The General EHS Guidelines contain information
on cross-cutting environmental, health, and safety issues potentially applicable to all
industry sectors. This document should be used together with the relevant Industry
Sector Guideline(s).
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2.2 Enterprise Licenses.
№
p/p
Licenses
1 Type of licensed activity Production of thermal energy (except for
activities on the production of thermal energy
at thermal power plants, nuclear power plants
and cogeneration units and installations using
non-traditional or renewable energy sources)
Series, number and date of the license
issuing
Series АD №041939 dated December 07,
2012
License expiration The term of the license is endless. Resolution
of NCREU dated March 11, 2017 No. 636
Who issued a license (name and address
of authority)
National Commission for State Regulation in
Energy and Utilities Spheres (NCREU)
2 Type of licensed activity Transportation of heat energy by main and
local (distribution) heat networks
Series, number and date of the license
issuing
Series АD №041940 dated December 07,
2012
License expiration The term of the license is endless. Resolution
of NCREU dated March 11, 2017 No. 636
Who issued a license (name and address
of authority)
National Commission for State Regulation in
Energy and Utilities Spheres (NCREU)
3 Type of licensed activity Supply of heat energy
Series, number and date of the license
issuing
Series АD №041941 dated December 07,
2012
License expiration The term of the license is endless. Resolution
of NCREU dated March 11, 2017 No. 636
Who issued a license (name and address
of authority)
National Commission for State Regulation in
Energy and Utilities Spheres (NCREU)
4 Type of licensed activity Production of thermal energy at thermal
power plants, cogeneration units and
installations using non-traditional or
renewable energy sources
Series, number and date of the license
issuing
Series АD №073949 dated December 25,
2012
License expiration The term of the license is endless
Who issued a license (name and address
of authority)
National Commission for State Regulation in
Energy and Utilities Spheres (NCREU)
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2.3 Emission allowances.
In 2014 - 2017 the specialized enterprise Ecoproektservis Ltd, which has an
accredited laboratory for environmental protection, carried out the inventory of
stationary sources of pollutant emissions into the atmosphere at the OPU
"Mykolaivoblteploenergo", documents on which the emissions are substantiated were
developed.
OPU "Mykolayivoblteploenergo" as of June 01, 2018 has permits for the
emission of pollutants into the air from stationary sources of pollution on 107
operating boiler houses and 1 cogeneration unit. The utility received new emission
permits for the following stationary sources of emissions:
- 2 boiler houses of the 1st group (42 Samoilovicha street and 1 Zavodskaya
square) with the term of 7 years till October 12, 2022, permits issued by the
Ministry of Ecology and Natural Resources of Ukraine.
- 78 boiler houses of the 2nd group, with the term of 10 years till 2024-2027
years;
- 27 boiler houses of the 3rd group with unlimited validity.
Including permits for emissions to the cogeneration plant on 71 Bila street with
terms of validity 10 years will September 22, 2027.
For stationary sources of the 2nd and the 3rd groups, permits for emissions issued
by the Department of Ecology and Natural Resources of the Mykolayiv Regional
State Administration.
In accordance with the received permits for the emission of pollutants into the
air, the utility has established measures to control compliance with the approved
norms of the permissible emission of pollutants by carbon monoxide (NO) and oxides
of nitrogen (NOx) for boiler houses operating on gas and sulfur dioxide (SO2), solid
particles for solid fuel boiler houses.
In order to carry out the established control measures on OPU
"Mykolaivoblteploenergo", a specialized laboratory conducts control measurements
at the emission sources, which are reflected in the reports on the results of monitoring
compliance with the permissible emission of pollutants into the atmosphere of OPU
"Mykolayivoblteploenergo".
List of measures for monitoring the compliance with the approved norms of
the maximum allowable emissions of pollutants and measures to reduce the emissions
of pollutants for stationary sources of the 1st group (boiler houses on 42 Samoylovicha
street and 1 Zavodska square are shown in tables 2.1. – 2.4.).
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Table 2.1.
Control measures for observance of the approved standards of permissible
emission of pollutants, boiler house on 42 Samoylovicha street
Number
/numbers
of
emission
sources
Name of the
pollutant
Approved
maximum
permissible
emission
mg / m3
Frequency
of
measureme
nt
Methods of
measurement
Sampling
point
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Nitrogen oxides
(oxide and
nitrogen dioxide)
in terms of
nitrogen dioxide
491,49 annualy Certified methods
listed in the State
Register of
measurement
methods
pipe
Carbon oxide 147,67 annualy pipe
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Table 2.2.
Measures to reduce emissions of pollutants, boiler house on 42 Samoylovicha
street
Production
and
technological
process code,
technological
equipment
(installations)
Name of the measures Code of
the
measures
Total
expenditures
at estimated
cost,
thousand
UAH
Expected
reduction of
pollutant
emissions into
the air after the
implementation
of the measure,
t / year
1 2 3 4 5
110202 Improvement of technological
processes (replacement of
burners on boilers PTVM-30 on
jet niches marks SPT-33)
1 3017,6 4,3681
Production
and
technological
process code,
technological
equipment
(installations)
Name of the
measures
Deadline
for
measures
Number
of
emission
source
on the
map
Total
expenditures
at estimated
cost,
thousand
UAH
Expected
reduction of
pollutant
emissions into
the air after the
implementation
of the measure,
t / year
1 2 3 4 5 6
Measures in case of a permanent cessation of activities related to the emission of pollutants into
the air, and bringing the place of activity to the appropriate state
110202 The closure of the
boiler house.
Construction of
individual flue and
crown boilers with
the capacity from
0.085 to 0.9 Gkal /
hour for 110 houses,
reconstruction of gas
distribution and
power distribution
networks.
4 years 11*) 50-60 mln.
UAH
5,1537
Note: * The closure of the emissions source causes the appearance of 110 new sources.
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Table 2.3.
Control measures for observance of the approved standards of permissible emission of
pollutants, boiler house on 1 Zavodska square
Number
/numbe
rs of
emissio
n
sources
Name of
source
establishm
ent, brand,
type of fuel
Nu
mb
er o
f fo
rma
tio
n
sou
rces
Name of
the
pollutant
Approved
maximum
permissibl
e emission
mg / m3
Frequency
of
measurem
ent
Methods of
measurement
Sampling
point
1 2 3 4 5 6 7 8
1 Boiler
PTVM-
50-1 N1,
gaseous
fuel
1 Nitrogen
oxides (in
terms of
nitrogen
dioxide)
338,19 from
December
10, 2015 300 - from
January 01,
2018
every six
months
Certified
methods
listed in the
State Register
of
measurement
methods
section
of the
flue is
vertical,
after the
smoke
outlet
crossing
1,8х2,8
Carbon
oxide
132,17 from
December
10, 2015
every six
months
Certified
methods
listed in the
State Register
of
measurement
methods
section
of the
flue is
vertical,
after the
smoke
outlet
crossing
1,8х2,8
Boiler
PTVM-
50-1 N2,
gaseous
fuel
2 Nitrogen
oxides (in
terms of
nitrogen
dioxide)
368,36 - from
December
10, 2015 300 - from
January 01,
2018
every six
months
Certified
methods
listed in the
State Register
of
measurement
methods
section
of the
flue is
vertical,
after the
smoke
outlet
crossing
1,8х2,8
Carbon
oxide
161,28 - from
December
10, 2015
every six
months
Certified
methods
listed in the
State Register
of
measurement
methods
section
of the
flue is
vertical,
after the
smoke
outlet
crossing
1,8х2,8
Table 2.4.
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Measures to reduce emissions of pollutants, boiler house on 1 Zavodska square
Production
and
technological
process code,
technological
equipment
(installations)
Name of the measures Code of
the
measures
Total
expenditures
at estimated
cost,
thousand
UAH
Expected
reduction of
pollutant
emissions into
the air after the
implementation
of the measure,
t / year
1 2 3 4 5
110202 Improvement of technological
processes (replacement of burners on
boilers PTVM-50 on jet niches marks
SPT-33)
1 3117,6 1,021
Production
and
technological
process code,
technological
equipment
(installations)
Name of the measures Deadline
for
measures
Number
of
emission
source
on the
map
Total
expenditures
at estimated
cost,
thousand
UAH
Expected
reduction of
pollutant
emissions into the
air after the
implementation of
the measure,
t / year
1 2 3 4 5 6
Measures in case of a permanent cessation of activities related to the emission of pollutants into the air, and bringing
the place of activity to the appropriate state
110202 The closure of the boiler
house. Construction of
individual flue and crown
boilers with the capacity from
0.085 to 0.9 Gkal / hour for
110 houses, reconstruction of
gas distribution and power
distribution networks.
4 years 11* 50-60 mln.
UAH
5,0066
Also, on OPU "Mykolayivoblteploenergo" a group of regime adjustment are carried out
integrated ecological and thermotechnical regime-adjustment tests of boilers in accordance with
approved schedules. The utility has the permit number 232.13.48-35.30 validity till June 18, 2018
for performance of works of the raised danger at delivery of steam, hot water and conditioned air,
the installation of steam and hot water boilers issued by the territorial Department of the State
Committee of Ukraine for Industrial Safety in the Mykolaiv region.
15
The list of valid permits for emissions of pollutants into the air is given in Table 2.5.
Table 2.5.
№
p/p
Name of stationary
source emissions
Address of emission source
Validity of the permit
1 2 3 4
Mykolayiv
1 boiler house 9-a Nikolska street from 26.11.2014 to 26.11.2024
2 boiler house 13, 1st Slobidska street from 26.11.2014 to 26.11.2024
3 boiler house 2, Sadova street from 26.11.2014 to 26.11.2024
4 boiler house 96/7 Central (Lenina) avenue from 26.11.2014 to 26.11.2024
5 boiler house 55, Spaska street from 26.11.2014 to 26.11.2024
6 boiler house 46, Spaska street from 26.11.2014 to 26.11.2024
7 boiler house 27/1, Admiralska street from 26.11.2014 to 26.11.2024
8 boiler house 45-a, V.Morska street from 26.11.2014 to 26.11.2024
9 boiler house 4-k, Admiralska street from 06.12.2014 to 06.12.2024
10 boiler house 66, Spaska street from 06.12.2014 to 06.12.2024
11 boiler house 22-v, Potomkinska street from 26.11.2014 to 26.11.2024
12 boiler house 54/56 V.Morska street from 26.11.2014 to 26.11.2024
13 boiler house 34, Nikolska street from 06.12.2014 to 06.12.2024
14 boiler house 25, Naberezhna street from 26.11.2014 to unlimited
15 boiler house 5/11, Naberezhna street from 26.11.2014 to 26.11.2024
16 boiler house 81/83, Potomkinska street from 26.11.2014 to 26.11.2024
17 boiler house 31, Admiralska street from 26.11.2014 to 26.11.2024
18 boiler house 24-k, Central (Lenina) avenue from 26.11.2014 to 26.11.2024
19 boiler house 1-k, Sportivna street from 22.01.2015 to 22.01.2025
20 boiler house 6, Mostobudivnikiv street from 13.02.2015 to 13.02.2025
21 boiler house 16, Terrasna street from 13.02.2015 to 13.02.2025
22 boiler house 21, Velyka Morska street from 13.02.2015 to 13.02.2025
23 boiler house 78, Mala Morska street from 13.02.2015 to unlimited
24 boiler house 14, Korabeliv street from 13.02.2015 to unlimited
25 boiler house 6, Nikolska street from 13.02.2015 to 13.02.2025
26 boiler house 3, Velyka Morska street from 13.02.2015 to 13.02.2025
27 boiler house 6, Velyka Morska street from 13.02.2015 to 13.02.2025
28 boiler house 13, Velyka Morska street from 13.02.2015 to 13.02.2025
29 boiler house 9, Buzsky Boulevard street from 13.02.2015 to 13.02.2025
30 boiler house 8, Nikolska street from 13.02.2015 to 13.02.2025
31 boiler house 22-a, Central (Lenina) avenue from 26.11.2014 to 26.11.2024
32 boiler house 6, Transportniy lane from 22.01.2015 to 22.01.2025
33 boiler house 1, Chernomorska street from 01.04.2015 to unlimited
34 boiler house 2, Matrosova street from 01.04.2015 to unlimited
35 boiler house 14, Hastelo street from 01.04.2015 to unlimited
36 boiler house 7, Moldavska street from 01.04.2015 to unlimited
37 boiler house 4-i, 2th Ekipazhna (Volodarskoho) street from 05.02.2015 to 05.02.2025
38 boiler house 4-k, 2th Ekipazhna (Volodarskoho) street from 05.02.2015 to 05.02.2025
39 boiler house 117-k, Kotelna street from 13.02.2015 to unlimited
40 boiler house 91-v, Bezimenna (Shkapina) street from 13.02.2015 to 13.02.2025
41 boiler house 5, 2th Ekipazhna (Volodarskoho) street from 05.02.2015 to 05.02.2025
42 boiler house 150, Pohranichna (Chihrina) street from 13.02.2015 to unlimited
43 boiler house 42, 5-a Viyskova (Voroshilova) street from 13.02.2015 to unlimited
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44 boiler house 2, Admiralteyska (Komunariv) square from 05.02.2015 to 05.02.2025
45 boiler house 96, Pohranichna (Chihrina) street from 13.02.2015 to unlimited
46 boiler house 209, Chkalova street from 13.02.2015 to 13.02.2025
47 boiler house 8, 3rd Viyskova (Syvashskoi divizii) street from 05.02.2015 to 05.02.2025
48 boiler house 130, Kuznetska (Skorohodova) street from 13.02.2015 to 13.02.2025
49 boiler house 46, Sadova street from 13.02.2015 to 13.02.2025
50 boiler house 242-a Pohranichna (Chihrina) street from 13.02.2015 to 13.02.2025
51 boiler house 8, Kotelna street from 14.08.2015 to unlimited
52 boiler house 48, 6th Slobidska (Komsomolska) street from 16.06.2016 to unlimited
53 boiler house 48-a, 6th Slobidska (Komsomolska) street from 16.06.2016 to unlimited
54 boiler house 70-v, O.Yanati (Kuybisheva) street from 13.02.2015 to unlimited
55 boiler house 1, 11th Pozdovzhnya street from 13.02.2015 to 13.02.2025
56 boiler house 11-v, 8th Pozdovzhnya street from 13.02.2015 to 13.02.2025
57 boiler house 1-k, Listopadova street from 13.02.2015 to 13.02.2025
58 boiler house, auto shop,
centralized repair shop 48, Novozavodska street from 13.02.2015 to 13.02.2025
boiler house, auto shop,
centralized repair shop
59 boiler house 93, Kosmonavtiv street from 13.02.2015 to unlimited
60 boiler house 8, Budivelnikiv street from 13.02.2015 to 13.02.2025
61 boiler house 43, Kosmonavtiv street from 13.02.2015 to unlimited
62 boiler house 2, Kazarskogo street from 09.04.2015 to 09.04.2025
63 boiler house 34-b, Mykolaivska street from 09.04.2015 to 09.04.2025
64 boiler house 69-k, Peredova street from 09.04.2015 to 09.04.2025
65 boiler house 2-k, Polyarniy lane from 09.04.2015 to 09.04.2025
66 boiler house 10-k, Teatralna (Vaslyaeva) street from 09.04.2015 to 09.04.2025
67 boiler house 7-a, Kitoboiv street from 09.04.2015 to 09.04.2025
68 boiler house 2-a, D.Yavornitskogo (Horkoho)
street
from 01.04.2015 to
unlimited
69 boiler house 1, Zavodska square from 12.10.2015 to
12.10.2022
70 boiler house 5, Dunaiskoi Flotilii street from 01.01.2015 to
unlimited
71 boiler house 72, Metalurgiv street from 01.04.2015 to
01.04.2025
72 boiler house 325/4 Bohoyavlenskiy (Zhovtneviy)
avenue
from 01.04.2015 to
unlimited
73 boiler house 91-k, Ribna street from 19.03.2015 to
19.03.2025
74 boiler house 38-k, Vilna street from 01.04.2015 to
01.04.2025
75 boiler house 2, Znamenska street from 19.03.2015 to
19.03.2025
76 boiler house 75/1, 295th Striletskoyi dyviziyi from 01.04.2015 to
01.04.2025
77 boiler house 75-a, 295th Striletskoyi dyviziyi from 01.04.2015 to
01.04.2025
78 boiler house 124, H.Sahaidachnoho (Vatutina)
street
from 01.04.2015 to
01.04.2025
79 boiler house 42, Samoilovicha street from 12.10.2015 to 12.10.22
80 boiler house 97/1, Metalurhiv street from 14.08.2015 to
unlimited
17
81 boiler house 1, Malko-Tyrnivska (Ulyanovykh)
street
from 19.03.2015 to
19.03.2025
82 boiler house 1, Lisova street from 01.04.2015 to
unlimited
83 boiler house 91, Heroes of Ukraine (Heroes of
Stalinhrad) avenue
from 19.03.2015 to
19.03.2025
84 boiler house 12, Heroes of Ukraine (Heroes of
Stalinhrad) avenue
from 19.03.2015 to
19.03.2025
85 boiler house 21-a, Heroes of Ukraine (Heroes of
Stalinhrad) avenue
from 19.03.2015 to
19.03.2025
86 boiler house 72, Heroes of Ukraine (Heroes of
Stalinhrad KECH) avenue
from 19.03.2015 to
19.03.2025
87 boiler house 10-g, Architect Starova street from 01.04.2015 to
01.04.2025
88 boiler house 1, Verhnia street from 01.04.2015 to
01.04.2025
89 boiler house 22, Kurchatova street from 01.04.2015 to
unlimited
90 boiler house 267, Silikatna street from 01.04.2015 to
unlimited
91 boiler house 13-e, Heroes of Ukraine (Heroes of
Stalinhrad) avenue
from 19.03.2015 to
19.03.2025
92 boiler house 4-e, Architect Starova street from 01.04.2015 to
01.04.2025
93 boiler house 4-g, Architect Starova street from 16.06.2016 to
unlimited
94 boiler house 101, Heroes of Ukraine (Heroes of
Stalinhrad) avenue
from 13.03.2017 to
unlimited
95 boiler house 3, Kiyvska street from 01.04.2015 to
unlimited
96 boiler house 7, Dachna street from 09.04.2015 to
09.04.2025
97 furnace
5, Abrikosova street from 09.04.2015 to
09.04.2025
98 furnace 1, General Karpenka street from 09.04.2015 to
09.04.2025
99 boiler house 29, Sportivna street from 09.04.2015 to
09.04.2025
100 boiler house 20, General Karpenka street from 09.04.2015 to
09.04.2025
101 boiler house 8, Generala Karpenka street from 09.04.2015 to
09.04.2025
102 boiler house,
cogeneration unit 71, Bila street from 22.09.2017 to
22.09.2027 boiler house,
cogeneration unit
103 boiler house 7-a, Kurortna (Butomy) street from 09.04.2015 to
09.04.2025
104 boiler house 54-a, Ozerna (Chervonih
Mayovshikiv) street
from 09.04.2015 to
09.04.2025
18
105 boiler house 51-a, General Karpenka street from 09.04.2015 to
09.04.2025
106 boiler house 8, Levanevtsiv street from 09.04.2015 to
09.04.2025
107 boiler house 10, Levanevtsiv street from 09.04.2015 to
09.04.2025
2.4 Permits for waste management.
There is no procedure for granting permits for operations in the field of waste management in
Ukraine now.
In the process of production activity at OPU "Mykolayivoblteploenergo" the following types
of waste are formed:
wasted fluorescent lamps (Class I);
damaged or wasted lead batteries (Class II);
oils and lubricants motor, transmission exhaust (Class II);
stuffing box waste (Class III);
wasted rubbing materials (Class III);
oiled sand (Class III);
wasted automobile filters (Class III);
fuel slag (Class IV);
damaged, wasted tires (Class IV);
rubber products and materials, damaged or wasted (Class IV);
scrap of ferrous metals (Class IV);
scrap of non-ferrous metals (Class IV);
wooden lump waste (Class IV);
wasted wooden chips (Class IV);
wooden sawdust waste (Class IV);
construction waste (Class IV);
thermal insulation waste (Class IV);
ruberoid waste (Class IV);
communal mixed waste (Class IV);
paint cans (Сlass IV);
wasted abrasive materials (Class IV);
wasted clothes (Class IV);
worned shoes (Class IV);
waste paper (Class IV).
Waste transfer is carried out in accordance with concluded agreements with specialized
enterprises.
OPU "Mykolaivoblteploenergo" in accordance with the requirements of the Order of the
Ministry of Natural Resources of Ukraine of February 17, 1999, No. 41 "On Approval of the Form
Register Register of Waste Generation, Treatment and Utilization Objects and Instructions for its
Compilation", in 2011, registry maps of waste facilities were agreed upon in the manner prescribed
by law, the Chief State Sanitary Doctor of the city of Nikolaev and approved by the State
Administration of Environmental Protection in Mykolaiv region on December 19, 2011 for №168
/ 14. Data on waste management to register cards is introduced annually.
In accordance with the resolution of the Cabinet of Ministers of Ukraine dated 18.02.2016
No. 118 "On Approval of the Procedure for Submission of the Declaration of Waste and Its Forms",
and taking into account that OPU "Mykolayivoblteploenergo" had a total of less than 1000
19
conventional units for the 2016 year, a waste declaration No. D 4810136900_00221_030317 was
registered.
2.5 Permit documents for wastewater discharges.
OPU "Mykolaivoblteploenergo" does not receive permission to dispose of waste water,
because all waste water from the facilities of the company located in the city of Mykolaiv is
transferred to the MPU "Mykolayivvodokanal", according to the current agreement No. A / 1179
dated 30.11.2015. for centralized water supply and drainage. There are no own sources of water
supply and sewage facilities on the balance of the company.
20
3. CHARACTERISTICS OF EXISTING HEAT SUPPLY SYSTEM
OPU "Mykolayivoblteploenergo" is a communal unitary utility based on the communal
property of the territorial community of the city of Mykolaiv. The utility is controlled and
accountable to the Mykolaiv City Council which is the owner. Coordination of work and control
over the activities of the utility is carried out by the Department of Housing and Communal Services
of the Mykolayiv City Council (authorized body).
OPU "Mykolayivoblteploenergo" has the following legal documents:
Certificate of state a legal entity registration, Series А00 №590410 dated 29.12.2000 issued
by the executive committee of the Mykolayiv City Council; Identity code of the legal entity:
31319242
The statute of the Oblast Public Utility "Mykolayivoblteploenergo" (new edition), approved
by the decision of Mykolaiv City Council dated December 21, 2017, No. 32/22
Excerpt from the Unified State Register of Legal Entities, Individuals-Entrepreneurs and
Public Formations dated May 10, 2018, No. 1003956175
The main type of economic activity by CES:
35.30 – steam, hot water and air-conditioned air supply.
At present, based on the decisions of the Mykolaiv City Council dated September 13, 2017,
No. 24/5 and January 21, 2012, No. 32/21, the process of transferring the integral property complex
of heat supply to OPU "Mykolaivoblteploenergo" from the joint ownership of villages, settlements,
cities of the region (regional property) has been completed to the communal property of the
territorial community of Mykolaiv city.
The structure of the utility includes the following divisions: 8 district heating networks in the
city of Mykolaiv, as well as centralized workshops, services, laboratories, departments.
The main activity of OPU "Mykolaivoblteploenergo" is the production, transportation and
sale of heat energy to meet the needs of the population and other consumers in the services of heat
supply, hot water supply.
District heating covers about 70% of housing and community facilities in Mykolaiv city. Heat
supply is provided from 107 boiler houses with the total installed thermal output of 581,268 Gcal/h.
District heating systems of OPU "Mykolayivoblteploenergo" operate on the temperature schedule
950 С - 700 С, including part of the powerful boiler-houses with boilers, designed for the
temperature of the coolant up to 1500 С. The type of fuel used at boiler houses is natural gas and
coal for 2 boiler houses in the city (boiler houses on 1 Verhnya street and 124 H. Sahaydachnoho
(Vatutina) street. Traditional scheme is used for district heating. Thermal energy is generated at
district, quarterly and house boiler rooms with a well-developed transportation system; hot water
heating is carried out on the CHP, IHS and boiler houses. The regulation of heat energy release
takes place on the qualitative and quantitative schedule in manual and automatic mode of operation.
The total length of heat networks, in two-pipe measures , is 254,554 km, of which 56,2657 km
(about 30%) of above-ground gaskets. They are laid predominantly in impenetrable reinforced
concrete channels and made of steel pipes. Thermal insulation is made of mineral wool mats, slag
or foam polyurethane, foil insulation, ruberoid, evaluated steel. Repair works on heat networks
replacement are carried out mainly by the own forces of the enterprise.
Heat networks from pre-insulated pipes at utility are used in a limited number, only 10% of the
total number of heating networks in operation.
Also, 16,462 km of over-the-ground heat networks has been insulated under the Project as of
01.01.2018 by the method of polyurethane foam covering on existing pipes.
21
The length of the networks in the two-pipe calculation of the network by its method of laying
and age is given in Table 7.
Table 3.2. Pipelines Lifetime
Method of laying
Length < 5 years 5 – 15 years > 15 years
Km % Km % Km % Km %
1 2 3 4 5 6 7 8 9
Mykolaiv city
Underground 171,2877 66,6 22,9504 78,5 87,1493 82,0 61,188 51,4
Overground 56,2657 22,5 2,5143 8,6 16,8484 15,9 36,903 31
In the basements 26,998 10,9 3,7794 12,9 2,2676 2,1 20,951 17,6
Total 254,554 100 29,2441 100 106,265 100 119,042 100
In Mykolaiv city 15,961 km of underground networks are translated by pre-insulated pipes in
polyurethane foam insulation in a polyethylene membrane with a channelless gasket. Underground
networks are mainly made on pipework made of steel tubes.
About a third of all heating networks have already been demolished, about 21.5 km are in a
dilapidated and emergency condition.
The greatest problems during operation and repair of heating networks are the flooding of trays
of underground networks, both groundwater and leakages from the networks of water supply and
sewage installed along with thermal networks, small number of sectional shut-off valves and
drainage devices.
The total number of installed boilers is 370 boiler units. Hosehold boilers with power up to
120 kW - 129 boilers.
The distribution of the number of boiler houses, their installed total capacity:
Table 3.1.
Mykolaiv
Number of boiler houses: 107
including roof and furnace 11
Installed capacity of boilers (Gcal/h) 581,268
Number of boilers (except household) 241
Number of household boilers up to 120 kW: 129
Installed capacity of household boilers (Gcal/h) 10,496
Number of boilers with service life ≥20 years 199
Capacity of boilers with service life ≥20 years 341,734
Most of the thermal energy is produced at district boiler-houses with boilers DE-25, DKVR,
PTVM-50, KV-GM-10, KV-G-6,5, TVG-8, KV-G-5,6, on quarterly and home boiler houses, where
modernized boilers "NIISTU" and "Universal" are installed.
All operating boiler units of the enterprise are equipped with automatic safety devices.
Almost a quarter of boiler units have a lifetime of 20 years or more at the utility, with almost all
the district boiler houses which produced most of the heat. The technical condition of the auxiliary
equipment is satisfactory, except deaerators, deaerator water containers and salt storage.
Almost one third of all boiler-houses (32 boiler-houses) of the utility in the city of Mykolaiv are
built in residential buildings 30-40 years ago, of which 2 - in educational institutions, which does
not meet the requirements of existing normative documents. The location of the built-in boiler-
houses is presented in table 3.3.
22
Table 3.3.
№
p/p
Name Address Boiler house location
1 2 3 4
Mykolaiv city
1 boiler house 9-a, Nikolska street basement of a dwelling house
2 boiler house 13, 1th Slobodska street basement of a dwelling house
3 boiler house 2, Sadova street basement of a dwelling house
4 boiler house 55, Spaska street basement of a dwelling house
5 boiler house 46, Spaska street basement of a dwelling house
6 boiler house 27/1, Admiralska street the basement of the
administrative building
7 boiler house 25, Naberezhna street basement of a dwelling house
8 boiler house 5/11, Naberezhna street basement of a dwelling house
9 boiler house 81/83, Potomkinska street basement of a dwelling house
10 boiler house 6, Mostobudivnikiv street basement of a dwelling house
11 boiler house 16, Terrasna street basement of a dwelling house
12 boiler house 21, Velyka Morska street basement of a dwelling house
13 boiler house 78, Mala Morska street basement of a dwelling house
14 boiler house 3, Velyka Morska street basement of a dwelling house
15 boiler house 6, Velyka Morska street basement of a dwelling house
16 boiler house 13, Velyka Morska street basement of a dwelling house
17 boiler house 9, Buzsky Boulevard street basement of a dwelling house
18 boiler house 8, Nikolsa street basement of a dwelling house
19 boiler house 22-a, Central (Lenina) avenue basement of a dwelling house
20 boiler house 2, Admiralteiska (Komunariv) square basement of a dwelling house
21 boiler house 209, Chkalova street basement of a dwelling house
22 boiler house 46, Sadova street basement of a dwelling house
23 boiler house 130, Kuznetska (Skorohodova) street the basement of the
administrative building
24 boiler house 242-a, Pohranichna (Chihrina) street basement of a dwelling house
25 boiler house 1, 11th Pozdovzhnya street basement of a dwelling house
26 boiler house 8, Budivelnikiv street basement of the medical
institution
27 boiler house 124, H.Sahaidachnogo (Vatutina)
street
basement of the educational
institution
28 boiler house 12, Heroes of Ukraine (Heroes of
Stalinhrad) avenue
basement of a dwelling house
29 boiler house 22, Kurchatova street built in an administrative
building
30 boiler house 267, Silikatna street basement of a dwelling house
31 furnace 5, Abrikosova street basement of a dwelling house
32 boiler house 8, General Karpenka street basement of a dwelling house
Despite the unsatisfactory financial condition of the enterprise in recent years, OPU
"Mykolayivoblteploenergo" introduces, as far as possible, advanced equipment and measures to
reduce the cost of production, supply and transportation of heat energy.
Overview of the boiler houses of the district heating system of
OPU "Mykolaivoblteploenergo" is presented in Annex 1. A summary of boiler equipment is
presented in Annex 2.
23
The traditional scheme is used for district heating. Thermal energy is generated at district,
quarterly and house boiler houses with the corresponding transportation system. The regulation of
thermal energy release occurs according to the schedule in accordance with the temperature of the
outside air.
Automatic regulation of the gas-air ratio and weather control is carried out only on 11 roof
boiler houses and one furnace. The technical state of a large part of the auxiliary equipment of the
boiler house is satisfactory, and only a minor equipment is physically worn out and morally
outdated.
Many boiler houses have different pressure and productivity network pumps installed, which
results inefficient operation of pump units and increase of specific electricity consumption for the
transport of coolants, excessive amount of heat carriers, which ultimately leads to increased fuel
consumption.
Electricity supply of heat points is carried out from the city electric network with a voltage of
0.4 kV. The electricity supply system of CHP (control equipment, starting equipment, electric
motors, lighting system, etc.) is in a satisfactory state. Control and measuring equipment on CHP
corresponds to typical projects. OPU "Mykolaivoblteploenergo" in order to ensure the development and introduction of the
latest resource-saving technologies to achieve energy savings and reduce (constrain the growth) of
the cost of production, transportation and supply of heat energy, it is necessary to take measures for
the reconstruction, modernization of existing and construction (if necessary) of new modern
facilities for improvement of their functioning efficiency and reliability.
24
4. CHARACTERISTICS OF THE PROJECT ACTIVITIES AND
LOCATIONS WHERE THE PROJECT WILL BE
IMPLEMENTED
OPU "Mykolaivoblteploenergo" intends to carry out the following measures in order to
ensure the quality of services, and increase in the fossil fuels of the unit of thermal energy.
1. Reconstruction of boiler houses: reconstruction and replacement of old boilers,
replacement of burners with modern ones, replacement of safety and control automatics,
replacement of network pumps, equipment of converters of boiler electric motors
rotational speed, installation of modern equipment, automation and dispatching systems,
including SCADA, for operation of a boiler house without the constant presence of the
attendants.
2. Construction of heating mains using pre-insulated polyurethane foam pipes, closure of
inefficient boiler houses and switching consumers to other boiler plants and PJSC
"Mykolayiv CHP".
3. Replacing of insulation on the aerial parts of the heating networks in polyurethane
insulation with outer shell made of galvanized steel.
4. Modernization of CHP, IHS and boiler houses: installation of automatic regulation of
heat supply, depending on the temperature of the outside air, providing the necessary
hydraulic mode of operation, installing units for the calculation of thermal energy.
Comprehensive list of components
Table 4.1.
№ p/p Name of the component Quantity, units
1. Closure of boiler houses 8
2. Reconstruction of boiler houses 5
3. Construction of new boiler houses -
4. Construction/reconstruction of cogeneration
units
-
5. Modernization of pumping stations, pumping
equipment
-
6. Installation of CHP 7
7. Installation of IHS 103
8. Reconstruction of IHS -
9. Installation of heat meters units nodes 2
10. Construction of new heating networks
(replacement + new)
Ø 57-426 mm
7090 m
(two-pipe dimension)
11. Reconstruction of existing heating systems
(replacement of insulation)
Ø 57-720 mm
13499 m
(two-pipe dimension)
25
The list of measures implemented at the expense of the World Bank loan in the
framework of the Ukraine District Heating Energy Efficiency Project.
4.1. The closure of inefficient boiler houses with the re-connection of
consumers to the existing system.
Table 4.2.
№
Address
Location of
equipment
Power,
MW
Connected consumers (number of
apartments / subscribers)
Population,
number of
subscribers
Population
of legal
entities
Budget
institutions
Other
consumers
1. 9, Buzsky
Boulevard street
Basement of a
dwelling house 1,08 147 1 2 2
2. 3, Velyka Morska
street
Basement of a
dwelling house 1,37 324 4
3. 13, Velyka
Morska street
Basement of a
dwelling house 1,53 289 2
4. 21, Velyka
Morska street
Basement of a
dwelling house 1,65 316 2
5. 16, Terrasna
street
Basement of a
dwelling house 1,65 232 1
6. 8, Nikolska street Basement of a
dwelling house 1,08 119 1 2
7. 6,
Mostobudivnikiv
street
Basement of a
dwelling house 0,461 56
8. 6, Velyka Morska
street
Basement of a
dwelling house 1,89 359
On pic. 1 there are boiler houses are shown - 8 units (located in basements of residential
buildings) that will be closed as part of the Project implementation
26
Pic. 1 General map of location of boiler houses which has to be closed
27
4.2. Reconstruction of existing boiler houses Table 4.3.
№
Address
Power,
MW
(existing)
Reconstruction measures
1
42, Samoylovicha
street
104,67
- Modernization of KV-GM-30 boilers – retrofitting boilers
with the necessary equipment and means of control and
automation.
- replacement of PTVM-30 boilers with two boilers of thermal
power of 20 Gcal/h each;
- replacement of network pumps;
- replacement of feed pumps;
- installation of a hydraulic separator;
- installation of the boiler circuit on each boiler pump;
- installation of a three-way valve after the hydraulic separator;
- installation of an automatic system of chemical water
purification;
- installation of an automatic chemical deaeration system;
- installation of TEN electric boilers working on the "night
rate" for partial replacement of natural gas;
- to establish a state of emergency on all electric drives;
- reconstruction of the electricity accounting unit with the
installation of multi-tariff electricity meters with connection to
ASKU;
- replacement of cold water flow meters to flow meters with
connection to the SCADA system;
- replacement of work, emergency and repair lighting;
- setting of the gas alarm system;
- to replace all automation on the remaining technological
equipment;
- replacement of power cabinets and all cable lines.
2
72, Heroes of
Ukraine (Heroes of
Stalinhrad) avenue
19,75
- replacement of all existing boilers with a total thermal input
of not less than the attached load of 11.577 Gcal/h, including
installation of a solid-fuel boiler of 1.0-1.5 MW;
- installation of TEN electric boilers working on the "night"
tariff for the partial replacement of natural gas with electricity.
The power of electric boilers is defined as the difference
between the permitted power of the equipment expected to be
installed within the framework of this project;
- installation of a hydraulic separator;
- installation of the boiler circuit on each boiler;
- installation of a three-way valve after the hydraulic separator;
- installation of an automatic chemical purification system;
- installation of an automatic chemical deaeration system;
- installation of the heating system pumps and the tank of the
cleaned water supply;
- to set the state of emergency on all electric drives;
- reconstruction of the power accounting unit with the
installation of multi-tariff accounting electricity meters with
the connection to the ASKUE system;
28
3
1-k, Sportivna
street
44,08
- to replace boiler №1 ТVG-8м to a boiler with the thermal
capacity of 8-10 Gcal/h;
- replacement of burners on boilers №2-5;
- replacement of network pumps;
- replacement of feed pumps;
- installation of electric boilers within the allocated power;
- installation of a hydraulic separator;
- installation of the boiler circuit on each boiler pump;
- installation of a three-way valve after the hydraulic separator;
- installation of an automatic system of chemical water
purification;
- installation of an automatic chemical deaeration system,
instead of an existing vacuum;
- a tank of cleaned water;
- installation of tank-compensator volume;
- to establish a state of emergency on all electric drives;
- to replace all automation on boilers TVG-8m and KVG-7.56;
- reconstruction of the electricity accounting unit with the
installation of multi-tariff electricity meters with connection
to ASKU;
- replacement of cold water flow meters to flow meters with
connection to the SCADA system;
- replacement of work, emergency and repair lighting;
- installation of alarm system;
- replacement of power cabinets, all cable lines.
4
71, Bila street
34,89
- replacement of existing boiler № 2 to a boiler with a total heat
output of 20 Gcal/h;
- installation of TEN electric boilers working at the operation
of a cogeneration unit for the partial replacement of natural gas
with electricity of own production.
- replacement of network pumps;
- replacement of feed pumps;
- installation of a hydraulic separator;
- installation of the boiler circuit on each boiler pump;
- installation of a three-way valve after the hydraulic separator;
- installation of an automatic chemical purification system;
- installation of an automatic chemical deaeration system;
- installation of the heating system pumps and the tank of the
cleaned water supply;
- installation of a tank-volume compensator;
- to set the state of emergency on all electric drives;
- replacement of the power accounting unit;
- replacement of cold water flow meters with flow meters
connected to the SCADA system;
- replacement of working lighting;
- reconstruction of alarm system and dispatching;
- replacement of power cabinets and all cable lines;
- modernization of all existing boilers with replacement of
burners;
- replacement of burners on boilers;
29
5
48, Novozavodska
street
49,3
- replacement or modernization of smoke exhaust pipes;
- replacement of feed pumps;
- replacement of the network pump №2;
- replacement of steam boilers;
- installation of TEN electric boilers working on a "night" tariff
for the partial replacement of natural gas with electricity;
- to establish a state of emergency on all electric drives;
- reconstruction of electricity accounting unit with the
installation of multi-tariff electricity meters with connection
to ASKU;
- replacement of cold water flow meters to flow meters with
connection to the SCADA system;
- replacement of operational emergency and repair lighting;
- to reconstruct the alarm system and dispatching;
- replacement of the power cabinet and all cable lines.
Pic. 2 shows the boiler houses - 5 units on which the reconstruction will be carried out within the
framework of the Project implementation
Pic. 2 general map of boiler houses which has to be reconstructed
30
4.3 Construction of heating mains
Table 4.4.
Construction of heating mains
3 Reconstruction of the fourth
heat supply zone with the
association of boiler houses
on 9, Buzsky Boulevard
street, 3,6,13,21, Velyka
Morska street, 16, Terrasna
street, 8, Nikolska street, 6,
Mostobudivnikiv street and
1-k, Sportivna street
Construction of an underground heating system
with the use of pre-insulated polyurethane foam
pipes for the closure of inefficient boilers on 9,
Buzsky Boulevard street, 3,6,13,21, Velyka Morska
street, 16, Terrasna street, 8, Nikolska street, 6,
Mostobudivnikiv (consumers switch to the boiler
house on 1-k, Sportivna street).
The length of the pipeline is 6168 m in a two-pipe
dimension.
9
Reconstruction of the fifth
heat supply zone with the
association of boiler houses
on 42, Samoylovicha street
and 1, Zavodska square
Construction of an underground heat-pipe with the
use of pre-insulated polyurethane foam pipes for the
closure of an inefficient boiler-house on 1,
Zavodska square (consumers switched to boiler
room on 42 Samoilovicha street).
The length of the pipeline is 1969 m in a two-pipe
dimension.
TOTAL The length of the pipeline is Ø 32-530 mm
8137 m in a two-pipe dimension.
The maps (schemes) with the application of the heating networks that will be built are presented in
the annexes:
Annex 4. Scheme of reconstruction of the fourth heat-supply zone with the boiler-houses
association on 9, Buzsky Boulevard street, 3,6,13,21, Velyka Morska street, 16, Terrasna street, 8,
Nikolska street, 6, Mostobudivnikiv street and 1-k, Sportivna street.
Annex 5. Scheme of reconstruction of the fifth heat supply zone with the boiler-houses
association on 42, Samoylovicha street and 1, Zavodska square.
4.3 Replacement of isolation on overground sections of heating networks Table 4.6.
Replacing of insulation on the surface areas of heat networks
Site address Length of the network to be reconstructed /
replaced by isolation
1 from boiler house on 72,
Heroes of Ukraine avenue
Replacing of insulation on the aerial parts of the
heating networks in polyurethane insulation or
similar. The length of the pipeline is Ø 76-273 mm
L = 2139.8 r.m. in one-pipe dimension.
2 from boiler house on 51-a,
General Karpenka street
Replacing of insulation on the aerial parts of the
heating networks in polyurethane insulation or
31
similar. The length of the pipeline is Ø 57-219 mm
L = 689.2 r.m. in one-pipe dimension.
3
from boiler house on 21-a
Heroes of Ukraine
Replacing of insulation on the aerial parts of the
heating networks in polyurethane insulation or
similar. The length of the pipeline is Ø 76-325 mm
L = 1637.4 r.m. in one-pipe dimension.
4 from boiler house on 1-k,
Sportivna street
Replacing of insulation on the aerial parts of the
heating networks in polyurethane insulation or
similar. The length of the pipeline is Ø 57-159 mm
L = 214 r.m. in one-pipe dimension.
5 from boiler house on 71, Bila
street
Replacing of insulation on the aerial parts of the
heating networks in polyurethane insulation or
similar. The length of the pipeline is Ø 76-630 mm
L = 493.6 r.m. in one-pipe dimension.
6 from boiler house on 4-i,
Volodaskoho street
Replacing of insulation on the aerial parts of the
heating networks in polyurethane insulation or
similar. The length of the pipeline is Ø 76-273 mm
L = 598,8 r.m. in one-pipe dimension.
7 from boiler house on 69,
Peredova street
Replacing of insulation on the aerial parts of the
heating networks in polyurethane for insulation or
similar. The length of the pipeline is Ø 76-273 mm
L = 527.4 r.m. in one-pipe dimension.
8 from boiler house on 1-k,
Listopadova street
Replacing of insulation on the aerial parts of the
heating networks in polyurethane insulation or
similar. The length of the pipeline is Ø 108-219 mm
L = 235 r.m. in one-pipe dimension.
9 from boiler house on 96/7,
Lenina avenue
Replacing of insulation on the aerial parts of the
heating networks in polyurethane insulation or
similar. The length of the pipeline is Ø 108-133 mm
L = 111,1 r.m. in one-pipe dimension.
10 from boiler house on 91-v,
Shkapina street
Replacing of insulation on the aerial parts of the
heating networks in polyurethane insulation or
similar. The length of the pipeline is Ø 89-273 mm
L=140,2 r.m. in one-pipe dimension.
11 from boiler house on 130,
Skorohodova street
Replacing of insulation on the aerial parts of the
heating networks in polyurethane insulation or
similar. The length of the pipeline is Ø 76-89 mm
L=379,2 r.m. in one-pipe dimension.
12 from boiler house on 91,
Heroes of Ukraine avenue
Replacing of insulation on the aerial parts of the
heating networks in polyurethane insulation or
similar. The length of the pipeline is Ø 57-159 mm
L=205,6 r.m. in one-pipe dimension.
13 from boiler house on 2-a,
Horkogo street
Replacing of insulation on the aerial parts of the
heating networks in polyurethane insulation or
similar. The length of the pipeline is Ø 57-159 mm
L=259 r.m. in one-pipe dimension.
14 from boiler house on 150,
Chihrina street
Replacing of insulation on the aerial parts of the
heating networks in polyurethane insulation or
similar. The length of the pipeline is Ø 57-108 mm
L=372,1 r.m. in one-pipe dimension.
32
15 from boiler house on 11-v, 8th
Povzdovzhnya street
Replacing of insulation on the aerial parts of the
heating networks in polyurethane insulation or
similar. The length of the pipeline is Ø 133-159 mm
L=136,3 r.m. in one-pipe dimension.
16 from boiler house on 91-k,
Ribna street
Replacing of insulation on the aerial parts of the
heating networks in polyurethane insulation or
similar. The length of the pipeline is Ø 219 mm
L=268,5 r.m. in one-pipe dimension.
17 from boiler house on 7, Dachna
street
Replacing of insulation on the aerial parts of the
heating networks in polyurethane insulation or
similar. The length of the pipeline is Ø 57-219 mm
L=597,7 r.m. in one-pipe dimension.
18 from boiler house on, 38-k
Vilna street
Replacing of insulation on the aerial parts of the
heating networks in polyurethane insulation or
similar. The length of the pipeline is Ø 57-159 mm
L=757,1 r.m. in one-pipe dimension.
19 from boiler house on 2,
Znamenska street
Replacing of insulation on the aerial parts of the
heating networks in polyurethane insulation or
similar. The length of the pipeline is Ø 57-325 mm
L=1886,1 r.m. in one-pipe dimension.
20 from boiler house on 1,
Ulianova street
Replacing of insulation on the aerial parts of the
heating networks in polyurethane insulation or
similar. The length of the pipeline is Ø 108-273 mm
L=330 r.m. in one-pipe dimension.
21 from boiler house on 42,
Samoylovicha street
Replacing of insulation on the aerial parts of the
heating networks in polyurethane insulation or
similar. The length of the pipeline is Ø 57-530 mm
L=4145,5 r.m. in one-pipe dimension.
22 from boiler house on 1,
Zavodska square
Replacing of insulation on the aerial parts of the
heating networks in polyurethane insulation or
similar. The length of the pipeline is Ø 57-530 mm
L=3060,3 r.m. in one-pipe dimension.
23 from boiler house on 34-b,
Mykolaivska street
Replacing of insulation on the aerial parts of the
heating networks in polyurethane insulation or
similar. The length of the pipeline is Ø 57-219 mm
L=2488,7 r.m. in one-pipe dimension.
24 from boiler house on 7-a,
Kitoboiv street
Replacing of insulation on the aerial parts of the
heating networks in polyurethane insulation or
similar. The length of the pipeline is Ø 57-325 mm
L=1563 r.m. in one-pipe dimension.
25 from boiler house on 48-a,
Novozavodska street
Replacing of insulation on the aerial parts of the
heating networks in polyurethane insulation or
similar. The length of the pipeline is Ø 76-720 mm
L=3762 r.m. in one-pipe dimension.
TOTAL The length of the pipeline is Ø 57-720 mm
L = 26998 r.m. in one-pipe dimension.
33
4.5. Modernization of CHP, IHS and boiler rooms Table 4.7.
Modernization of CHP, IHS and boiler rooms
1 Reconstruction of CHP on
67-v, Yantarna street
Reconstruction of CHP on 67-v, Yantarna street to
provide the required hydraulic mode
2 Reconstruction of CHP on 1-
i, Ribna street
Reconstruction of CHP on 1-i, Ribna street to
provide the required hydraulic mode
3 Reconstruction of CHP on 8,
Hlinka street
Reconstruction of CHP on 8, Hlinka street to
provide the required hydraulic mode
4 Reconstruction of CHP on 2-
a, Korabeliv avenue
Reconstruction of CHP on 2-a, Korabeliv avenue to
provide the required hydraulic mode
Installation of IHS
1 Installation of accounting
units from the boiler house
42, Samoylovicha street
(MGZ)
During installation of new IHS, heat exchangers for
heating system with a service life of more than 10
years in the amount of 30 units will be replaced and
additionally, 2 new heat energy monitoring units
will be installed.
1 Purchase of diagnostic
laboratory
1 unit
2 Purchase of an emergency
operation vehicle
1 unit
Implementation of these measures will allow:
- To modernize boiler houses with the replacement of obsolete and non-economic
equipment.
- To reduce the specific costs of electric energy and natural gas for heat production.
- To ensure the accounting and quality of the heat energy service.
- To provide automated work of boiler houses (without the operator's presence), dispatch
control and data collection.
Reconstruction of heating networks on the site on the Samoilovicha str. will take place in the
industrial zone of the city. A Traffic Management Plan will be developed in case of temporary
traffic restriction.
Replacement of isolation on overground sections of heating networks does not require excavation,
movement restriction, etc.
Reconstruction of CHP will take place within the existing territories. New ITPs are installed in
basements of residential buildings that are not used by residents for their own needs.
Proposed project activities will not result in any physical resettlement /displacement of persons or
properties. The works will be conducted on public lands and will be temporary in their nature. In
34
case the situation will arise, and temporary economic displacement is required, specific Ab-RAP or
RAP will be developed/ disclosed/consulted.
Pic. 1 Replacement of isolation on overground sections of heating networks on Karpenko str.
35
5. INFLUENCES CHARACTERISTICS OF PROJECT
ACTIVITIES ON ENVIRONMENT AND SOCIAL SPHERE During carrying out of the projected activity both positive and negative impacts on the
environment and social sphere are possible. Positive effects include reducing CO2 emissions and
pollutants in the atmosphere, as well as increasing the quality and reliability of services, raising the
level of social welfare of the population.
The project envisages the closure of emergency boiler houses, the reconstruction of boiler
houses, heating networks, equipment modernization and the installation of new IHS, etc.. It is
important to minimize any significant impact on the environment using the right methods.
During the reconstruction of boiler house on 42, Samoilovicha street (rated thermal power
more than 50 MW) in accordance with the norms of environmental legislation of the Law of Ukraine
"On Environmental Impact Assessment", the Environmental Impact Assessment (EIA) procedure is
used. See section 5.13.
Construction work will be carried out either in the premises of existing facilities, on the streets,
or along with other objects of local infrastructure. See sections 5.11 and 5.12.
The project does not require resettlement and will not affect ownership issues, since the main
emphasis is on modernizing existing networks and facilities. Also, the project will not affect the
archaeological or historic sites. Construction will not cause damage to protected areas.
Replacement of pipelines does not have a significant impact on land use, as the proposed
measures will be carried out on existing facilities of the district heating system. For the same reason,
the visual impact on the environment remains negligible.
Works on construction and repair sites can cause some inconvenience in the form of noise,
dust, vibration, and vehicle overlapping. This is especially true in cases where such works are carried
out near residential areas. However, these inconveniences are temporary and may be mitigated if
you follow the steps presented in the Mitigation Plan.
The main negative impacts of the Project are as follows:
5.1. Effect on atmospheric air.
The main sources of air pollution when performing work are as follows:
- exhausted fumes from operation of construction equipment, vehicles and other mechanisms,
the formation of dust and suspended solids in Persian bulk materials;
- emissions of pollutants in the paint work;
- emissions of polluting substances into atmosphere during welding.
Point Sources
Point sources are discrete, stationary, identifiable sources of emissions that release pollutants
to the atmosphere. They are typically located in manufacturing or production plants. Within a given
point source, there may be several individual ‘emission points’ that comprise the point source.
Point sources are characterized by the release of air pollutants typically associated with the
combustion of fossil fuels, such as nitrogen oxides (NOx), sulfur dioxide (SO2), carbon monoxide
(CO), and particulate matter (PM), as well as other air pollutants including certain volatile organic
compounds (VOCs) and metals that may also be associated with a wide range of industrial activities.
Emissions from point sources should be avoided and controlled according to good
international industry practice (GIIP) applicable to the relevant industry sector, depending on
ambient conditions, through the combined application of process modifications and emissions
controls.
Fugitive Sources
Fugitive source air emissions refer to emissions that are distributed spatially over a wide area
and not confined to a specific discharge point. They originate in operations where exhausts are not
captured and passed through a stack. Fugitive emissions have the potential for much greater ground-
level impacts per unit than stationary source emissions, since they are discharged and dispersed
close to the ground. The two main types of fugitive emissions are Volatile Organic Compounds
36
(VOCs) and particulate matter (PM). Other contaminants (NOx, SO2 and CO) are mainly associated
with combustion processes, as described emissions should establish the need for ambient quality
assessment and monitoring practices.
Open burning of solid wastes, whether hazardous or nonhazardous, is not considered good
practice and should be avoided, as the generation of polluting emissions from this type of source
cannot be controlled effectively.
In all the aspects of the Project welding works will be carried out. Emissions from welding
operations, exhaust gases from construction equipment, vehicles and paint jobs are minor and
temporary and do not affect the surface layer of the atmosphere.
During the construction of cogeneration plants and relaying of heat pipelines will be carried
out excavation work that will lead to the process of dusting which will have a negative impact on
people who live nearby.
In the process of operation of cogeneration plants into the air carbon monoxide, nitrogen
dioxide, mercury and greenhouse gases (methane, carbon dioxide and the nitrous oxide) will be
emitted and formed during natural gas combustion in heat-generating modules.
Mobile Sources – Land-based
Similar to other combustion processes, emissions from vehicles include CO, NOx, SO2, PM
and VOCs. Emissions from on-road and off-road vehicles should comply with national or regional
programs. In the absence of these, the following approach should be considered:
• Regardless of the size or type of vehicle, fleet owners / operators should implement the
manufacturer recommended engine maintenance programs;
• Drivers should be instructed on the benefits of driving practices that reduce both the risk of
accidents and fuel consumption, including measured acceleration and driving within safe speed
limits.
Particulate matter
The most common pollutant involved in fugitive emissions is dust or particulate matter (PM).
This is released during certain operations, such as transport and open storage of solid materials, and
from exposed soil surfaces, including unpaved roads. Recommended prevention and control of these
emissions sources include:
Use of dust control methods, such as covers, water suppression, or increased moisture content
for open materials storage piles, or controls, including air extraction and treatment through a
baghouse or cyclone for material handling sources, such as conveyors and bins;
Use of water suppression for control of loose materials on paved or unpaved road surfaces.
Oil and oil by-products is not a recommended method to control road dust. Examples of additional
control options for unpaved roads include those summarized in table below.
Type of control Control efficiency
Wet Suppression – Watering 12% - 98%
Speed Reduction 0% - 80%
Vacuum Sweeping 0% - 58%
Water Flushing/Broom
Sweeping
0% - 96%
Ozone Depleting Substances (ODS)
Several chemicals are classified as ozone depleting substances (ODSs) and are scheduled for phase-
out under the Montreal Protocol on Substances that Deplete the Ozone Layer. No new systems or
processes should be installed using CFCs, halons, 1,1,1-trichloroethane, carbon tetrachloride,
methyl bromide or HBFCs. HCFCs should only be considered as interim / bridging alternatives as
determined by the host country commitments and regulations.
37
(Examples include: chlorofluorocarbons (CFCs); halons; 1,1,1-trichloroethane (methyl
chloroform); carbon tetrachloride; hydrochlorofluorocarbons (HCFCs); hydrobromofluorocarbons
(HBFCs); and methyl bromide. They are currently used in a variety of applications including:
domestic, commercial, and process refrigeration (CFCs and HCFCs); domestic, commercial, and
motor vehicle air conditioning (CFCs and HCFCs); for manufacturing foam products (CFCs); for
solvent cleaning applications (CFCs, HCFCs, methyl chloroform, and carbon tetrachloride); as
aerosol propellants (CFCs); in fire protection systems (halons
and HBFCs))
Monitoring
The air quality monitoring program will consider the following elements:
Monitoring parameters:
For combustion processes, indicator parameters typically include the quality of inputs.
Baseline calculations: Before a project is developed, baseline air quality monitoring at and
in the vicinity of the site should be undertaken to assess background levels of key pollutants, in
order to differentiate between existing ambient conditions and project-related impacts.
Monitoring type and frequency: Data on emissions and ambient air quality generated
through the monitoring program should be representative of the emissions discharged by the project
over time. Examples of time-dependent variations in the manufacturing process include batch
process manufacturing and seasonal process variations. Emissions from highly variable processes
may need to be sampled more frequently or through composite methods. Emissions monitoring
frequency and duration may also range from continuous for some combustion process operating
parameters or inputs (e.g. the quality of fuel) to less frequent, monthly, quarterly or yearly stack
tests.
Monitoring locations: Ambient air quality monitoring may consists of off-site or fence line
monitoring either by the project sponsor, the competent government agency, or by collaboration
between both. The location of ambient air quality monitoring stations should be established based
on the results of scientific methods and mathematical models to estimate potential impact to the
receiving airshed from an emissions source taking into consideration such aspects as the location of
potentially affected communities and prevailing wind directions.
Sampling and analysis methods: Monitoring programs should apply national or international
methods for sample collection and analysis, such as those published by the International
Organization for Standardization,26 the European Committee for Standardization,27 or the U.S.
Environmental Protection
Agency.28 Sampling should be conducted by, or under, the supervision of trained individuals.
Analysis should be conducted by entities permitted or certified for this purpose.
Sampling and analysis Quality Assurance / Quality Control (QA/QC) plans should be applied
and documented to ensure that data quality is adequate for the intended data use (e.g., method
detection limits are below levels of concern). Monitoring reports should include QA/QC
documentation.
Taking into account the volumes of emissions, as well as many years of experience in
conducting similar construction operations, it is possible to consider the influence on atmospheric
air permissible (in strict compliance with technical and environmental requirements).
5.2. Noise Effect. The main sources of noise are from conducting construction works and dismantling work are
traffic, the use of construction equipment directly at the construction site (dump trucks, excavators,
38
cranes, bulldozers, motor graders, etc.), material handling, installation of new equipment, laying of
pipelines.
Noise can negatively affect workers in cases where they do not use appropriate personal
protective equipment and thus cause the risk of occupational disease. Also, noise can create
discomfort for people who live and work near construction sites and dismantling. For this purpose
it is necessary to provide noise protection screens in the places of work. To organize work only at
the allowed time.
Methods for prevention and control of sources of noise emissions depend on the source
and proximity of receptors. Noise reduction options will be considered on the design
preperation stage and include:
· Selecting equipment with lower sound power levels
· Installing silencers for fans
· Installing suitable mufflers on engine exhausts and compressor components
· Installing acoustic enclosures for equipment casing radiating noise
· Improving the acoustic performance of constructed buildings, apply sound insulation
· Installing acoustic barriers without gaps and with a continuous minimum surface
density of 10 kg/m2 in order to minimize the transmission of sound through the
· Installing vibration isolation for mechanical equipment
· Limiting the hours of operation for specific pieces of equipment or operations,
especially mobile sources operating through community areas
· Re-locating noise sources to less sensitive areas to take advantage of distance and
shielding
· Taking advantage of the natural topography as a noise buffer during facility design
· Reducing project traffic routing through community areas wherever possible
When performing the works on the PROJECT the noise impact will be short-term and
insignificant.
5.3. Influence on the quality of surface and groundwater.
The technological processes which are associated with the constant direct influence on the
water environment are absent.
But the discharge of sewage into wastewater treatment systems is the indirect impact.
Discharges of industrial wastewater, sanitary wastewater, wastewater from utility operations
or stormwater into public or private wastewater treatment systems should:
· Meet the pretreatment and monitoring requirements of the sewer treatment system into which
it discharges.
· Not interfere, directly or indirectly, with the operation and maintenance of the collection and
treatment systems, or pose a risk to worker health and safety, or adversely impact characteristics of
residuals from wastewater treatment operations.
· Be discharged into municipal or centralized wastewater treatment systems that have adequate
capacity to meet local regulatory requirements for treatment of wastewater generated from the
project. Pretreatment of wastewater to meet regulatory requirements before discharge from the
project site is required if the municipal or centralized wastewater treatment system receiving
wastewater from the project does not have adequate capacity to maintain regulatory compliance.
Surface water and underground water can be contaminated by accidental spills and fuel leaks
from machinery and equipment during the period of PROJECT implementation, as well as surface
runoff from the temporary construction sites containing suspended substances, organic substances
and oil products.
Impact on ground water is possible just in case of pipeline accident during operation, when
water leaks out till the level of ground waters and causes increase of the level and as a result of this
flooding of land.
39
To prevent this impact, provision is made for emergency measures that will eliminate
pollution of surface and groundwater during construction and operation.
5.4. Impact on the ground.
Soil may be contaminated as a result of accidental spillages and leaks of oil and fuel of
machinery and equipment, as well as during washing of transport on the construction site. In order
to prevent pollution it is necessary to introduce measures, such as strict prohibition of washing cars
at construction sites, car inspection, etc..
The impact on the soil during the reconstruction will be insignificant, taking into account the
timing of construction work. Based on the foregoing, the execution of construction works will not
disturb the landscape, will not cause changes in the main elements of the geological structure.
5.5. Waste management. Facilities that generate and store wastes practices the following:
· Establishing waste management priorities at the outset of activities based on an
understanding of potential Environmental, Health, and Safety (EHS) risks and impacts and
considering waste generation and its consequences
· Establishing a waste management hierarchy that considers prevention, reduction, reuse,
recovery, recycling, removal and finally disposal of wastes.
· Avoiding or minimizing the generation waste materials, as far as practicable
· Where waste generation cannot be avoided but has been minimized, recovering and reusing
waste
Where waste can not be recovered or reused, treating, destroying, and disposing of it in an
environmentally sound manner.
During the dismantling of old equipment, various types of waste will be formed, the improper
storage of which may lead to soil pollution, soil and surface water, as well as injuries to workers,
persons visiting industrial sites and passers-by.
The main waste that can be generated during the reconstruction of boiler houses and heating
networks will be:
- waste mixed construction and demolition of buildings and structures (construction waste),
code 4510.2.9.09, hazard class - 4, temporary storage at a specially designated area with a
hard coating with subsequent removal to the landfill of construction waste under the contract;
- materials and products construction, insulating. incl. cardboard, canvas, motherboard, slab,
spoiled, contaminated or unidentified, their remains which can not be used for their intended purpose
(ruberoid waste, thermal insulation waste), code 4510.1.3.10, hazard class - 4, temporary storage at
a specially designated site solid coating with subsequent removal to the landfill of construction
waste under the contract;
- scrap of ferrous metals, small, other, code 7710.3.1.08, hazard class - 4, temporary storage
on a specially designated platform with a hard coating. It is planned to transfer to a specialized
enterprise for utilization in accordance with the contract;
- municipal waste (mixed), incl. rubbish (JPA), code 7720.3.1.01, hazard class - 4. Storage
place - container on a specially designated platform. As the accumulation provides for the removal
of dumping landfill.
- wastes containing asbestos (wastes of insulating materials): code 4510.1.3.05 - materials
and articles of construction containing asbestos or code 7710.3.1.17 - materials containing asbestos
are spoiled or waste, hazard class - 4, temporary storage on a specially designated area with a hard
covering with the subsequent removal to the landfill of construction waste under the contract. The
disposal of asbestos waste is carried out by organizations with appropriate licenses.
Waste Storage
Hazardous waste is stored so as to prevent or control accidental releases to air, soil, and water
resources in area location where:
40
- Waste is stored in a manner that prevents the commingling or contact between incompatible
wastes, and allows for inspection between containers to monitor leaks or spills. Examples
include sufficient space between incompatibles or physical separation such as walls or
containment curbs
· Store in closed containers away from direct sunlight, wind and rain
· Secondary containment systems should be constructed with materials appropriate for the
wastes being contained and adequate to prevent loss to the environment
· Secondary containment is included wherever liquid wastes are stored in volumes greater
than 220 liters. The available volume of secondary containment should be at least 110
percent of the largest storage container, or 25 percent of the total storage capacity
(whichever is greater), in that specific location
· Provide adequate ventilation where volatile wastes are stored.
Hazardous waste storage activities also are subject to special management actions, conducted by
employees who have received specific training in handling and storage of hazardous wastes:
- Provision of readily available information on chemical compatibility to employees,
including labeling each container to identify its contents
- Limiting access to hazardous waste management and waste storage areas to employees who
have not received proper training
- Clearly identifying (label) and demarcating the area, including documentation of its location
on a facility map or site plan
- Conducting periodic inspections of waste storage areas and documenting the findings
- Preparing and implementing spill response and emergency plans to address their accidental
release (additional information on Emergency Plans in provided in Section 3 of this
document)
- Avoiding underground storage tanks and underground piping of hazardous waste
Monitoring
Monitoring activities associated with the management of hazardous and non-hazardous waste
include the following:
- Regular visual inspection of all waste storage collection and storage areas for evidence of
accidental releases and to verify that wastes are properly labeled and stored. When
significant quantities of hazardous wastes are generated and stored on site, monitoring
activities should include:
Inspection of vessels for leaks, drips or other indications of loss
Identification of cracks, corrosion, or damage to tanks, protective equipment, or floors
emissions, or monitoring stations (air, soil vapor, or groundwater)
Documenting any changes to the storage facility, and any significant changes in the
quantity of
materials in storage
- Regular audits of waste segregation and collection practices
- Tracking of waste generation trends by type and amount of waste generated, preferably by
facility departments
- Characterizing waste at the beginning of generation of a new waste stream, and periodically
documenting the characteristics and proper management of the waste, especially hazardous
wastes
- Keeping manifests or other records that document the amount of waste generated and its
destination
41
- Periodic auditing of third party treatment, and disposal services including re-use and
recycling facilities when significant quantities of hazardous wastes are managed by third
parties. Whenever possible, audits should include site visits to the treatment storage and
disposal location
- Regular monitoring of groundwater quality in cases of Hazardous Waste on site storage
and/or pretreatment and disposal
- Monitoring records for hazardous waste collected, stored, or shipped should include:
- Name and identification number of the material(s) composing the hazardous waste
- Physical state (i.e., solid, liquid, gaseous or a combination of one, or more, of these)
- Quantity (e.g., kilograms or liters, number of containers)
- Waste shipment tracking documentation to include, quantity and type, date dispatched, date
transported and date received, record of the originator, the receiver and the transporter
- Method and date of storing, repacking, treating, or disposing at the facility, cross-referenced
to specific manifest document numbers applicable to the hazardous waste
- Location of each hazardous waste within the facility, and the quantity at each location
The revised list and quantitative indicators will be specified in each individual subproject in the
project documentation.
Taking into account storage of waste in accordance with sanitary norms and safety
equipment, their subsequent delivery to specialized enterprises and removal to the landfill of solid
waste, it can be concluded that the negative impact on the environment will be permissible.
5.6. Prevention of emergency situations . Hazards posed to the public while accessing project facilities may include:
· Physical trauma associated with failure of building structures
· Burns and smoke inhalation from fires
· Injuries suffered as a consequence of falls or contact with heavy equipment
· Respiratory distress from dust, fumes, or noxious odors
· Exposure to hazardous materials
Reduction of potential hazards is best accomplished during the design phase when the
structural design, layout and site modifications can be adapted more easily.
The following issues should be considered and incorporated as appropriate into the planning,
siting, and design phases of a project:
Inclusion of buffer strips or other methods of physical separation around project sites to
protect the public from major hazards associated with hazardous materials incidents or process
failure, as well as nuisance issues related to noise, odors, or other emissions
· Incorporation of siting and safety engineering criteria to prevent failures due to natural risks
posed by earthquakes, tsunamis, wind, flooding, landslides and fire. To this end, all project
structures should be designed in accordance with engineering and design criteria mandated by site-
specific risks, including but not limited to seismic activity, slope stability, wind loading, and other
dynamic loads
· Application of locally regulated or internationally recognized building codes to ensure
structures are designed and constructed in accordance with sound architectural and engineering
practice, including aspects of fire prevention and response
· Engineers and architects responsible for designing and constructing facilities, building,
plants and other structures should certify the applicability and appropriateness of the structural
criteria employed.
In case of nonobservance of the established norms and safety rules any accident situations
may occur, connected with fire and explosions. This can lead to injury to workers and persons
visiting the production area or passing by and to the damage of the objects of property. Measures to
42
prevent emergency situations at the Project sites are reflected in section 6 "Safety rules and labor
protection”.
5.7. Influence on flora and fauna.
During the transfer of pipelines of thermal networks, earthworks will be conducted, which
may have a negative impact on the flora and fauna.
During the reconstruction of boiler houses - impact is not foreseen, as work is carried out
within the existing facilities, cuttings of green plantations are not expected.
5.8. Influence during transportation.
The growth in traffic of heavy equipment and trucks towards the construction sites and the
dismantling of the back increases the risk of road accidents. The cause of road accidents can also be
the improper organization of production processes.
Traffic safety should be promoted by all project personnel during displacement to and from
the workplace, and during operation of project equipment on private or public roads. Prevention and
control of traffic related injuries and fatalities should include the adoption of safety measures that
are protective of project workers and of road users, including those who are most vulnerable to road
traffic accidents. Road safety initiatives proportional to the scope and nature of project activities
should include:
Adoption of best transport safety practices across all aspects of project operations with the
goal of preventing traffic accidents and minimizing injuries suffered by project personnel and the
public.
Measures should include:
Emphasizing safety aspects among drivers
• Improving driving skills and requiring licensing of drivers
• Adopting limits for trip duration and arranging driver rosters to avoid overtiredness
• Avoiding dangerous routes and times of day to reduce the risk of accidents
• Use of speed control devices (governors) on trucks, and remote monitoring of driver actions
Regular maintenance of vehicles and use of manufacturer approved parts to minimize
potentially serious accidents caused by equipment malfunction or premature failure
Where the project may contribute to a significant increase in traffic along existing roads, or
where road transport is a significant component of a project, recommended measures include:
• Minimizing pedestrian interaction with construction vehicles
• Collaboration with local communities and responsible authorities to improve signage,
visibility and overall safety of roads, particularly along stretches located near schools or other
locations where children may be present. Collaborating with local communities on education about
traffic and pedestrian safety (e.g. school education campaigns)
• Coordination with emergency responders to ensure that appropriate first aid is provided in
the event of accidents
• Using locally sourced materials, whenever possible, to minimize transport distances.
Locating associated facilities such as worker camps close to project sites and arranging worker bus
transport to minimizing external traffic
• Employing safe traffic control measures, including road signs and flag persons to warn of
dangerous conditions.
5.9. Influence on human health.
43
Failure to comply with occupational safety and health regulations can lead to injury by
workers at construction and dismantling sites.
The negative effects on the health of people during the dismantling work have the old
insulating materials of boilers and pipes may containing asbestos. When conducting welding and
dyeing works the negative impact on human health is also possible.
Solid particles from a wide variety of industrial operations, and / or a liquid chemical spray
may strike a worker in the eye causing an eye injury or permanent blindness.
Exposed or faulty electrical devices, such as circuit breakers, panels, cables, cords and hand
tools, can pose a serious risk to workers. Overhead wires can be struck by metal devices, such as
poles or ladders, and by vehicles with metal booms. Vehicles or grounded metal objects brought
into close proximity with overhead wires can result in arcing between the wires and the object.
Projects should implement risk management strategies to protect the community from
physical, chemical, or other hazards associated with sites under construction and decommissioning.
Risks may arise from inadvertent or intentional trespassing, including potential contact with
hazardous materials, contaminated soils and other environmental media, buildings that are vacant
or under construction, or excavations and structures which may pose falling and entrapment
hazards. Risk management strategies may include:
- Regular conducting proper training on occupational safeguty and health
· Restricting access to the site, through a combination of institutional and administrative
controls, with a focus on high risk structures or areas depending on site-specific situations, including
fencing, signage, and communication of risks to the local community
· Removing hazardous conditions on construction sites that cannot be controlled affectively
with site access restrictions, such as covering openings to small confined spaces, ensuring means of
escape for larger openings such as trenches or excavations, or locked storage of hazardous materials
5.10. Impact on socio-economic development . There is no expected permanent negative impacts on the industrial, housing and
commercial facilities, surface and underground structures, cultural landscapes and it will not lead to
resettlement. Although temporary negative influences on community and the environment are
possible during the implementation of the Project, like temporary traffic constraints, restrictions on
access to public places, noise, small emissions, etc.
General expected Project effect for the consumer:
- improving the quality of services provided to the population for central heating and hot
water;
- improvement of the environment in the city, due to the reduction of negative effect;
- reducing the pressure on raising tariffs for services in a heat supply as a result of lower
cost of production, transportation and supply of thermal energy and reduce the operating costs of
the enterprise.
Implementation of all the directions of the Project to ensure the reliability and quality
of the provided heat supply services for the population of Kharkov, as well as reduce the cost of
utility bills. Another important intention of this Project is to reduce the losses of heating in the
network and to avoid accidents in the networks of district heating, which could cause by pipe breaks.
Implementation of Project will provide:
44
- Reduction of natural gas consumption
--Reduction of emissions of harmful emissions
- Reducing network heating losses
- Reducing water loss
- Reduced maintenance costs.
Installation of heat meters (90) and other mechanical and electrical equipment in the heat
supply stations of residential houses and individual heating substations (103) in residential buildings
will allow to conduct commercial heat accounting in thermal substations of multi-storey apartment
buildings in the city and improve the efficiency of using heat energy and the quality of heat supply
services.
As a result of implementation of SCADA, Public Utility “ Mykolaivoblteploenerho”
plans to achieve greater efficiency of operational dispatch management of operating regimes in
generation, transmission and distribution of thermal energy with the lowest cost and improve the
quality of services for the population.
Аutomation system of commercial electrical power metering will allow to achieve the
best technical-economic characteristics due to control of the equipment operating parameters of heat
sources and network, targeted management processes, awareness-raising and operational activities
of the staff.
Reduction of staff - due to the implementation of the Project, incl. the closure of boiler
houses, the installation of an automated system, etc., will not take place because, as of today, the
company has shortage of staff (≈30%). The Utility pays considerable attention to training, so staff
will be offered alternative type of work at other departments. 10-20 specialists of PU are trained at
the professional internal and exernal courses to improve their skills or gain additional professional
qualifications annualy.
5.11. Assessment of the impact on the environment and the social sphere during
the construction of heating mains
During the construction of new underground heat networks, the following negative effects of
environmental and social impact are possible
- disfunction of the accomplishment of streets during the execution of land works
- damage of the green zone, the demolition of trees in the protection zone of heat supply
networks,
- damage of asphalt pavement roads and sidewalks in the places of laying of heating
networks,
- temporary overlapping of streets when passing through the passageway of the road,
etc..
In order to reduce the negative impact on the environment and the social sphere, it is necessary
to foresee the implementation of a number of measures.
1. Performing the accomplishment of the territory in full after the completion of construction
work.
2. Reconciliation of permission to land in local executive authorities (district administration),
and exploiting the relevant enterprises and organizations of patrol police in violation of
asphalt-concrete pavement.
3. In case of partial or full overlapping of the passageway for road traffic safety, execute the
scheme of placement of road signs at the specified area and agree with the Office of Patrol
Police in the city of Mykolaiv.
4. When performing land works strictly adhere to the requirements of regulatory documents,
one day before the beginning of earthworks to call representatives of organizations that
have underground communications on the sites of construction work. Establish, in their
presence, the exact location of these communications, sign the relevant permits and take
the necessary measures to safeguard them.
5. Responsible executors in the course of performing earthworks strictly adhere to the terms
for the execution of works. Protecting the green work area.
45
6. Upon completion of the work, it is necessary to remove all remnants of materials and soil.
To carry out the accomplishment of the works section and the location of the gap to be
prepared for the contractor in case of violation of asphalt-concrete coating.
7. Conclusion of a contract with a contracting entity for the execution of works on the
restoration of asphalt-concrete coating.
8. Obtaining of a permit for the demolition of trees and inspection of green plantations in the
places of construction work in the protection zone of thermal networks in the Department
of Ecology of the Department of Housing and Communal Services of the Mykolaiv City
Council and the approval of the inspection report with the State Ecological Inspectorate
in Mykolaiv Oblast.
9. In order to implement the Ukrainian district heating energy efficiency Project in
Mykolayiv, act # 716 was received from 09.11.2017. in the Department of Ecology of the
Department of Housing and Communal Services of Mykolayiv City Council and agreed
with the State Ecological Inspectorate in Mykolaiv region to demolish trees that are in the
protection zone of the heating networks on the basis of "Rules of technical operation of
thermal installations and networks".
A copy of the inspection report on green areas in construction sites is presented in annex 7.
Construction of heating mains
1 Reconstruction of the
fourth heat supply
zone with the
association of boiler
houses on 9, Buzsky
Boulevard street,
3,6,13,21, Velyka
Morska street, 16,
Terrasna street, 8,
Nikolska street, 6
Mostobudivnikiv
street and 1-k,
Sportivna street
The main issues regarding the implementation of installation of
heating networks:
1. Prior to the beginning of the work, a project of construction
organization will be developed in accordance with the
current normative documents, which includes measures for
the safe performance of works (in accordance with DBN
A.3.1-5: 2016 Organization of construction production,
DBN A.3.2-2-2009 Labor protection and industrial safety in
construction).
2. Implementation of works on the installation of heating
networks requires the demolition and transplantation
(restoration) of green plantations (trees) that are located in
the protection zone of thermal networks.
Protection zone of heat networks is determined on the basis
of "Rules of technical operation of thermal installations and
networks" in accordance with the diameters of pipelines to
be laid. The protection zone of the heating networks for this
heating line is 3 meters (Ø <300 mm) and 5 meters (Ø> 300
mm) from the design or shell of the pipeline.
The total of green plantations that will be demolished and
transplanted (restored) during the reconstruction of heating
networks:
- The territory of the Central city stadium, from the side
of Oleg Grigoriev street – 7 units.
46
2 Reconstruction of the
fifth heat supply zone
with the association
of boiler houses on
42, Samoylovicha
street and 1, Zavodska
square
The main issues regarding the implementation of installation of
heating networks:
1. The crossing of the road on Bogoyavlensky avenue and
Korabeliv avenue (installation of heat networks will be
carried out without overlapping of streets).
These roads will not be blocked during earthwork.
Prior to the design, the above addresses were inspected by
representatives of the project organization, for drafting.
Prior to the beginning of the work, a project of construction
organization will be developed in accordance with the
current normative documents, which includes measures for
the safe performance of works (in accordance with DBN
A.3.1-5: 2016 Organization of construction production,
DBN A.3.2-2-2009 Labor protection and industrial safety in
construction).
2. Implementation of works on the installation of heating
networks requires the demolition and transplantation
(restoration) of green plantations (trees) that are located in
the protection zone of thermal networks.
Protection zone of heat networks is determined on the basis
of "Rules of technical operation of thermal installations and
networks" in accordance with the diameters of pipelines to
be laid. Protection zone of heating networks for this heating
line is 5 meters from the design or shell of the pipeline.
Total will be demolished and transplanted (restored) during the
reconstruction of heating networks:
- Zavodska square, along the roadway – 3 units.
5.12. The environmental impact assessment (OVD) procedure for the
reconstruction of the boiler house on 42 Samoilovicha street (nominal
thermal power more than 50 MW)
On December 18, 2017, the Law of Ukraine "On Environmental Impact Assessment"
(hereinafter referred to as the Law), introducing a new permission document - the conclusion on the
environmental impact assessment (hereinafter - the Conclusion), was entered into force, thereby
abolishing the environmental expertise.
According to the Law, the environmental impact assessment is required when deciding on
"planned activity", namely: construction, reconstruction, technical re-equipment, expansion, re-
engineering, liquidation (disassembly) of objects, other interference with the natural environment.
The list of objects that require the conclusion is defined in paragraphs 2 and 3 of Article 3 of the
Law. This list is divided into two groups. The first group includes the reconstruction of the boiler
house on 42, Samoilovicha street with installed thermal power more than 50 MW. The Ministry of
Environmental Protection will issue a conclusion on the environmental impact assessment for an
object of this category.
Procedure for obtaining a conclusion on the environmental impact assessment
47
1. Notification of the planned activity
It is necessary to submit a notification to the local state administration (or directly to the
Ministry of Environment) about the planned activity, which is subjected to an environmental
impact assessment, containing the information specified in part 2 of Article 5 of the Law.
Next, the local state administration or the Ministry of Environmental Protection publishes reports
and submit data to the Unified Register on Environmental Impact Assessment. Within 20 working
days from the date of publicity, the public may comment on the planned activity.
In the preparation of the Environmental Impact Assessment Report, the entity considers fully,
takes into account partially or substantially rejects the comments and suggestions of the public. In
this case, the Law does not provide the possibility of an administrative or judicial appeal to refuse
taking into account comments.
2. Preparation of the Report The summary of the report is as follows:
o description of the planned activity;
o description of justifiable alternatives;
o description of the current state of the environment;
o description of environmental factors that are likely to be affected;
o description and assessment of possible environmental impacts;
o description of forecasting methods;
o description of measures aimed at preventing negative effects;
o description of the expected significant negative impact;
o identification of all difficulties;
o all comments and suggestions received;
o summary of the monitoring program.
3. Public discussion The public discussion of the planned activities after submission of the report on the
environmental impact assessment is carried out in the form of public hearings and in the form of
providing written comments and proposals (including in electronic form).
The procedure for public hearings conducting in the process of environmental impact
assessment is established by the Cabinet of Ministers of Ukraine. Resolution of the Cabinet of
Ministers of Ukraine No. 989 dated 13.12.2017 "On Approval of the Procedure for Conducting
Public Hearings in the Process of Environmental Impact Assessment". As a result, the local state
administration (or the Ministry of Environmental Protection) is preparing a public discussion report,
which includes information on "full consideration, partial accounting or reasonable deviation" of
comments and suggestions from the public. "Groundless and unreasonable failure to pay or
incorrect consideration" may further serve as a basis for the Cancellation of the Opinion in the court.
Any individual may challenge the conclusion on the grounds that his remarks were not taken into
account.
4. Conclusion on environmental impact assessment Upon completion of the public discussion, the relevant body prepares an Opinion on the
environmental impact assessment that is mandatory for implementation, is taken into account when
deciding on the implementation of planned activities and may be the reason for refusal to issue a
decision on the implementation of planned activities.
The conclusion determines the requirements for the work of the planned facility, in particular,
the requirements for the use of territory and natural resources, requirements for environmental
protection and measures for the prevention of emergencies are established. In addition, the utility
may be required to carry out compensatory measures, to conduct an additional assessment of the
environmental impact, to organize post-project monitoring.
The conclusion is issued within 25 working days from the day the public discussion is
completed. The decision on the implementation of the planned activity must be taken by the relevant
body within 5 years from the date of issue of the Opinion, otherwise it will lose its validity.
48
An environmental impact assessment report, a public discussion report and an opinion on the
environmental impact assessment are submitted by the entity to obtain a decision by a public
authority or local authority on the planned activities that are the basis for initiating this activity.
The conclusion should include the environmental conditions that will need to be observed
throughout the life of the activity. In the opposite case, the operation of the enterprise may be
stopped by a court decision.
Requirements for ensuring the implementation of environmental standards during the
reconstruction of the boiler house on 42, Samoylovicha street
According to the Order of the Ministry of Environmental Protection of Ukraine No. 541 dated
October 22, 2008 "On Approval of Technological Norms for Permitted Emissions of Pollutants
from Heat-Power Installations, whose rated thermal capacity exceeds 50 MW" as amended in
accordance with the Order of the Ministry of Environmental Protection of Ukraine No. 62 dated
February 16, 2018 for the purpose of registration and receipt of permits for the emission of
pollutants into the air by stationary sources for the boiler house on 42, Samoylovicha street, after
reconstruction, taking into account the technological standards of permissible pollutant emissions,
the mass concentration of pollutants in gases, which are diverted from a separate type of equipment,
that are the boilers at the place of their exit from the equipment should not exceed the established
values of the technological standards of allowable emissions. It is planned to upgrade two KV-GM-
30 boilers and replace the boilers PTVM-30 with two boilers of thermal capacity of 20 Gkal/hour
each.
The mass concentrations of carbon monoxide must not exceed the established values of the
technological standards for allowable emissions for modernized installations for boilers on gaseous
fuel 100 mg/m3.
The mass concentrations of nitrogen oxides, converted to nitrogen dioxide, should not exceed
the established values of the technological standards for allowable emissions for modernized boiler
units installations on gaseous fuel 100 mg/m3.
5.14 Emissions of pollutants and greenhouse gases at boiler houses that are being
reconstructed and liquidated.
The emissions of pollutants and greenhouse gases at the boiler houses that are being reconstructed
and liquidated are given in tables 5.1. and 5.2. (data on the results of 2017 work).
Table 5.1. Emissions of pollutants and greenhouse gases at reconstructed boiler houses.
№
p/p
Address of the boiler
house
Type of fuel
that is used
Current
volume of
fuel per
year,
ths.m3
Pollutants
and
greenhouse
gases
Volume of
emissions
per year,
ths.t
Reduction in
fuel
consumption,
ths m3
1.
42, Samoylovicha street
Natural gas
6049,2229 NO2 0,028215 606,856
CO 0,008477
CO2 11,455600 2. 72, Heroes of Ukraine
(Heroes of Stalinhrad)
avenue
Natural gas 1747,8113 NO2 0,004074 163,899
CO 0,001081
CO2 3,309864 3.
51-a, G.Karpenka street
Natural gas
1469,7419 NO2 0,003382 108,917
CO 0,001387
CO2 2,783333 4. 21-a, Heroes of Ukraine
(Heroes of Stalinhrad)
avenue
Natural gas
1800,5275 NO2 0,003269 101,960
CO 0,001482
CO2 3,409574
49
№
p/p
Address of the boiler
house
Type of fuel
that is used
Current
volume of
fuel per
year,
ths.m3
Pollutants
and
greenhouse
gases
Volume of
emissions
per year,
ths.t
Reduction in
fuel
consumption,
ths m3
5. 34-b, Mykolaivska street
Natural gas
3829,3562 NO2 0,010427 188,267
CO 0,003262
CO2 7,251170 6.
7-a, Kitoboiv street
Natural gas
3835,7852 NO2 0,010556 233,424
CO 0,002603
CO2 7,263654 7.
1-k, Sportivna street
Natural gas
3815,4021 NO2 0,009600 356,198
CO 0,003343
CO2 7,224633 8. 7-a, Kurortna (Butomi)
street
Natural gas
2610,2393 NO2 0,006496 123,560
CO 0,001905
CO2 4,943202 9.
71, Bila street
Natural gas
5066,1693
1 NO2 0,009348 247,766
CO 0,004560
CO2 9,592622 10. 45-a, Ozerna (Chervonih
Mayovshikiv) street
Natural gas
583,3056 NO2 0,001452 42,431
CO 0,000523
CO2 1,104644 11. 4-i, 2nd Ekipazhna
(Volodarskogo) street
Natural gas
720,58463 NO2 0,001708 27,332
CO 0,000579
CO2 1,365596 12.
69-k, Peredova street
Natural gas
524,70555 NO2 0,001091 80,826
CO 0,000496
CO2 0,993696 13.
1-k, Listopadova street
Natural gas
510,50353 NO2 0,001110 24,291
CO 0,000445
CO2 0,967570 14.
6, Transportniy lane
Natural gas
441,77487 NO2 0,000985 32,972
CO 0,000357
CO2 0,836690 15. 70-v, O.Yanati
(Kuybisheva) street
Natural gas
31,88679 NO2 0,000051 1,522
CO 0,000030
CO2 0,060406 16. 22-v, Potomkinska street
Natural gas
37,63661 NO2 0,000094 2,973
CO 0,000039
CO2 0,071280 17.
66-k, Spasska street
Natural gas
24,88825 NO2 0,000047 1,018
CO 0,000025
CO2 0,047141 18. 96-7, Central (Lenina)
avenue
Natural gas
132,9688 NO2 0,000265 7,664
CO 0,000129
CO2 0,251776 19.
31, Admiralska street
Natural gas
77,39601 NO2 0,000168 4,020
CO 0,000078
CO2 0,146546 20.
91-v, Bezimenna
(Shkapina) street
Natural gas
407,13786 NO2 0,000892 40,093
CO 0,000390
CO2 0,771020 21.
Natural gas
97,21259 NO2 0,000266 12,063
CO 0,000070
50
№
p/p
Address of the boiler
house
Type of fuel
that is used
Current
volume of
fuel per
year,
ths.m3
Pollutants
and
greenhouse
gases
Volume of
emissions
per year,
ths.t
Reduction in
fuel
consumption,
ths m3
24-k, Cental (Lenina)
avenue CO2 0,183998
22.
1, Lisova street
Natural gas
106,51075 NO2 0,000228 5,045
CO 0,000068
CO2 0,201718 23. 91, Heroes of Ukraine
(Heroes of Stalinhrad)
avenue
Natural gas
360,03892 NO2 0,000772 23,505
CO 0,000285
CO2 0,681791 24. 2-a, D.Yavornitskoho
(Horkoho) street
Natural gas
90,71577 NO2 0,000150 2,635
CO 0,000083
CO2 0,171815 25.
150, Pohranichna
(Chihrina) street
Natural gas
79,44256 NO2 0,000170 3,699
CO 0,000060
CO2 0,150356 26. 11-v, 8th Pozdovzhnia
street
Natural gas
267,93157 NO2 0,000589 14,284
CO 0,000239
CO2 0,507534 27.
91-k, Ribna street
Natural gas
200,1230 NO2 0,000364 26,689
CO 0,000121
CO2 0,378953 28.
7, Dachna street
Natural gas
438,54009 NO2 0,000917 408,169
CO 0,000264
CO2 0,830449 29.
38-k, Vilna street
Natural gas
91,60732 NO2 0,000177 4,527
CO 0,000064
CO2 0,173512 30. 48, Novozavodska street
Natural gas
5701,1791 NO2 0,013654 193,097
CO 0,003360
CO2 10,797148 31.
2, Znamyanska street
Natural gas
1327,4419 NO2 0,003218 316,665
CO 0,000874
CO2 2,513888 32. 1, Malko-Ternivska
(Ulyanovih) street
Natural gas
835,01697 NO2 0,002233 316,665
CO 0,000617
CO2 1,581382
Table 5.2. Emissions of pollutants and greenhouse gases at liquidated boiler houses №
p/p
Address of boiler house
Type of fuel
that is used
Current
volume of
fuel per
year,
ths.m3
Pollutants
and
greenhouse
gases
Volume of
emissions
per year,
ths.t
Reduction in
fuel
consumption,
ths m3
1.
5, Abrikosova street
Natural gas
139,80094 NO2 0,000283 45,990
CO 0,000095
CO2 0,264762 2.
8, General Karpenka
street
Natural gas
217,14337 NO2 0,000460
CO 0,000162
CO2 0,411215 3. 201,59293 NO2 0,000383 77,392
51
9, Buzsky Boulevard Natural gas CO 0,000165
CO2 0,381864 4.
3, Velyka Morska street
Natural gas
235,42309 NO2 0,000335
CO 0,000153
CO2 0,445838 5.
13, Velyka Morska street
Natural gas
215,32584 NO2 0,000450
CO 0,000157
CO2 0,407867 6.
21, Velyka Morska street
Natural gas
191,18566 NO2 0,000368
CO 0,000153
CO2 0,362129 7.
16, Terrasna street
Natural gas
170,97533 NO2 0,000299
CO 0,000136
CO2 0,323852 8.
8, Nikolska street
Natural gas
119,69037 NO2 0,000230
CO 0,000117
CO2 0,226709 9. 6, Mostobudivnikiv
street
Natural gas
47,724912 NO2 0,000075
CO 0,000038
CO2 0,090391 10.
6, Velyka Morska street
Natural gas
195,08497 NO2 0,000390
CO 0,000157
CO2 0,369477 11.
45-a, Velyka Morska
street
Natural gas
66,21279 NO2 0,000135 -
CO 0,000065
CO2 0,125365 12. 12, Heroes of Ukraine
(Heroes of Stalinhrad)
avenue
Natural gas
187,96844 NO2 0,000365 3,847
CO 0,000131
CO2 0,355960 13.
209, Chkalova street
Natural gas
129,35164 NO2 0,000271 129,351
CO 0,000099
CO2 0,244933 14. 424-v, Pohranichna
(Chkalova) street
Natural gas
252,9970 NO2 0,000629 252,997
CO 0,000222
CO2 0,479065 15.
22-a, Central (Lenina)
avenue
Natural gas
272,89562 NO2 0,000764 272,896
CO 0,000224
CO2 0,516794 16.
2-k, Polarniy lane
Natural gas
575,06166 NO2 0,001181 66,086
CO 0,000532
CO2 1,089053 17.
1, Zavodska square
Natural gas
5688,3335 NO2 0,019070 459,490
CO 0,007920
CO2 10,771691
6. Health and Safety Protection Measures on Site
The general requirements of occupational safety include professional selection and training of
workers; control over fulfillment of safety requirements; rational organization of work and rest.
The appointed contractor will identify potential hazards and develop responses (including design,
testing, choice, substitution, installation, arrangement, organization, use and maintenance of workplaces,
working environment and work processes) to eliminate sources of risk or minimize workers’ exposure
52
to hazards.
Where hazards are inherent to the project activity, or it is otherwise not feasible to eliminate the
hazard, residual risks shall be managed through appropriate protective measures, such as controlling the
hazard at source through protective solutions and by providing adequate personal protective equipment
at no cost to the worker.
Training must be provided to all workers on all relevant aspects of occupational health and safety
associated with their daily work, including emergency arrangements. The workers who can contact with
hazardous waste, for instance waste containing asbestos, have to receive the hazardous waste
management training and be provided individual protective gear.
Third parties (visitors and external service providers) must be briefed on the relevant aspects of
health and safety and emergency response when accessing the premises.
The appointed contractor must document and report occupational injuries, illnesses and fatalities.
It is recommended that a process for reporting near misses and unsafe behaviors be developed as a
proactive approach to occupational health and safety risk management. Adequate access to first aid and
medical assistance in cases of work related accidents or injuries must be provided.
The management should monitor the implementation of the rules of labor protection by the
workers. In order to protect the service personnel from electric shock, in the case of violation of
insulation, all metallic non-conductive parts of the electrical equipment and housing of the fixtures are
grounded by connecting to the zero wire of the power supply network.
The main normative acts that regulate safe working conditions are:
- Law of Ukraine "On Occupational Safety";
- DBN A.3.2.-2-2009 "Occupational safety and industrial safety in construction"
- DNAOP 0.00-1.21-98 "Rules of Safe Operation of Electrical Installations of Consumers";
- DNIPO 0.00-1.20-98 "Safety Rules for Gas Supply Systems of Ukraine";
- NAPB B.06.044-2005 "Rules of fire safety in Ukraine";
- GKD 34.20.507-2003 "Rules of technical operation of electric power stations and networks";
- DNAOP 0.00-1.11-98 "Rules of the structure of safe operation of steam and hot water
pipelines";
- DNAOP 0.00-1.26-96 "Rules of construction and safe operation of steam boilers with a vapor
pressure of not more than 0,07 MPa (0,7 kgs/cm2), water-heating boilers and water heaters with a
temperature of heating of water no more than 1150С";
- DNAOP 1.1.10-1.04-01 "Rules for safe operation of the tool and the device";
- DNAOP 1.1.10-1.02-01 "Rules for Safe Operation of Heat-Mechanical Equipment of Power
Plants and Heating Networks";
- Rules of technical operation of thermal installations and networks, approved by order of the
Ministry of Fuel and Energy of Ukraine 14.02.2007 71.
The overall site management system must be designed with adequate capacity for oversight of
occupational health and safety matters.Physical hazard to workers must be adequately assessed in may
include (but not limited to the aspects included in Table Physical Hazards to Workers
Table 6.1. Physical factors of danger to the employees
Aspect Considerations
Rotating and
moving equipment
■ Machine design is to eliminate trap hazards and to ensure that extremities are
kept out of harm’s way under normal operating conditions (for example
emergency stops, machine guards, etc. must be installed).
■ Turn off, disconnect, isolate, and de-energize (Locked Out and Tagged Out)
machinery with exposed or guarded moving parts, to prevent injury.
■ Design and install equipment, where feasible, to enable routine service, such
as lubrication, without removal of the guarding devices or mechanisms.
53
Noise ■ No employee shall be exposed to a noise level greater than 85 dB(A) for a
duration of more than 8 hours per day without hearing protection. No
unprotected ear shall be exposed to a peak sound pressure level
(instantaneous) of more than 140 dB(C).
■ The use of hearing protection must be enforced actively when the equivalent
sound level over 8 hours reaches 85 dB(A), the peak sound levels reach 140
dB(C), or the average maximum sound level reaches 110dB(A). Hearing
protective devices provided should can reduce sound levels at the ear to at
least 85 dB(A).
Vibration ■ Exposure to hand-arm vibration from equipment such as hand and power
tools, or vibrations from surfaces shall be controlled through choice of
equipment, installation of vibration dampening pads or devices.
Electrical ■ Mark all energized electrical devices and lines with warning signs.
■ Use a system to prevent unauthorized equipment inclusion by installing
locking and warning signs during service
■ Check all electrical cords, cables, and hand power tools for frayed or
exposed cords and following manufacturer recommendations for maximum
permitted operating
■ Double isolation / grounding of all electrical devices used in wet rooms.
■ Installation of the "Keep away" sign around or under the high-voltage
transmission lines.
■ Vehicles that come into direct contact with, or arcing between, high voltage
wires may need to be taken out of service for periods of 48 hours.
■ Identify and mark of all buried electrical wiring prior to any excavation work.
Eye hazards ■ Ensure the appropriate use of machine guards or splash shields and/or face
and eye protection devices, such as safety glasses with side shields, goggles,
and/or a full-face shield.
■ Move areas where the discharge of solid fragments, liquid, or gaseous
emissions can reasonably be predicted away from places expected to be
occupied or transited by workers or visitors.
Welding/ hot work ■ Provide adequate eye protection such as welder goggles and/ or a full-face
eye shield for all personnel involved in, or assisting, welding operations.
■ Special hot work and fire prevention precautions and Standard Operating
Procedures (SOPs) must be developed and implemented if welding or hot
cutting is undertaken outside established welding work stations.
Industrial vehicle
driving and site
traffic
■ Train and license industrial vehicle operators in the safe operation of
specialized vehicles.
■ Ensure drivers undergo medical surveillance.
■ Ensure moving equipment with restricted rear visibility is outfitted with
audible back-up alarms.
■ Establish rights-of-way, site speed limits, vehicle inspection requirements,
operating rules and procedures.
■ Restrict the circulation of delivery and private vehicles to defined routes and
areas, giving preference to ‘one-way’ circulation, where appropriate.
54
Working
environment
temperature
■ Monitor weather forecasts for outdoor work and provide warning of
extreme weather and schedule work accordingly (adjust work hours,
provide temporary shelters (if required), provide protective clothing
and ensure adequate hydration).
Ergonomics,
repetitive motion,
manual handling
■ Ensure appropriate facility and workstation design, consider the
appropriate use of mechanical assistance to eliminate or reduce
exertions, select and design tools that reduce force requirements and
holding times, provide user adjustable work stations (including left
handed persons), incorporate rest and stretch breaks into work
processes and conduct job rotation.
Work at heights ■ Install of guardrails with mid-rails and toe boards at the edge of any
fall hazard area, ensure the proper use of ladders and scaffolds, ensure
the use of fall prevention devices, provide appropriate training ,
develop rescue and/or recovery plans, and equipment to respond to
workers after an arrested fall.
Illumination ■ Use energy efficient light sources with minimum heat emission,
undertake measures to eliminate glare/ reflections and flickering of
lights, take precautions to minimize and control optical radiation,
control laser hazards.
Hazardous
materials
■ Identify potential risk of a spill of uncontrolled hazardous materials
(wastes containing asbestos, chemical spray, ets) and prepare a spill
control, prevention, and countermeasure plan.
■ Make available all personal protective equipment needed to respond to
an emergency.
The sanitary condition of the premises must comply with the requirements established by the
regulatory enactments of the Ministry of Health.
Boilers must have safety automatics in accordance with regulatory requirements.
Boiler houses should be equipped with control and signaling devices for gas, fire alarm.
At the inlet gas pipeline, in the boiler rooms, a high-speed electromagnetic valve must be installed,
which is automatically closed when the gassing signal is triggered, the voltage drop on the input, the
fire. On the boiler room entrance, on the outside, there should be a record that prohibits the entrance to
the boiler house by unauthorized persons, as well as to indicate the category of boiler room for explosion
and fire safety.
The contracting organization is obligated, with the participation of the customer and
subcontractors, to develop and approve measures for safety and industrial sanitation, which are
mandatory for all organizations involved in the construction.
The construction and installation work is allowed only with the availability of design
estimates and the plan for the organization of construction, in which all measures to ensure safety,
and also industrial sanitation should be developed.
Construction sites, workstations and workplaces should be prepared for the safe execution of
works.
When performing work on a construction site, a contracting organization must provide
employees with sanitary facilities (walk-in closets, showers, washers, dryers for clothes and shoes,
heating rooms, for food and rest, for personal hygiene of women, toilets, etc.), drinking water and
medical care in accordance with the regulations in force. Sanitary facilities and equipment should
be put into operation before the start of works.
Before disassembly, reconstruction and overhaul, it is necessary to examine the general
condition of the building (buildings), as well as the foundation, walls, columns, vaults and other
55
structures, and for the superstructures the state of the bases. According to the results of the surveys,
an act is drawn up, on the basis of which a project for the construction of the building (POB) and a
project for the execution of works (PWR).
During the disassembly of buildings, the execution of works in the current production or
within the boundaries of urban development, access to the area of performance of work of third
parties who are not involved in the implementation of these works, is prohibited. Places where work
is carried out must be fenced in accordance with GOST 23407.
In the production of works it is necessary to provide a technological sequence of production
operations in such a way that the previous operation was not a source of work hazard in the
execution of the following.
The location of temporary and permanent transport routes, power supply networks, cranes of
mechanized installations, warehouses and other devices should strictly follow the instructions in the
project.
Road signs and passage signs must be installed on the construction site.
Hazardous areas should be fenced, or displayed at their borders with safety inscriptions and
signals visible at daytime and at night.
In case of occurrence of dangerous conditions on the construction site (landslides, settling of
foundations under construction forests, breakage of electrolysis), people should be immediately
removed, dangerous places are fenced.
Works and moving construction machinery near the power line should be carried out under
the direct supervision of an engineering technician, in the presence of the adjoining admission.
Carrying out earthworks in the area of existing underground communications should be
carried out under the direct guidance of the commander or master, but in the protection zone of
cables under pressure or operating gas pipeline, in addition, under the supervision of employees of
the electric or gas industry.
It is not allowed to carry out installation work at a height in open places at wind speeds of 15
m/s or more, with ice, thunderstorm or fog, which excludes visibility within the front of works.
The speed of motor vehicles on construction sites should not exceed 10 km/h, and on corners
and in working areas of cranes - 5 km/h.
All workers of engineering and technical personnel involved in construction should be trained
in the safety of the enterprise and in the workplace.
On construction sites it is necessary to provide the location of primary fire extinguishing
means, fire panels, fire alarm.
When operating equipment it is necessary strictly observe the rules of fire safety. The
servicing staff should monitor the proper condition of the fire extinguishers. It is forbidden to
extinguish electrical installations with water and foam fire extinguishers. The staff should be trained
in the rules for providing first-aid care.
56
Emergency accidents
RPIU will, thought-out the life of the project, continue to assess possible risks to the
communities as it relates to emergency incidents (such as the uncontrolled/fugitive emission and
fire). Specific and timely information on appropriate behavior and safety measures must be adopted
in the event of an accident.
Communities and other stakeholders will have access to information necessary to
understand the nature of the possible effect of an accident and an opportunity to contribute
effectively, as appropriate, to decisions concerning hazardous installations and the development of
community emergency preparedness and response plans.
Specific attention must be given to the transportation of any hazardous materials. A
procedure must be developed to ensure compliance with local laws and international requirements
relating to the transport of hazardous materials, including waste classification and hazard analysis,
labelling, emergency response approach, vehicle and container specifications, training of the
drivers, risks associated with the transportation route etc.
Where the consequences of emergency events are likely to extend beyond the project
boundary (e.g. hazardous material spill during transportation on public roads), emergency response
plans must be developed based on the risks to the health and safety of the affected community and
other potentially affected stakeholders.
Emergency plans must address the following aspects of emergency response and preparedness:
• Specific emergency response procedures.
• Communication strategy.
• Trained emergency response teams.
• Emergency contacts and communication systems/protocols.
57
7. PLAN OF MITIGATION MEASURES
№
Phase
Influence Measures to mitigate Cost: Institutional responsibility
Mounting Operation Mounting Operation
1
Stage of
preparatory
construction
work
-
Obtaining of permission
for work conduction in the
inspection of the State
Construction Committee.
Obtaining of permission
for construction work at
the City Construction
Inspectorate
- - OPU
"Mykolaivoblteploenergo"
OPU
"Mykolaivoblteploenergo"
Effect on
atmospheric air
1. Priority should
be given to new
equipment and new
technologies with a low
level of pollutant
emissions. New
equipment must meet the
emission standards
established in Ukraine.
This requirement will be
included in the tender
documentation
– – OPU
"Mykolaivoblteploenergo"
OPU
"Mykolaivoblteploenergo"
Waste
management
1. Identify and prepare
places for temporary
storage of waste.
Temporary storage sites
should have impermeable
bases.
2. Prepare sealed
containers for waste
collection.
– –
OPU
"Mykolaivoblteploenergo" Contractor
OPU
"Mykolaivoblteploenergo"
58
№
Phase
Influence Measures to mitigate Cost: Institutional responsibility
Mounting Operation Mounting Operation
3. Prepare storage areas
for asbestos containing
materials.
4. Prepare places for
temporary storage of
asbestos containing
waste, having an
impermeable basis,
fences and access roads.
5. Prepare sealed
containers marked with
asbestos waste collection.
6. To conclude contracts
with enterprises for waste
disposal.
Influence during
transportation
1. Enclose the
construction site from the
territory of general use.
2. Prepare a traffic
management plan for
construction.
3. Provide safe paths for
pedestrians.
– –
OPU
"Mykolaivoblteploenergo"
Contractor
OPU
"Mykolaivoblteploenergo"
Influence on the
social
environment
To agree with the
communities works
execution connected with
the closure of boiler
houses, laying of new
heat networks, IHS
installation in the houses
and, if necessary, the
replanting of trees,
relocation of
playgrounds, waste
collection sites, fences,
– –
OPU
"Mykolaivoblteploenergo"
Contractor
OPU
"Mykolaivoblteploenergo"
59
№
Phase
Influence Measures to mitigate Cost: Institutional responsibility
Mounting Operation Mounting Operation
gazebos for rest and
flowerbeds.
2 Construction:
2.1 Heating network
2.1.1
Noise
1. Ensure works
execution at labor hours
2. Provide timely
notification of residents
(in 10 days) about the
need for high-noise work
at night.
3. Provide workers with
personal protective
equipment for hearing
(headphones, silent
inserts)
4. If necessary, installing
noise-protecting screens
Insignificant Insignificant
Contractor
OPU
"Mykolaivoblteploenergo"
Contractor
OPU
"Mykolaivoblteploenergo"
2.1.2
Effect on
atmospheric air
1. Ensure minimization
of dust emissions during
construction (spraying
with water).
2 Ensure regular
cleaning of open surfaces
from dust on the
construction site and
adjoining areas, moisture
of access roads and
excavation zones,
cleaning the site after the
work.
3. Provision of proper
technical condition of all
transport, mechanisms,
equipment.
Insignificant Insignificant
Contractor
OPU
"Mykolaivoblteploenergo"
Contractor
OPU
"Mykolaivoblteploenergo"
60
№
Phase
Influence Measures to mitigate Cost: Institutional responsibility
Mounting Operation Mounting Operation
4. Ensure minimization
of emissions from
vehicles.
5. Carrying out
inspection of cars.
6. Take control of flue
gases
7. Prohibit incineration of
garbage at the site.
8. Humidification of
places of dusting with
water from stationary or
mobile sources of water
supply, providing
workers with respirators
9. Usage of qualitative
fuel . Ensure proper
ventilation. Do not
operate the equipment in
a closed, confined space.
Do not release exhaust
gases in the direction of
working personnel,
citizens, animals and
buildings
2.1.3
Effect on soil
Warehouse of soil on the
ground surface, near the
place of work, and in case
of impossibility - removal
of soil in places agreed
with the PU
1. Carry out regular
inspections and proper
maintenance of vehicles
for leakage of oil/fuel.
Small Small
Contractor
OPU
"Mykolaivoblteploenergo"
Contractor
OPU
"Mykolaivoblteploenergo"
61
№
Phase
Influence Measures to mitigate Cost: Institutional responsibility
Mounting Operation Mounting Operation
2. Prohibit the washing of
machines and machinery
on the construction site.
3. Ensure the
maintenance of vehicles
and machinery in a
specially designated area
4. Ensure the collection
of poured oils or fuels
and the removal of the
upper layer of soil, the
temporary storage of
contaminated soil in
sealed containers and
recycling to a special
enterprise.
5. Ensure recovery of
damaged road surface.
2.1.4
Influence on
flora
Execution of works on
the construction of
thermal networks requires
the demolition and
planting (restoration) of
green plantations (trees,
shrubs) that are located in
the protection zone of the
heating networks.
Insignificant Insignificant
Contractor
OPU
"Mykolaivoblteploenergo"
Contractor
OPU
"Mykolaivoblteploenergo"
2.1.5
Influence on
water resources
Pumping water from the
trenches to the sewage
system or car tanks with
subsequent release into
the sewage system
Small Small
Contractor
OPU
"Mykolaivoblteploenergo"
Contractor
OPU
"Mykolaivoblteploenergo"
2.1.6
Waste
management
1. Provide a separate
collection of waste (scrap,
including electrodes,
Small Small Contractor Contractor
62
№
Phase
Influence Measures to mitigate Cost: Institutional responsibility
Mounting Operation Mounting Operation
thermal insulation, solid
household waste,
construction, etc.)
2. Ensure the removal of
waste for disposal.
3. Limit the access for
persons who are not
related to the carrying out
of
construction/reconstrution
works to construction
areas and places of
temporary waste storage
4. Ensure the collection
of asbestos-containing
waste in special sealed
containers (sacks).
5. Provide works with
asbestos-based materials
isolated from adjacent
areas using fabric or
plastic coatings.
6. Ensure the regular
removal of waste
containing asbestos for
recycling and regular wet
cleaning of places where
works are being carried
out and adjacent areas.
OPU
"Mykolaivoblteploenergo"
OPU
"Mykolaivoblteploenergo"
2.1.7
Ultraviolet
radiation and
harmful
evaporation in
gas-electric
welding
Installation of screens and
shields in the field of
welding. Providing of
workers with welded
protective masks
Small Small
Contractor
OPU
"Mykolaivoblteploenergo"
Contractor
OPU
"Mykolaivoblteploenergo"
63
№
Phase
Influence Measures to mitigate Cost: Institutional responsibility
Mounting Operation Mounting Operation
2.1.8
Road traffic
1. Develop a traffic
management plan on the
construction site.
2. Establishing safe speed
limits for the period of
work.
3. Installation of warning
signs, use of bypasses
agreed with the
Department of Preventive
Activities of the Ministry
of Internal Affairs and the
Department of Housing
and Communal Services
of the City Council
Small Small
Contractor
OPU
"Mykolaivoblteploenergo"
Contractor
OPU
"Mykolaivoblteploenergo"
2.1.9
Influence on
human health
1. Ensure compliance
with safety rules.
2. Provide workers with
PPE (glasses, gloves,
respirators) and coveralls
when performing work
with asbestos-containing
waste materials and other
work in case of need.
3. Installation of
protective shields and
shields in the field of
welding. Providing
workers with weld masks.
4. Provide employees
with "sanitary facilities".
Small Small
Contractor
OPU
"Mykolaivoblteploenergo"
Contractor
OPU
"Mykolaivoblteploenergo"
2.2 Boiler houses,
IHS
2.2.1
Noise 1. Ensure works
execution at labor hours. Insignificant Insignificant Contractor Contractor
64
№
Phase
Influence Measures to mitigate Cost: Institutional responsibility
Mounting Operation Mounting Operation
2. Provide timely
notification of residents
(in 10 days) about the
need for high-noise work
at night.
3. Provide workers with
personal protective
equipment for hearing
(headphones, silent
inserts)
OPU
"Mykolaivoblteploenergo"
OPU
"Mykolaivoblteploenergo"
2.2.2
Effect on
atmospheric air
1. Ensure minimization
of dust emissions during
construction (spraying
with water).
2. Ensure regular
cleaning of open surfaces
from dust on the
construction site and
adjoining areas, moisture
of access roads and
excavation zones,
cleaning the site after the
work.
3. Provision of proper
technical condition of all
transport, mechanisms,
equipment.
4. Ensure minimization
of emissions from
vehicles.
5. Carrying out regular
inspection of cars.
6. Take control of flue
gases
7. Prohibit incineration of
garbage at the site.
Insignificant Insignificant
Contractor
OPU
"Mykolaivoblteploenergo"
Contractor
OPU
"Mykolaivoblteploenergo"
65
№
Phase
Influence Measures to mitigate Cost: Institutional responsibility
Mounting Operation Mounting Operation
8. Humidification of
places of dusting with
water from stationary or
mobile sources of water
supply, providing
workers with respirators
9. Usage of qualitative
fuel . Ensure proper
ventilation. Do not
operate the equipment in
a closed, confined space.
Do not release exhaust
gases in the direction of
working personnel,
citizens, animals and
buildings
2.2.3
Effect on the soil
Storing of soil on the
ground surface, near the
place of works execution
and in case of
impossibility - removal of
soil to places agreed with
the PU
1. Carry out regular
inspections and proper
maintenance of vehicles
for leakage of oil / fuel.
2. Prohibit the washing of
machines and machinery
on the construction site.
3. Ensure the
maintenance of vehicles
and machinery in a
specially designated area
4. Ensure the collection
of poured oils or fuels
Small Small
Contractor
OPU
"Mykolaivoblteploenergo"
Contractor
OPU
"Mykolaivoblteploenergo"
66
№
Phase
Influence Measures to mitigate Cost: Institutional responsibility
Mounting Operation Mounting Operation
and the removal of the
upper layer of soil, the
temporary storage of
contaminated soil in
sealed containers and
recycling at special
enterprise.
5. Ensure recovery of
damaged road surface.
2.2.4
Influence on
water resources
Pumping water from the
trenches to the sewage
system or car tanks with
subsequent release into
the sewage system
Small Small
Contractor
OPU
"Mykolaivoblteploenergo"
Contractor
OPU
"Mykolaivoblteploenergo"
2.2.5
Waste
management
1. Provide a separate
collection of waste (scrap,
including electrodes,
thermal insulation, solid
household waste,
construction, etc.)
2. Ensure the removal of
waste for disposal.
3 Limit the access for
persons who are not
related to the carrying out
of
construction/reconstrution
works to construction
areas and places of
temporary waste storage.
Small Small
Contractor
OPU
"Mykolaivoblteploenergo"
Contractor
OPU
"Mykolaivoblteploenergo"
2.2.6
Ultraviolet
radiation and
harmful
evaporation in
gas-electric
welding
Installation of screens and
shields in the welding
areas. Providing of
workers with welded
protective masks
Small Small
Contractor
OPU
"Mykolaivoblteploenergo"
Contractor
OPU
"Mykolaivoblteploenergo"
67
№
Phase
Influence Measures to mitigate Cost: Institutional responsibility
Mounting Operation Mounting Operation
2.2.7
Influence on
human health
1. Ensure compliance
with safety rules.
2. Provide workers with
PPE (glasses, gloves,
respirators) and coveralls
when performing work
with asbestos-containing
waste materials and other
work in case of need.
3. Installation of
protective shields and
shields in the field of
welding. Providing of
workers with welding
areas.
4. Provide employees
with "sanitary facilities".
Small Small
Contractor
OPU
"Mykolaivoblteploenergo"
Contractor
OPU
"Mykolaivoblteploenergo"
3 Operation:
3.1 Heating network
3.1.1 Leakage of
water
Proper control over the
state of heating networks Small Small
OPU
"Mykolaivoblteploenergo" Operating organization
3.2 IHS
3.2.1 Breakdowns /
other faults
Proper control over the
state of work Small Small
OPU
"Mykolaivoblteploenergo" Operating organization
3.3 Boiler houses
3.3.1 Effect on
atmospheric air
1. To develop, establish
the norms of maximum
permissible
concentrations of
emissions into
atmospheric air.
2. Get permission to emit
pollutants into the
Small Small OPU
"Mykolaivoblteploenergo" Operating organization
68
№
Phase
Influence Measures to mitigate Cost: Institutional responsibility
Mounting Operation Mounting Operation
atmosphere by stationary
sources.
3. Conduct control:
- observance of the
established norms of
emissions of pollutants
from sources of emissions
/ formation
- level of pollutants in
the zone of influence of
emission sources.
4. Periodically perform
regime-debugging work
3.3.2
Noise Effect 1. Provide workers with
personal protective
equipment against noise
effects.
2. Ensure the prevention
of noise propagation at
the highest possible level
- using special structures,
soundproofing mats and
fabrics near sources of
noise.
3. Conduct noise control
(as needed or upon
request)
Small Small OPU
"Mykolaivoblteploenergo" Operating organization
3.3.3
Waste
management
1. Ensure regular updates
of waste disposal plans.
2. Ensure that the waste is
sorted on the basis of
maximum expediency.
3. Ensure the regular
removal and disposal of
waste.
Small Small OPU
"Mykolaivoblteploenergo" Operating organization
69
№
Phase
Influence Measures to mitigate Cost: Institutional responsibility
Mounting Operation Mounting Operation
3.3.4
Emergency
warning
1. Ensure compliance
with relevant fire
prevention regulations
and regulations,
instructions.
2. Develop an emergency
plan in case of fire.
3. Ensure simulations of
emergency situations.
Small Small OPU
"Mykolaivoblteploenergo" Operating organization
3.3.5 Influence on
human health
Ensure compliance with
safety rules Small Small OPU
"Mykolaivoblteploenergo" Operating organization
4 Decommissioning
4.1 - Drawing up an act of
decommissioning - -
OPU
"Mykolaivoblteploenergo"
OPU
"Mykolaivoblteploenergo"
4.2 Waste
management
1. Dismantling of objects
and removal of waste _ _ OPU
"Mykolaivoblteploenergo"
OPU
"Mykolaivoblteploenergo"
4.3
Effect on soil 1. Reclamation works
(clearing of the territory
from the remnants of
buildings and equipment,
structures, construction
waste, pile foundation,
sanitary felling of shrub
vegetation, subsequent
subplantation of local
breeds and restoration of
the soil layer
_ _ OPU
"Mykolaivoblteploenergo"
OPU
"Mykolaivoblteploenergo"
70
8. MONITORING PLAN
№
Parameter of monitoring
Where will there
monitoring be
How will the
monitoring / type of
equipment used for
monitoring be carried
out
When monitoring is
carried out -
continuously or
periodically
Why this parameter is monitored Monitoring cost Responsible for
monitoring
1 Current stage 1.1 Access to the site
On the site
Check if the required
procedures are
foreseen by the
project
Before construction Security of the general public Insignificant Contractor,
engineer 1.2 Transport flow
management
1.3
Availability of space for
temporary storage of
waste
Near the site Visually Before construction
To prevent environmental
pollution and ensure proper
working conditions for personnel
Insignificant Contractor,
engineer
1.4
Quality control of building
materials (eg paints /
solvents)
Contractor's
warehouse
Visually / study the
composition for the
presence of toxic
materials
Prior to approval of the
materials proposed for
use
Public safety and occupational
safety and health
Insignificant
Contractor,
engineer
1.5 Places of temporary
storage of waste
Near the construction
site
Visually
Before construction
Prevention of negative effects on
soils
Insignificant
Public utility
1.6 Manage of traffic flows Construction site Visually Before construction Security of the staff
Insignificant
Public utility
2
Construction (heating
network, boiler house
and IHS)
2.1
Use of personal protective
equipment (PPE) of
respiratory organs
Construction site Visually Constantly Security of the staff Insignificant contract
organization
2.2 Dust
The site and the places
where citizens can be
affected by the
project
Visually
Daily
To prevent environmental
pollution and ensure proper
working conditions for personnel
Insignificant Contractor,
engineer
2.3 Soil accumulated after
excavation On the site of works
Daily / as needed
To prevent environmental
pollution and ensure proper
working conditions for personnel
Insignificant Contractor,
engineer
71
№
Parameter of monitoring
Where will there
monitoring be
How will the
monitoring / type of
equipment used for
monitoring be carried
out
When monitoring is
carried out -
continuously or
periodically
Why this parameter is monitored Monitoring cost Responsible for
monitoring
Visually
2.4 Use of PPE of hearing
organs Construction site
Visually Constantly Security of the staff
Contract
organization
2.5
1.Places for temporary
storage of waste
2.Documentation on
waste disposal and
recycling
Construction site
Visually
Constantly
once a month
Prevention of negative effects on
soils
Contract
organization
2.6
Restoration of the soil layer
and planting of the
adjoining territory
Construction site
Visually
Upon completion of
construction
Contract
organization
2.7 Dismantled heating ranges On the site of works
Visually
Daily / as needed
To prevent environmental
pollution and ensure proper
working conditions for personnel
Insignificant Contractor,
engineer
2.8.
Compliance with fire safety
requirements and
inspection of
documentation
Construction site In accordance with the
rules of fire safety Constantly Security of the staff
Contract
organization
2.9 Road traffic On / near the place of
work Visually
During activity. As
needed
To ensure road safety, prevent
environmental pollution and
ensure adequate working
conditions for personnel
Insignificant Contractor,
engineer
72
№
Parameter of monitoring
Where will there
monitoring be
How will the
monitoring / type of
equipment used for
monitoring be carried
out
When monitoring is
carried out -
continuously or
periodically
Why this parameter is monitored Monitoring cost Responsible for
monitoring
2.10 Safety of workers,
pedestrians, citizens
On the field of
excavation,
conducting welding
works
With the help of a
safety specialist Constantly To avoid emergencies Insignificant
Contractor,
engineer
2.11
Sand, gravel, crushed
stone, cement (dust) On the site of works Visually
Upon completion of
construction
To prevent environmental
pollution and ensure proper
working conditions for personnel
Insignificant
Contractor,
engineer
3 Operation
3.1 Leakage of water On the distribution
network Visually
During operation in
cases of citizens
submitting complaints
and communications
To prevent environmental
pollution and ensure people's
safety
Insignificant Engineer
3.2 Safety of workers
Installation of warning
signs, appropriate
staff training
With the help of a
safety specialist During work activity To avoid emergencies
Insignificant Safety Engineer
3.3 Emissions of pollutants Gas flow Installed techniques
Frequency will be
determined by the
permission for the
emission of pollutants
into the atmosphere,
but not less than once
a year
Compliance with the requirements
of environmental legislation
Insignificant
Сertified lab,
according to
contract
73
№
Parameter of monitoring
Where will there
monitoring be
How will the
monitoring / type of
equipment used for
monitoring be carried
out
When monitoring is
carried out -
continuously or
periodically
Why this parameter is monitored Monitoring cost Responsible for
monitoring
3.4
Control of NOx, CO in the
surface layer of the
atmosphere
Smoke tube of boiler
house Instruments, methods Once a year
Compliance with the requirements
of environmental legislation Public utility
3.5
1. Use of PPE of hearing
organs
2. Noise level
Workplaces in the
operator's boiler
house
1. Visually
2. Sounder Shv
Constantly
Once a year
Compliance with labor protection
requirements Safety Engineer
3.6
1. Places of temporary
storage of waste
2. Documentation on waste
disposal and recycling
The territory of the
boiler house
1. Visually
2. In accordance with
the requirements of
environmental
legislation
once a quarter
once a quarter
Compliance with the requirements
of environmental legislation Public utility
3.7
Compliance with fire
safety requirements and
inspection of
documentation
Boiler house In accordance with the
rules of fire safety Constantly Safety of working personnel Public utility
3.8
Observance of safety rules
and inspection of
documentation
Working places In accordance with
safety regulations Constantly Safety of people's health Public utility
4 Decommissioning
1. The presence of waste.
2. Documentation on waste
management
Object of
decommissioning
In accordance with the
requirements of
environmental
legislation
After decommissioning
Observance of environmental
requirements
Public utility
74
№
Parameter of monitoring
Where will there
monitoring be
How will the
monitoring / type of
equipment used for
monitoring be carried
out
When monitoring is
carried out -
continuously or
periodically
Why this parameter is monitored Monitoring cost Responsible for
monitoring
75
9. THE INSTITUTIONAL CAPACITY In order to implement the PROJECT at OPU "Mykolayivoblteploenergo" by order number
651 dated October 3, 2017 (latest changes), the Energy Efficiency Project Management Service,
which serves the functions of the RPMU, is established in accordance with the Operational
Manual. The RPMU is responsible for the day-to-day management and implementation of the
Project at the local level and coordinates its activities with the CPGU.
The RPMU includes such specialists:
- Head of the RPMU;
- specialist in financial management;
- marketing specialist;
- Procurement Specialist;
- specialist in organizational matters;
- specialist in environmental and social issues.
The staff members of the RPMU are listed in Annex 14.
The responsibilities of the specialist in environmental and social issue include the following:
- Identification and analysis of potential impacts from work within the relevant part of the
PROJECT;
- ensuring the availability of the necessary documentation (EIA, ESMP and others) for the
works being carried out; within the relevant part of the PROJECT;
- ensuring that all necessary mitigation measures are taken into account at OPU
"Mykolayivoblteploenergo";
- agreement with contractors on a complete list of mandatory environmental and social
requirements to be met before work is commenced;
- verification of compliance by contractors within the framework of the relevant part of the
project on OPU "Mykolaivoblteploenergo" of environmental and social requirements and
the identification of gaps that are not covered by environmental and social measures
mitigating measures;
- verification (if necessary - making changes) of environmental and social provisions to be
laid down in contract with contractors;
- ensuring the implementation of the oversight plan for each of the contracts within the
framework of the relevant part of the project on OPU "Mykolaivoblteploenergo",
including the establishment of baseline indicators and the effectiveness of mitigation
measures;
- maintaining sub-project GRM log;
- preparation of environmental and social reports according to the forms established by the
World Bank and CPMU.
The state control bodies in the field of ecology and sanitary and hygienic safety will control
the ecological state at all stages of the implementation of the PROJECT. The list of government
bodies for environmental control is given in Table 9.1.
State bodies of control in the field of ecology and sanitary-hygienic safety
Table 9.1.
Name of the state control body Scope of activity Frequency of
supervision
Department of Ecology and Natural
Resources of the Mykolayiv Regional
State Administration
Allowing for emissions into the air -
76
State Ecological Inspectorate in
Mykolaiv Oblast, Main Directorate of
the State Committee for Consumer
Goods and Consumer Protection in
Mykolaiv region
Conducting inspections to comply
with the environmental legislation of
Ukraine.
Every year
State Ecological Inspection Conducting inspections to comply
with the environmental legislation of
Ukraine.
The Directorate of the State Committee for Consumer Goods and Consumer Protection in
the Mykolaiv region is responsible for the following activities:
- development (review), examination, approval and promulgation of sanitary norms;
- implementation of hygienic regulation and state registration of factors harmful to human
life and health;
- implementation of sanitary and epidemiological expertise;
- approval of projects, land allocation documents for the location and construction of water
supply and wastewater treatment facilities, placement of industrial and production
facilities;
- coordination of design and technical documentation for the construction, reconstruction,
commissioning of new and restoration of existing industrial facilities, sanitary protection
zones;
- Inspection of construction sites and issuance of conclusions regarding their compliance
with sanitary norms during commissioning;
- issuance of permits for special use.
State Ecological Inspection in Mykolaiv Oblast in accordance with the tasks assigned to
it:
- generalize the practice of applying legislation on matters that fall within their competence,
prepare and submit in the prescribed manner proposals to the State Inspection of Ukraine
on its improvement;
- carry out state supervision (control) by observance of the requirements of environmental
legislation by territorial bodies of central executive authorities, local executive
authorities, enterprises, institutions and organizations irrespective of the form of
ownership and management, citizens of Ukraine, foreigners and stateless persons, as well
as non-resident legal entities Of Ukraine.
- draw up the protocols on administrative violations and consider cases on administrative
offenses, impose administrative penalties in cases stipulated by law.
- submit proposals to the Head of the State Inspection of Ukraine regarding: issuance,
termination or cancellation of permits, limits and quotas for the special use of natural
resources, emissions and discharges of pollutants into the environment, waste placement,
handling of hazardous chemicals, transboundary movement of plant and animal world in
accordance with the procedure established by law, including water living resources, as
well as setting standards for permissible levels of harmful influence on the state of the
environment.
- appoint public environmental inspectors and issue a certificate to them, organize their
work, provide them with methodical and practical assistance, take measures to eliminate
the identified shortcomings and violations in their activities.
The monitoring of the compliance with the recommendations and requirements of the ESMP
by the OPU "Mykolaivoblteploenergo" at the stage of construction and operation is relied upon by
the environmental scientist from the RPMU.
77
During the construction phase, a contracting entity must appoint a responsible person for
compliance with the requirements of the PES and the conduct of safety instructions for workers
involved in the construction.
Responsibility for training of the personnel of the communal utility and conducting advanced
training courses is for the service of occupational safety and personnel training.
Laboratory control of noise levels in the workplaces relies on the laboratory of occupational
health of SE "Mykolayiv Expert-Technical Center".
Laboratory control of the measurement of pollutants in the atmosphere by stationary sources
rests with the laboratory of environmental protection LLC "EKO PROEKT SERVIS". Certificate
of Attestation № РН - 0135/2015 from 4.11.2015, valid till 04.11.2019.
The control of the surface layer of the atmosphere will be carried out by "EKO PROJECT
SERVICE" Ltd.
10. PUBLIC PARTICIPATION, INFORMATION AND
CONSULTATION
Before the start of the works, public hearings will be held, about the time and place of which
will be announced in advance in the local mass media. During public hearings, all the issues should
be resolved, and based on well-grounded recommendations that concern the local community in
the implementation of the project.
There will be public disclosure of this ESMP and public consultation with the community
and other relevant stakeholders before during and after the project activities.
In accordance with the requirements of the World Bank, as well as the requirements of
Ukrainian legislation, when conducting an environmental assessment of investment projects, it is
necessary to consult with the groups of persons affected by this Project and other stakeholders on
the environmental and social impacts of the project and to take their opinion into account.
Public consultations, in particular on an individual basis, will minimize the likelihood of
complaints by processing issues and solving problems associated with project implementation in
the regular course of work.
The main purpose of conducting public consultations is:
• presentation of the planned project,
• the results of work on the assessment of the impact on the environment and the social
sphere,
• discussing the positive and negative impacts associated with the implementation of the
planned project.
The main tasks of consulting with the public are:
• ensuring openness of environmental documentation (EIA, ESMP reports) to the public.
The EIA sections are being developed in the design documentation, and for the boilers of
over 50 MW capacity, the EIA procedure is being implemented;
• discussing various issues and problems with the groups affected by this project, raising
public awareness of the potential negative impacts and problems that may arise during the
implementation of investment projects;
• ensuring feedback from the competent authorities and local groups affected by this
project in the process of assessing environmental and social impacts and identifying potential
positive and negative impacts and proposed measures to minimize such impacts.
78
To invite (representatives) of local stakeholders in local / regional newspapers, using
television and radio, as well as telephone and facsimile communications, the place and date of
public consultations should be made public.
The main participants in public consultations are:
• Recipients of a loan (municipal energy companies);
• Local residents;
• Main research organizations and organizations assessing the impact on the environment
and the social sphere;
• Local State Administration;
• State authorities (environmental authorities and sanitary and epidemiological service);
Non-governmental organizations (NGOs)
• The responsible persons (representing the Consultant and the recipients of the grants) are
appointed separately for each placement.
In the framework of preparation for the implementation of the project on OPU
"Mykolayivoblteploenergo" public hearings were held on December 26, 2013 in relation to the
Program Level of Environmental and Social Assessment of the PROJECT, which consisted of
reports of specialists of the enterprise, comments and answers to questions of the public. As a
result, the Program for Environmental and Social Assessment of the Project, as well as the
Environmental Management Frameworks at the Construction and Operation Stages and the
Monitoring Plan was approved. In case significant changes of project components or adding new
the ESMP will be reviewed, republished and public hearing will be conducted accoding to World
Bank policy.
Copies of the minutes of the public hearings, the list of participants and the announcement
in the local newspaper are given in Annex 9-11.
During the public hearings of OPU "Mykolaivoblteploenergo" the following information
was provided:
- postal address: 54034, Mykolaiv city, 5-a, Mykolaivska street;
- phone numbers: (0512)22-11-49, (0512) 22-53-44; - e-mail address for comments and suggestions: [email protected];
- official site of OPU "Mykolayivoblteploenergo": nikoblteplo.com.ua;
- announcements in the newspaper Vecherny Nikolayev № 142 (3459) dated
14.12.2013. about holding of public hearings;
- announcements in the newspaper "Ridne Pryubzhizhya" No. 51 (3286) dated
19.12.2013. about holding public hearings;
- an article in the newspaper "Ridne Prybuzhzhya" dated January 9, 2014 on the
results of public hearings.
This document is available in the Utility's website fully at the following link: http://www.nikoblteplo.com.ua/content/ogoloshennya-shchodo-planovoyi-diyalnosti-proekt-z-energoefektivnosti
11. THE GRIEVANCE REDRESS MECHANISM
The overall objective of the GRM Guideline is to establish an effective communication channel
among the concerned parties for providing a timely and efficient two -way feedback mechanism
to address any complaints made about the project, including those from members of the
communities, local businesses and other concerned parties, as well as raising public awareness
79
on the projects and on the availability of a GRM. The Grievance redress procedure suggests
resolution of grievances in the spirit of mediation between the parties, and should comply with
the spirit of IFI standards and practice.
The GRM is available for those living or working in the areas impacted by the project activities.
Any person impacted by or concerned about the project activities have the right to participate
in the GRM, have easy access to it, and is encouraged to use it. The proposed GRM does not
replace the public grievance redress and conflict resolution mechanisms envisaged by the legal
system of Ukraine but attempts to minimize use of it to the extent possible.
The project will pursue a participatory approach in all stages of planning and implementation.
This is expected to ensure that the affected people have nothing or little to complain about.
However, some people may remain dissatisfied for some reason or the other. Many grievances
arise due to inadequate understanding of project policies and procedures and can be promptly
resolved by properly explaining the situation to the compliant.
OPU "Mykolayivoblteploenergo" implements the Grievance Redress Mechanism. Special
attention is paid to training of OPU "Mykolayivoblteploenergo" staff involved in the grievance
mechanism management regarding functioning of grievance redress mechanism, particularly the
compulsory reactions to stakeholder’s opinion and communication mechanism.
Complainants or concerned parties may visit OPU "Mykolayivoblteploenergo", call or send a
letter or e-mail or fax to grievance redress coordinator, or oblast administration to register their
grievances related to heating project.
Each party participating in the GM at regional level shall maintain a record-book to register the
complaints, and regularly share the grievance details with PIU coordinator, to keep the track of
grievances and the status of their resolution.
Whichever method is used for receiving the grievance (e.g. e-mail, mail, fax, call, etc.), its
registration is made by the GRM coordinator at the regional level, who acknowledges receipt
and follow up with the grievance investigation and consideration by the GRM at regional level.
All the grievances is recorded in a standard format.
The GRM coordinator at regional level collects the data on grievances and centralize the
grievance registry to assure that every affected person, group or community has an individual
registry number and that follow-up and corrective actions are implemented as per resolution pro-
vided, or if the issue was not resolved at regional level, it is passed for consideration at the
central level. The grievance database is maintained and updated twice a month by the GRM
coordinator at regional level for each project. The database is designed to make it simple and
easy to input data, provide information on grievance and status of its resolution, timing for
resolution and level at which the issue was considered and resolved, track individual grievances,
etc.
In case the complainant refuses to provide contact details, or no contact information is available
in the grievance received by e-mail / mail / fax, the person in charge for grievances at the regional
level will consider the anonymous complaint according to WB prpocedures. In such cases, the
printed response will be posted at the information board of OPU "Mykolayivoblteploenergo",
as well as at the information board of the relevant city authority, so that the complaining party
could get familiarized with the feedback.
Grievance process outline, and Grievance Form are accordingly given below. The following
indicative timeframe will be used:
80
Written acknowledgement of receipt of the grievance: within 5 days of receiving the grievance,
proposed resolution: within 4 weeks of receiving the grievance – in case of more difficult
issues the required time may be longer.
Depending on the nature of grievance, this step may include verification, investigation,
negotiation, mediation or arbitration, coordination with appropriate agencies and decision-
making. Verification includes collection of documents, proofs and facts, as well as clarifying
background in- formation in order to have a clear picture of the circumstances surrounding the
grievance case. Verification will be undertaken by members of the GM at the regional level, and
overall coordination of activities will be ensured by the GRM coordinator on regional level.
Results of verification or fact-finding activities will be presented at the meeting of the GRM at
regional level, where the issue will be considered, and resolution will be sought out.
If a grievance cannot be resolved by the GM at the regional level it is forwarded for consideration
by the GRM at the central level, appropriate documents collected during investigation and fact-
finding shall be shared with the GRM coordinator at the central level.
Consideration of grievance case by GRM at central level may require further verification of the
issue, including collection of additional documents, obtaining input from various state
concerned parties and project parties to have a clear picture of the circumstances surrounding
the grievance case. Results of verification will be presented at the meeting at the central level,
where the issue will be considered, and resolution will be sought out.
If amicable solution is not found either of the parties could file case to the court.
The Grievance Procedure should include the following actions:
Information about the Project implementation is published on separate OPU "Mykolayivoblteploenergo"website, including link to obtain the grievance form,
General information about the Project, presenting general project issues, project
implementation stages, and including information about the grievance possibilities is
published and distributed in form of the brochure by OPU "Mykolayivoblteploenergo",
OPU "Mykolayivoblteploenergo" establishes phone communication lines, and present
phone line numbers on above mentioned websites and in brochure, The information on the avenues to lodge a grievance is placed on the information boards of
local authorities, OPU "Mykolayivoblteploenergo" nominates the person (Project Coordinator), who deals
with grievances.
A workers’ grievance redress mechanism is established for the employees of construction
companies as a part of general system or separately. Contractors of construction works is
informed by OPU "Mykolayivoblteploenergo" about necessity of implementation grievance
mechanism for their employees in line with the requirements of the WB.
Contractors of construction works will be given the possibility to lodge grievances both through
workers representatives and trade unions and independently, personally, regardless of the matter
of the complaint.
To assess the effectiveness of the system it is planned that internal audits of grievance
mechanism will be undertaken periodically in the organization.
OPU "Mykolayivoblteploenergo"will audit its subcontractors.
Moreover, periodic external audits of the grievance management system will be undertaken by
independent organizations (auditors) allowing elimination of risks associated with improper
81
functioning of the system.
Telephone: (0512) 22-11-49 Responsible person for review of complaints:
Tetyana Sokil - Head of the Registry Department.
In addition, periodic external audits of the complaint management system will be carried out by
independent organizations (auditors), which will eliminate the risks associated with improper
functioning of the system.
OPU "Mykolayivoblteploenergo":
Ukraine, 54034, Mykolaiv city, 5-a, Mykolaivska street.
Email: [email protected]
Website: www.nikoblteplo.com.ua.
Phones: (0512) 22-11-49 (for general information and leaving their comments,
appeals or messages)
(0512) 46-51-29 thermal inspection (on quality of service or emergencies);
Or (0512) 22-11-66 (For operational information on the issues of heating and hot
water supply)
In addition, the City Information Dispatch Service operates in the city, which provides
reception of applications for repairs, oral addresses of citizens and providing
background information where you can call by the number 1588.
82
12. CONCLUSIONS
The purpose of Ukraine District Heating Energy Efficiency Project in Mykolayiv is to
increase the efficiency of heat energy consumption in our city. Modernization of old boiler houses
by installing new boilers, providing boilers with modern control systems, reconstruction of heat
networks, replacement of insulation on the above-ground sections of heat networks and equipment
for heat distribution by individual heat points - will contribute to fuel economy. As a result,
emissions of CO2 and pollutants in the atmosphere will be reduced. It is also expected to improve
the quality and reliability of services, thus, this PROJECT will contribute to raising the level of
social well-being in our city.
The final evaluation of the proposed measures showed a high degree of admissibility of the
investment project implementation, in the course of which a significant social, environmental and
economic effect will be achieved. As a result of the implementation of the investment project
energy consumption will be reduced, which will reduce emissions to the air, increase reliability
and quality of production and transportation of heat energy, the number of accidents on the heating
networks will be reduced by replacing the most emergency sections of the networks and improving
the hydraulic parameters. At the same time, the potential physical effects on such components of
the environment as atmospheric air, water and land resources, flora and fauna, social and
technogenic environment are insignificant.
83
Annex 1
Overview of district heating boiler systems
OPU «Mykolaivoblteploenergo»
co
de
The boiler-house
address
Thermal power,
gcal / h
Thermal energy,
gcal/year
Specific costs for heat
production
Installed Connected Manufact
ured
Impleme
nted
Fuel,
kg units /
Gcal
Electricity
kWh / Gcal
Mykolaiv
1 1 а, Slobidska Str, apt
13
0,332 0,07137 155,632 95,222 164,18 47,68
2 54, Velika Morska Str,
apt 56
0,780 0,05378 142,209 104,307 161,28 48,33
3 27, Admiralskа Str,
apt 1
1,351 1,02306 785,232 697,871 147,73 28,46
4 4 к, Admiralska Str 0,826 0,96736 1522,321 1510,707 122,31 41,04
5 34, Nikolska Str 0,43006 0,42474 469,765 414,085 133,91 37,80
6 45 a, Velika Morska, 0,910 0,28779 478,109 396,589 163,51 16,76
7 96, Centralna av, apt 7 1,306 0,74781 940,702 703,893 166,93 25,03
8 25, Naberejna Str 1,680 0,9705 980,259 897,765 160,59 29,51
9 22 v, Potomkinska Str 0,651 0,27708 266,715 233,575 166,41 36,71
10 5, Naberejna Str, apt
11
0,230 0,17789 262,914 167,06 146,58 32,79
11 31, Admiralska Str 0,620 0,7217 580,865 500,938 157,07 29,33
12 9a, Nikolska Str 0,304 0,23165 299,258 260,077 155,48 31,72
13 2, Sadova Str 0,504 0,17902 277,672 219,538 165,55 22,07
14 46, Spaska Str 1,395 0,42413 569,895 443,645 168,93 29,59
15 55, Spaska Str 0,304 0,25508 434,523 429,007 135,69 23,24
16 66 к, Spaska Str 0,196 0,10526 137,945 71,229 212,48 28,24
17 81, Potomkinska Str,
apt 83
0,538 0,50302 744,36 614,935 133,89 36,09
18 78, Mala Morska Str 0,236 0,11232 233,066 206,664 153,71 6,82
19 14, Korabeliv Str 0,968 0,16926 194,688 189,798 157,16 13,39
20 21, Velika Morska Str 1,420 0,95196 1376,85 1250,056 163,99 28,98
21 22 а, Centralna
avenue
2,330 2,00092 2025,125 1860,205 159,15 35,47
22 1 к, Sportivna Str 37,900 24,0199 27265,66
9
22538,18
7
167,26 36,28
23 6, Nikolska Str 0,315 0,37261 385,044 318,336 153,96 14,12
24 6, Тransportii alley 2,61 2,50856 3138,427 2381,675 166,11 17,92
25 3, Velika Morska Str 1,182 1,15922 1662,61 1238,268 167,22 35,08
26 6, Velika Morska Str 1,628 1,30222 1408,017 1359,337 163,63 27,02
27 13, Velika Morska Str 1,318 1,08875 1587,601 1333,737 160,18 31,31
28 9, Buzkii Boulevard
Str
0,930 0,94799 949,44 933,169 250,76 36,13
29 24 к, Centralna av 0,930 0,59147 647,675 413,613 177,47 37,64
30 6, Mostobudivnikiv
Str
0,396 0,27702 329,675 311,681 170,96 27,31
31 8, Nikolska Str 0,930 0,63285 1368,19 1236,788 103,31 34,85
32 16, Terasna Str 1,420 0,93267 1235,058 956,364 163,49 31,44
84
cod
e
The boiler-house
address
Thermal power,
gcal / h
Thermal energy,
gcal/year
Specific costs for heat
production
Installed Connected Manufact
ured
Impleme
nted
Fuel,
kg units /
Gcal
Electricity
kWh / Gcal
33 1, Chornomorska Str 0,258 0,24094 383,54 285,158 155,79 13,54
34 2, Matrosova Str 0,172 0,16282 250,316 186,703 119,45 21,94
35 14, Gastelo Str 0,279 0,25004 312,759 233,419 151,30 35,87
36 7, Moldavska Str 0,498 0,24596 367,689 272,767 154,29 19,87
37 2 Ekipajna Str, apt 4 і 5,000 3,13484 5661,282 4712,571 151,13 23,47
38 2 Ekipajna Str, apt 4 к 1,226 - - - 0,00 -
39 91 v, Bezimenna Str 3,28 1,81141 2829,035 1685,914 169,96 37,47
40 117 к, Kotelna Str 0,1247 0,18552 147,611 115,618 138,38 11,35
41 2, Ekipajna Str, apt 5
а
1,060 0,39617 773,664 617,58 167,02 34,88
42 3 Voenna Str, apt 8 0,147 0,9403 157,357 114,51 146,41 26,07
43 5, Voenna Str, apt 42 0,0731 0,05552 78,614 68,778 140,30 32,49
44 2, Admiralteiska
square
0,538 0,22637 259,29 217,113 158,45 28,81
45 96, Pogranichna Str 0,680 0,63485 463,839 370,479 155,92 35,37
46 46, Sadova Str 0,930 0,81996 1034,996 642,288 162,96 25,08
47 242, Pogranichna Str 1,983 1,54626 1808,35 1430,632 165,23 22,14
48 150, Pogranichna Str 0,458 0,24354 558,904 549,261 167,87 15,87
49 209, Chkalova Str 1,118 0,68053 941,066 831,086 162,33 23,10
50 130, Kuznecka Str 0,380 0,18855 270,705 240,811 163,56 21,72
51 8, Kotelna Str 1,333 0,74777 833,481 630,647 147,29 19,20
52 6 а, Slobidska Str, apt
48
0,618 0,4633 718,657 711,072 129,26 21,22
53 6 а Slobidska Str, apt
48 а
0,525 0,44524 546,633 540,346 135,49 22,88
54 93, Kosmonavtiv Str 1,250 - - - 0,00 -
55 8, Budivelnikiv Str 0,593 - - - 0,00 -
56 11 а, Pozdovjna Str,
apt 1
0,240 0,18178 277,874 224,642 167,01 23,33
57 8а, Pozdovjna Str, apt
11 b
3,550 1,57816 1976,835 1587,427 160,06 33,00
58 2, Kazarska Str 5,000 3,38849 3961,987 3434,12 159,94 39,96
59 48, Novozavodska Str 42,39 40,79926 41253,89
6
32558,06
8
165,24 34,80
60 1 k Listopadova Str 3,360 3,32649 3588,111 2932,198 168,03 38,23
61 70 v, О. Yanata Str 0,458 0,19261 259,537 185,679 145,10 29,38
62 43, Kosmonavtiv Str 1,074 0,18137 459,396 364,174 167,35 27,56
63 10 к, Teatralna Str 1,576 - 6,162 3,795 0,00
64 7 а, Kitoboiv Str 32,500 28,75975 27804,53
6
24074,77
6
164,47 35,78
65 2а, D. Yavornitska Str 0,620 0,5672 667,034 593,418 160,61 36,28
66 34 b, Mikolaivska Str 32,500 29,77161 27685,82
6
23286,10
6
164,69 37,20
67 69 k, Peredova Str 3,475 3,39445 3679,863 3244,317 168,97 38,36
68 2 к, Poliarni avenue 4,558 3,51603 4013,443 3599,76 168,86 26,19
85
cod
e
The boiler-house
address
Thermal power,
gcal / h
Thermal energy,
gcal/year
Specific costs for heat
production
Installed Connected Manufact
ured
Impleme
nted
Fuel,
kg units /
Gcal
Electricity
kWh / Gcal
69 1, Zavodska square 100,000 38,30698 41894,36
5
31468,39
7
162,42 32,78
70 5, Dunaiska Flotilia
Str
1,106 0,62429 967,355 663,605 159,52 37,63
71 72, Metalurgiv Str 0,525 0,46105 455,367 340,111 156,06 31,71
72 325, Bogoiavlenskii
avenue, apt 4
1,116 0,7901 811,311 664,703 149,30 20,40
73 2, Znamenska Str 7,500 8,42606 10133,20
3
7981,033 154,71 29,85
74 75, 295 Strilecka
Divisia Str, apt 1
0,344 0,28093 298,001 272,305 158,66 16,04
75 75 а, 295 Strilecka
Divisia Str, apt 1
0,279 0,16767 236,43 207,577 156,31 39,81
76 38 к, Vilna Str 1,539 0,59643 668,658 593,11 161,80 27,45
77 91 к, Ribna Str 1,860 1,23949 1616,633 1252,041 145,99 32,77
78 124, G. Sagaidachna
Str
0,325 0,12896 220,972 218,709 392,82 23,76
79 42а, Samoilovich Str 90,000 43,04734 46651,02
7
31077,55
2
154,59 35,09
80 97, Metalurgiv Str, apt
1
0,510 0,69665 687,568 628,331 152,62 15,12
81 21 a, Geroiv Ukraini
avenue Str
19,500 10,36826 12719,47
6
11098,95
8
168,79 34,58
82 12, Geroiv Ukraini
avenue
1,400 1,09647 1366,656 1231,955 162,17 29,16
83 72, Geroiv Ukraini
avenue
16,980 9,62124 12611,40
1
8967,315 165,40 33,29
84 1, Malko-Ternivska 1
(МТБ)
6,075 5,59437 6219,878 5181,567 158,55 35,87
85 10 g, Arhitektora
Starova Str
0,420 0,79435 621,233 546,853 155,87 32,81
86 91, Geroiv Ukraini
avenue
2,236 1,96823 2729,1 2204,912 155,80 36,80
87 1, Lisova Str 1,720 0,71766 838,595 763,397 149,76 37,94
88 1, Verhnia Str 0,640 0,05096 98,97 36,076 154,32 22,86
89 22, Kurchatova Str 0,172 0,16778 382,895 333,387 146,99 17,14
90 267, Silikatna Str 0,172 0,14882 183,655 159,437 149,09 16,42
91 13 e, Geroiv Ukraini
avenue
0,930 0,59411 1531,503 1412,626 55,56 36,83
92 4 e, Arhitektora
Starova Str
0,721 0,56388 548,221 473,686 147,85 10,15
93 4 j, Arhitektora
Starova Str
0,990 0,52481 492,957 379,19 140,73 34,22
94 101, Geroiv Ukraini
avenue
1,674
0,9646
1378,066 1324,106
152,67
24,02
95 3, Kiivska Str 1,250 - - - 0,00 -
86
cod
e
The boiler-house
address
Thermal power,
gcal / h
Thermal energy,
gcal/year
Specific costs for heat
production
Installed Connected Manufact
ured
Impleme
nted
Fuel,
kg units /
Gcal
Electricity
kWh / Gcal
96 1, Karpenko Str 0,215 0,09054 187,365 157,533 140,09 31,54
97 5, Abrikosova Str 1,182 0,68517 994,177 862,153 166,07 14,59
98 7, Dachna Str 4,810 2,56188 3138,149 2924,944 164,90 17,69
99 29, Sportivna Str 0,258 0,08376 234,671 214,065 121,04 37,73
10
0
20, Karpenko Str 5,005 5,00351 5765,283 5459,41 148,05 23,83
10
1
8, Karpenko Str 0,930 0,98544 1585,083 1177,191 161,78 33,61
10
2
71, Bila Str (Namiv
Str)
30,000 50,99118 43336,77
4
36375,86
9
171,24 33,10
10
3
7а, Kurortna Str ( 25
мкр.)
29,900 22,3674 19449,82
9
16518,19
3
160,29 29,00
10
4
51а, Karpenka Str 17,000 10,28056 11383,58 9418,48 153,90 30,63
10
5
8, Levanevciv Str 0,534 0,20637 268,906 240,429 149,39 37,47
10
6
10, Levanevciv Str 0,757 0,48335 588,198 573,979 137,42 28,17
10
7
45а, Ozerna Str 10,000 4,4121 4632,426 3724,097 148,65 37,20
87
Annex 2
Summary information about boiler equipment
Address of boilers Brand of boilers Number of
boilers
Term of boiler
operation
Efficienc
y of
boilers
Gross
1 2 3 4 5
9 а, Nikolska Str NIISTU-5 mkf 2 2007 90,1
NIISTU-5 mkf 2007 89,3
1-а, Slobitska srt,
apt13
Universal 5 2 1965 83,3
Universal 5 1965 84,8
2, Sadova Str NIISTU--5 2 1994 83,1
NIISTU-5 1994 84,1
96, Centralna av, apt
7
NIISTU— 5 mk 2 2004 89,2
(Lenina Str) NIISTU--5mk 2004 89,7
55, Spaska Str Universal 5 2 1969 83,4
Universal 5 1969 83,5
46, Spaska Str NIISTU-5 1964 83,6
NIISTU-5 3 1964 84,1
NIISTU-5 1977 84,3
27, Admiralska Str,
apt 1
NIISTU-5 1979 83,3
NIISTU-5 3 1978 83,8
Universal 5 1972 84,2
45 а, Velika Morska
Str
NIISTU-5mkf 2 1992 90,7
NIISTU-5 1981 90,0
4-к, Admiralska Str Buderus Logomax plus
GB162-100
2014 97,7
Buderus Logomax plus
GB162-100
2014 97,7
Buderus Logomax plus
GB162-100
2014 97,7
Buderus Logomax plus
GB162-100
2014 97,7
Buderus Logomax plus
GB162-100
10 2014 97,7
Buderus Logomax plus
GB162-100
2014 97,7
Buderus Logomax plus
GB162-100
2014 97,7
Buderus Logomax plus
GB162-100
2014 97,7
Buderus Logomax plus
GB162-100
2014 97,7
Buderus Logomax plus
GB162-100
2014 97,7
66 к, Spaska Str NIISTU-5mk 2 2007 90,2
88
Address of boilers Brand of boilers Number of
boilers
Term of boiler
operation
Efficienc
y of
boilers
Gross
NIISTU-5mk 2007 89,8
22 b, Potemkinska
Str
Universal 5 2 1987 83,9
NIISTU-5mk 1987 91,1
54, Velika Morska,
apt 56
NIISTU-5mk-2 f
2
2004 90,4
NIISTU-5mk-2 f 2004 90,3
34, Nikolska Str MN120 «Bernard» 4 2014 92,1
MN120 «Bernard» 2014 92,1
MN120 «Bernard» 2014 92,1
MN120 «Bernard» 2014 92,1
25, Naberejna Str NIISTU-5mk 2003 90,0
NIISTU-5mk-2g 2 2003 87,1
5, Naberejna Str, apt
11
NIISTU-5 2 2001 90,3
NIISTU-5 2001 90,4
81 Potemkinska, apt
83
NIISTU-5mkf 2 2006 91,3
NIISTU-5mkf 2006 91,5
31, Admiralska Str NIISTU-5mk 2005 90,0
NIISTU-5mk 2 2005 90,5
6, Mostobudivnikiv
Str
Universal 6 2 1975 83,3
Universal 6 1975 84,2
16, Terasna Str NIISTU-5mk 2 2002 90,8
NIISTU-5mk 1975 90,9
21, Velika Morska
Str
NIISTU-5mk 2 1975 90,4
NIISTU-5mk 1975 90,6
24 k Centralna
av (Lenina Str)
NIISTU-5 2 1991 84,2
NIISTU-5 1991 82,1
1 к, Sportivna Str ТVG-8М 1980 85,4
ТVG-8М 1980 88,7
ТVG-8М 5 1980 91,4
KVG-7,56 1988 90,9
КVG-7,56 1988 90,3
78, Mala Morska Str Universal 6 2 1976 84,1
Universal 6 1976 83,4
14, Korabeliv Str NIISTU-5mk 2 2006 89,5
NIISTU-5 1996 81,5
22a, Centralna
av (Lenina Str)
NIISTU-5м 1992 90,7
NIISTU-5mk-1у 3 2005 89,8
NIISTU-5mk-1у 2005 90,2
6, Nikolska Str Modul 105 G 2003 90,9
Мodul 105 G 3 2003 90,9
Моdul 105 G 2003 90,7
89
Address of boilers Brand of boilers Number of
boilers
Term of boiler
operation
Efficienc
y of
boilers
Gross
6, Transportnii av NIISTU-5mkf 2005 89,7
NIISTU-5mkf 2005 89,7
NIISTU-5 4 1993 85,8
NIISTU-5 1993 86,5
3, Velika Morska Str NIISTU-5 1995 78,0
NIISTU-5 3 1995 83,3
NIISTU-5 1993 79,3
6, Velika Morska Str NIISTU-5mk 1993 82,8
NIISTU-5 3 1992 85,9
NIISTU-5 1992 90,0
13, Velika Morska
Str
NIISTU-5mk 2 2005 90,5
NIISTU-5mk 2006 90,4
9, Buzkii blvd NIISTU-5 2 2004 84,1
NIISTU-5 2004 83,5
8, Nikolska Str NIISTU-5 2 2004 83,8
NIISTU-5 2004 84,1
1, Chornomorska Str АОGV-100E
АОGV-100E
АОGV-100E
3 2010 90,1
2010 90,5
2010 90,2
2, Matrosova Str АОGV-100E 2 2010 90,3
АОGV-100E 2010 90,0
14, Gastelo Str АМNК-108 2010 94,0
АМNК-108 3 2010 93,9
АМNК-108 2010 93,9
Rivneterm-96 2004 89,4
Rivneterm-96 2004 89,3
7, Moldavska Str Rivneterm-96 6 2004 89,2
Rivneterm-96 2004 89,5
Rivneterm-96 2004 89,3
Rivneterm-96 2004 89,0
2 а Еkipajna Str,4 і
(Volodarska Str)
КBN-G-2,5 2 1987 91,6
КBN-G-2,5 1987 91,7
2-а Еkipajna Str,4 k
(Volodarska Str)
Е1/9 2 1984 86,5
E1/9 1986 85,3
117 к Kotelna Str Kolvi-Termona KTN 50 CE 3 2014 86,5
Kolvi-Termona KTN 50 CE 2014 86,4
АVPЕ.PR115 45 кVТ 2014 96,0
91-в Bezimenna Str
(Shkapina Str)
NIISTU-5mk 2003 90,0
NIISTU-5mk 2003 90,0
NIISTU-5 6 2003 83,7
NIISTU-5 2003 83,4
NIISTU-5 1995 83,8
90
Address of boilers Brand of boilers Number of
boilers
Term of boiler
operation
Efficienc
y of
boilers
Gross
NIISTU-5 1992 83,1
2-а Еkipajna,5
(Volodarska Str)
NIISTU-5mk 4 2006 89,8
NIISTU-5mk 2006 90,2
NIISTU-5mkpе-2f 2005 88,9
NIISTU-5mk 1982 82,8
150 Pogranichna
(Chigrina Str)
NIISTU-5 2 1961 90,3
NIISTU-5 1961 90,5
5 а, Viyskova Str, apt
42 (Voroshilovа Str)
Bogdan-55 2 1986 91,3
Bogdan-40 1986 90,5
2 Admiralteiska
square (Komunariv)
NIISTU-5 2 1951 90,1
NIISTU-5
1951 91,6
96, Pogranichna Str
(Chigrina Str)
Proterm 2003 88,3
Proterm 2003 89,9
Proterm
8
2003 90,4
Proterm 2003 89,0
Proterm 2003 90,6
Proterm 2003 89,7
Proterm 2003 89,7
Proterm 2003 90,1
209, Chkalova Str NIISTU-5mk 2 2004 90,5
NIISTU-5mk 1997 91,0
3-j Viyskova Str, apt
8 (Sivashska
division)
АОGB-50E 2014 90,8
АОGB-50E 2014 90,9
АОGB-50E 5 2014 90,7
Buran-6 2014 98,0
Buran-15 2014 98,0
130, Kuznecka Str
(Skorohodova Str)
NIISTU-5 2 2007 90,8
NIISTU- 2007 89,7
46, Sadova Str NIISTU-5 2 2004 83,9
NIISTU-5 2004 83,5
242в, Pogranichna
Str (Chigrina Str)
NIISTU-5mk 3 2006 90,1
NIISTU-5mk 2006 89,5
NIISTU-5mk 2006 89,9
8, Kotelna Str Vitoplex 100
Vitoplex 100
Vitoplex 100
2 2009
2009
2009
92,3
92,1
92,2
91
Address of boilers Brand of boilers Number of
boilers
Term of boiler
operation
Efficienc
y of
boilers
Gross
6-а, Slobidska Str ,
apt 48
(Кomsomolska Str)
Modul AF 105
Modul AF 105
Modul AF 105
Modul AF 105
Modul AF 105
Modul AF 105
6 2010
2010
2010
2010
2010
2010
89,2
89,8
90,8
88,7
89,2
89,4
6-а, Slobidska Str ,
apt 48
(Кomsomolska Str)
Modul 105 G
Modul 105 G
Modul 105 G
Modul 105 G
Modul 105 G
5 2010
2010
2010
2010
2010
91,2
90,9
91,6
91,3
91,7
70 b , O. Yanati
(Kuibisheva Str)
NIISTU-5mk-2 f 2 2003 90,8
NIISTU-5mk-2 f 2003 91,1
11 а, Pozdovjna, apt
1
NIISTU-5mk 2 2007 90,1
NIISTU-5mk 2007 87,8
8а, Pozdovjna, apt11
v
NIISTU-5м 1991 91,7
NIISTU-5м 5 2000 90,0
NIISTU-5м 2002 89,2
NIISTU-5mk 2002 90,4
NIISTU-5mk 2002 88,7
1k Listopadova Str NIISTU-5mk 4 1993 89,9
NIISTU-5mk 1999 90,6
NIISTU-5mk 1999 89,7
NIISTU-5mk 1999 91,0
48а Novozavodska
Str, boiler 135 mkr
DЕ-25-14GМ 1987 91,6
DЕ-25-14GМ 3 1978 92,3
DЕ-25-14GМО 1979 91,4
93 , Kosmonavtiv Str Е-1/9-2G 2 1986 86,3
E-1/9-2G 1986 86,6
8, Budivelnikiv Str NIISTU-5мpе 1997 84,8
NIISTU-5mk 2 1997 81,9
2, Kazarskogo Str КV-G-2,9-115СН «Drozd» 2000 93,1
КV-G-2,9-115СН «Drozd» 2 2000 93,6
34 b Mykolaivska Str КVG-7,56 1993 89,6
boiler 112 mkr КVG-7,56 1993 91,9
КV-G-7,56-150 5 1982 90,5
КV-G-7,56-150 1982 88,4
КVG-7,56 1983 91,0
69 к, Peredova Str NIISTU-5mk 2004 89,7
NIISTU-5mk 2004 89,7
NIISTU-5mk 4 2004 84,8
NIISTU-5mk 2004 89,1
2 к, Polirnyi av NIISTU-5 1991 84,1
92
Address of boilers Brand of boilers Number of
boilers
Term of boiler
operation
Efficienc
y of
boilers
Gross
NIISTU-5 1997 83,8
NIISTU-5 6 1991 90,3
NIISTU-5 1991 89,8
NIISTU-5 2007 90,2
NIISTU-5 2007 87,3
10 к, Teatralna Str (
Vasliaeva Str)
NIISTU-5 1999 84,6
NIISTU-5 4 1997 83,7
NIISTU-5 1976 83,0
NIISTU-5 1999 84,6
7а, Kitoboiv КV-G-7,56-150 1995 88,6
boiler 114 mkr. КVG-7,56 1995 90,2
КVG -7,56 5 1984 90,3
КVG -7,56 1984 87,0
КVG -7,56 1983 90,1
2a, D. Yavornicka
Str (Gorkogo Str)
NIISTU-5mk-2 2 2005 92,1
NIISTU-5mk-2 2005 92,4
43, Kosmonavtiv Str NIISTU-5 2006 90,3
NIISTU-5 4 2006 89,4
NIISTU-5pairs 2006 90,1
NIISTU-5pairs 2006 90,5
1, Zavodska square
(Okean)
PТVM-50 2 1969 88,7
PТVM-50 4 1969 89,3
5, Dunaiska flotilia
Str
NIISTU-5mk 2005 89,6
NIISTU-5mk 2 2005 89,8
72, Metalurgiv Str Modul 105 G 2001 90,8
Modul 105 G 2001 91,1
Modul 105 G 5 2001 90,7
Modul 105 G 2001 91,1
Modul 105 G 2001 91,1
325, Bogoiavlenska
Str, apt 4 (Jovtneva
Str)
MN120 «Bernard»
MN120 «Bernard»
MN120 «Bernard»
MN120 «Bernard»
MN120 «Bernard»
MN120 «Bernard»
MN120 «Bernard»
MN120 «Bernard»
MN120 «Bernard»
MN120 «Bernard»
MN120 «Bernard»
MN120 «Bernard»
2003 91,0
2003 90,7
2003 90,7
12 2003 90,5
2003 90,8
2003 90,8
2003 90,9
2003 90,8
2003 90,8
2003 90,8
2003 90,8
93
Address of boilers Brand of boilers Number of
boilers
Term of boiler
operation
Efficienc
y of
boilers
Gross
2003 90,8
91 к, Ribna Str NIISTU-5 4 1996 84,5
NIISTU-5 1997 84,1
NIISTU-5 1998 84,0
NIISTU-5 1998 84,6
38 к, Vilna Str NIISTU-5м 2002 90,1
NIISTU-5м 3 1997 90,6
NIISTU-5м 1997 90,3
КBN-G-2,5 1990 90,9
2, Znamenska Str КBN-G -2,5 3 1997 92,0
КBN-G -2,5 1997 93,0
75, 295 Strilecka
divizia Str, apt 1
КGB-100 2004 88,3
КGB -100 4
2001 87,9
КGB -100 2004 88,0
КGB -100 2001 88,2 MN120 "Bernard" 2001 90,1
75 a, 295 Strilecka
divizia Str
MN120 "Bernard" 3 2001 90,3
MN 120 "Bernard" 2001 90,3
124 g, Sagaidachna
Str (Vatutina Str)
NIISTU-5 1 1971 68,7
42а, Samoilovicha
Str (МGZ)
PТVМ-30М-4 3 1979 90,8
PТVМ -30М-4 1979 92,4
PТVМ -30М-4 1979 93,1
Ferroli Pegasus N102T 2010 91,3
Ferroli Pegasus N102T 2010 90,1
97, Metalurgiv Str,
apt1
Ferroli Pegasus N102T 6 2010 89,9
School №40 Ferroli Pegasus N102T 2010 89,8
Ferroli Pegasus N102T 2010 90,6
Ferroli Pegasus N102T 2010 90,3
1, Malko-Tirnivska
(1, Ulianovih Str,
МТB)
КBN-G-2,5 1989 90,8
КV-G-2,9-115СН «Дрозд» 3 2006 92,4
КVМU-1,25gn 2014 93,1
1, Lisova Str Fakel 2 1999 90,7
Fakel 1999 91,0
91, Geroiv Ukraini
av Geroiv
Stalingradu Str)
NIISTU-5mk 2006 89,6
NIISTU-5mkl 4 2005 89,1
NIISTU-5mk 2005 88,8
NIISTU-5mk 2006 88,8
94
Address of boilers Brand of boilers Number of
boilers
Term of boiler
operation
Efficienc
y of
boilers
Gross
12, Geroiv Ukraini
av Geroiv
Stalingradu Str)
NIISTU-5mk 2 2005 89,1
NIISTU-5mk 2005 89,1
21a, Geroiv Ukraini
av Geroiv
Stalingradu Str)
KVG-7,56-150 1994 91,2
KVG-7,56-150 3 1987 89,6
KVG-7,56-150 1994 89,9
91, Geroiv Ukraini
av Geroiv
Stalingradu Str)
DKVR 10-13
DKVR 10-13
ДЕ 10-14ГМ
3 1978
1978
1986
90,6
90,4
90,6 Modul 105 G
Modul 105 G
Modul 105 G
Modul 105 G
4 2002
2002
2002
2002
92,0
92,0
92,2
92,0
1 , Verhnia Str NIISTU-5
NIISTU-5
2 1985
1985 64,8
65,8
22, Kurchatova Str КТ DUO 100
KT DUO 100
2 2004
2004 89,7
90,2
267, Silikatna Str АОGV-100Э
АОGV-100Э
2 2004
2004 90,8
90,4
13 e, Geroiv Ukraini
av (Geroiv
Stalingradu Str)
MN120 «Bernard»
MN120 «Bernard»
MN120 «Bernard»
MN120 «Bernard»
MN120 «Bernard»
MN120 «Bernard»
MN120 «Bernard»
MN120 «Bernard»
MN120 «Bernard»
MN120 «Bernard»
10 2007
2007
2007
2007
2007
2007
2007
2007
2007
2007
90,9
91,2
91,2
90,9
90,8
91,0
91,2
91,1
91,0
91,2
4 e, Arhitektora
Starova Str
Modul AF 105
Modul AF 105
Modul AF 105
Modul AF 105
Modul AF 105
Modul AF 105
Modul AF 105
7 2007
2007
2007
2007
2007
2007
2007
91,1
90,9
91,3
91,0
91,2
90,8
91,2
4 j, Arhitektora
Starova Str
VPM «Коlvi-192
VPM «Коlvі»-192
VPM «Коlvі»-192
VPM «Коlvі»-192
VPM «Коlvі»-192
VPM «Коlvі»-192
6 2011
2011
2011
2011
2011
2011
90,8
90,8
91,1
90,3
90,4
91,3
MN120 «Bernard»
MN120 «Bernard»
18 2005 90
90
95
Address of boilers Brand of boilers Number of
boilers
Term of boiler
operation
Efficienc
y of
boilers
Gross
101 e, Geroiv
Ukraini av (Geroiv
Stalingradu Str)
MN120 «Bernard»
MN120 «Bernard»
MN120 «Bernard»
MN120 «Bernard»
MN120 «Bernard»
MN120 «Bernard»
MN120 «Bernard»
MN120 «Bernard»
MN120 «Bernard»
MN120 «Bernard»
MN120 «Bernard»
MN120 «Bernard»
MN120 «Bernard»
MN120 «Bernard»
MN120 «Bernard»
MN120 «Bernard»
90
90
90
90
90
90
90
90
90
90
90
90
90
90
90
90
3, Kiivska Str
Е-1/9-1G
Е-1/9-1G
2
1981
1981 83,4
85,3
1, Karpenka Str
AOGV-100Э
AOGV-100Э
AOGV-50Э
3
2014
2014
2014
90,6
89,6
89,3
5, Abrikosova Str
NIISTU-5
NIISTU-5
NIISTU-5
3
1986
1980
1986
83,7
83,9
84,3
7, Dachna Str
NIISTU-5
NIISTU-5
NIISTU-5
NIISTU-5
NIISTU-5
NIISTU-5
6 1984
1982
1986
1982
1986
1984
83,5
80,8
90,5
90,3
88,1
87,7
29, Sportivna Str
AOGV-100E
AOGV-100E
AOGV-100E
3 2014
2014
2014
90,6
89,6
89,3
20, Karpenka Str
REX 240
REX 240
REX-100
3 2008
2008
2011
90,1
90,0
90,4
8, Karpenka Str NIISTU-5
NIISTU-5
2 1992
1992 83,5
83,5
71, Bila Str ( Namiv
Str)
KV-GM-10
KV-GM-10
KV-GM-10-150
2 1978
1976
1990
91,3
90,9
90,9
7а, Kurortna Str
(7а, Butomy Str) (25
mkr.)
ТVG-8М
ТVG-8М
ТVG-8М
КV-G-2,9-115СН «Drozd»
5 1996
1996
1995
2006
90,5
92,1
90,9
91,7
96
Address of boilers Brand of boilers Number of
boilers
Term of boiler
operation
Efficienc
y of
boilers
Gross
КV-G-2,9-115СН «Drozd» 2006 90,2
51а, Karpenka Str ТVG-4
КV-G-7,56-150
КV-G-7,56-150
3 1964
1991
1993
91,2
91,0
88,1
8, Levanevciv Str RD-14
RD-14
2 2006
2006 92,5
92,8
10, Levanevciv Str КSV-0,25 «VК-22»
КSV-0,63 «VК-34»
2 2000
2001 90,6
90,5
45 a, Ozerna Str
(Chervonih
Maevshikiv Str)
KV-GM-5,8-115СN
KV-GM-5,8-115СN
2 2003
2003 93,4
84,1
97
Annex 3
Maps with boiler reconstruction application
Pic. 1 Boiler house location at 71, Bila street
71, Bila street boiler house
проспект Героїв України
98
Pic. 2 Boiler house location at 72, Heroes of Ukraine avenue
72, Heroes of Ukraine avenue boiler house
99
Pic. 3 Boiler house location at 42, Samoylovicha street
42, Samoylovicha street boiler house
100
Pic. 4 Boiler house location at 1-k, Sportivna street
1-k, Sportivna street boiler house
101
Pic. 5 Boiler house location at 48, Novozavodska street
48, Novozavodska street boiler house
102
Annex 4
Reconstruction of heating networks at 1k, Sportivna str.
103
Annex 5
Reconstruction of heating networks at 42, Samoylovicha str.
104
Annex 6
Maps of reconstruction objects "Insulation of pipes with foamed polyurethane
with protective galvanized shell"
Insulation of pipes with foamed polyurethane with protective
galvanized shell in Mykolayiv according to the
contract UDHEEP-MYC-ICB-05
№ Name The outer diameter
of the pipeline, мм Length, м
1 Steel pipe 273 330
105
Insulation of pipes with foamed polyurethane with protective
galvanized shell in Mykolayiv according to the
contract UDHEEP-MYC-ICB-05
№ Name The outer diameter
of the pipeline, мм Length, м
1 Steel pipe 57 15,7
2 Steel pipe 76 11,7
3 Steel pipe 159 178,2
106
Insulation of pipes with foamed polyurethane with protective
galvanized shell in Mykolayiv according to the
contract UDHEEP-MYC-ICB-05
№ Name The outer diameter
of the pipeline, мм Length, м
1 Steel pipe 219 923,5
2 Steel pipe 273 984,3
107
Insulation of pipes with foamed polyurethane with protective
galvanized shell in Mykolayiv according to the
contract UDHEEP-MYC-ICB-05
№ Name The outer diameter
of the pipeline, мм Length, м
1 Steel pipe 219 232
108
Insulation of pipes with foamed polyurethane with protective
galvanized shell in Mykolayiv according to the
contract UDHEEP-MYC-ICB-05
№ Name The outer diameter
of the pipeline, мм Length, м
1 Steel pipe 89 111,1
109
Insulation of pipes with foamed polyurethane with protective
galvanized shell in Mykolayiv according to the
contract UDHEEP-MYC-ICB-05
№ Name The outer diameter
of the pipeline, мм Length, м
1 Steel pipe 76 155,7
2 Steel pipe 89 435,9
3 Steel pipe 219 488,2
4 Steel pipe 273 504,4
5 Steel pipe 325 53,2
110
Insulation of pipes with foamed polyurethane with protective
galvanized shell in Mykolayiv according to the
contract UDHEEP-MYC-ICB-05
№ Name The outer diameter
of the pipeline, мм Length, м
1 Steel pipe 273 275
2 Steel pipe 530 125,6
3 Steel pipe 630 93
111
Insulation of pipes with foamed polyurethane with protective
galvanized shell in Mykolayiv according to the
contract UDHEEP-MYC-ICB-05
№ Name The outer diameter
of the pipeline, мм Length, м
1 Steel pipe 57 7,6
2 Steel pipe 76 75,8
3 Steel pipe 89 47,1
4 Steel pipe 108 354,2
5 Steel pipe 133 32,4
6 Steel pipe 159 171,5
112
Insulation of pipes with foamed polyurethane with protective
galvanized shell in Mykolayiv according to the
contract UDHEEP-MYC-ICB-05
№ Name The outer diameter
of the pipeline, мм Length, м
1 Steel pipe 57 74
2 Steel pipe 76 107,8
3 Steel pipe 108 413,5
4 Steel pipe 159 28,2
113
Insulation of pipes with foamed polyurethane with protective
galvanized shell in Mykolayiv according to the
contract UDHEEP-MYC-ICB-05
№ Name The outer diameter
of the pipeline, мм Length, м
1 Steel pipe 108 142,6
2 Steel pipe 133 39,8
3 Steel pipe 159 31,6
114
Insulation of pipes with foamed polyurethane with protective
galvanized shell in Mykolayiv according to the
contract UDHEEP-MYC-ICB-05
№ Name The outer diameter
of the pipeline, мм Length, м
1 Steel pipe 89 1,2
2 Steel pipe 108 9,2
3 Steel pipe 159 380,1
4 Steel pipe 219 15,8
5 Steel pipe 273 202,2
115
Insulation of pipes with foamed polyurethane with protective
galvanized shell in Mykolayiv according to the
contract UDHEEP-MYC-ICB-05
№ Name The outer diameter
of the pipeline, мм Length, м
1 Steel pipe 57 41,4
2 Steel pipe 76 127,6
3 Steel pipe 89 182,2
4 Steel pipe 108 20,9
116
Insulation of pipes with foamed polyurethane with protective
galvanized shell in Mykolayiv according to the
contract UDHEEP-MYC-ICB-05
№ Name The outer diameter
of the pipeline, мм Length, м
1 Steel pipe 108 88
2 Steel pipe 219 165,8
3 Steel pipe 530 311,6
117
Insulation of pipes with foamed polyurethane with protective
galvanized shell in Mykolayiv according to the
contract UDHEEP-MYC-ICB-05
№ Name The outer diameter
of the pipeline, мм Length, м
1 Steel pipe 530 237,9
2 Steel pipe 720 760,4
118
Insulation of pipes with foamed polyurethane with protective
galvanized shell in Mykolayiv according to the
contract UDHEEP-MYC-ICB-05
№ Name The outer diameter
of the pipeline, мм Length, м
1 Steel pipe 89 1,2
2 Steel pipe 108 1,4
3 Steel pipe 159 61,9
4 Steel pipe 273 296,5
119
Insulation of pipes with foamed polyurethane with protective
galvanized shell in Mykolayiv according to the
contract UDHEEP-MYC-ICB-05
№ Name The outer diameter
of the pipeline, мм Length, м
1 Steel pipe 76 16,4
2 Steel pipe 108 266,5
3 Steel pipe 159 238,1
4 Steel pipe 219 253,7
5 Steel pipe 273 743,4
6 Steel pipe 325 76,3
7 Steel pipe 530 405,6
120
Insulation of pipes with foamed polyurethane with protective
galvanized shell in Mykolayiv according to the
contract UDHEEP-MYC-ICB-05
№ Name The outer diameter
of the pipeline, мм Length, м
1 Steel pipe 133 56,2
2 Steel pipe 159 263,1
121
Insulation of pipes with foamed polyurethane with protective
galvanized shell in Mykolayiv according to the
contract UDHEEP-MYC-ICB-05
№ Name The outer diameter
of the pipeline, мм Length, м
1 Steel pipe 57 39,7
2 Steel pipe 76 46,2
3 Steel pipe 159 262,2
122
Insulation of pipes with foamed polyurethane with protective
galvanized shell in Mykolayiv according to the
contract UDHEEP-MYC-ICB-05
№ Name The outer diameter
of the pipeline, мм Length, м
1 Steel pipe 219 268,5
123
Insulation of pipes with foamed polyurethane with protective
galvanized shell in Mykolayiv according to the
contract UDHEEP-MYC-ICB-05
№ Name The outer diameter
of the pipeline, мм Length, м
1 Steel pipe 273 126,9
124
Insulation of pipes with foamed polyurethane with protective
galvanized shell in Mykolayiv according to the
contract UDHEEP-MYC-ICB-05
№ Name The outer diameter
of the pipeline, мм Length, м
1 Steel pipe 57 65,3
2 Steel pipe 76 14
3 Steel pipe 89 210,9
4 Steel pipe 108 44,2
5 Steel pipe 159 29,6
6 Steel pipe 273 636,4
125
Insulation of pipes with foamed polyurethane with protective
galvanized shell in Mykolayiv according to the
contract UDHEEP-MYC-ICB-05
№ Name The outer diameter
of the pipeline, мм Length, м
1 Steel pipe 108 94,9
2 Steel pipe 219 382,9
126
Insulation of pipes with foamed polyurethane with protective
galvanized shell in Mykolayiv according to the
contract UDHEEP-MYC-ICB-05
№ Name The outer diameter
of the pipeline, мм Length, м
1 Steel pipe 377 40,3
2 Steel pipe 530 378,4
127
Insulation of pipes with foamed polyurethane with protective
galvanized shell in Mykolayiv according to the
contract UDHEEP-MYC-ICB-05
№ Name The outer diameter
of the pipeline, мм Length, м
1 Steel pipe 426 781
128
Insulation of pipes with foamed polyurethane with protective
galvanized shell in Mykolayiv according to the
contract UDHEEP-MYC-ICB-05
№ Name The outer diameter
of the pipeline, мм Length, м
1 Steel pipe 108 0,2
2 Steel pipe 219 5,6
3 Steel pipe 273 717,7
4 Steel pipe 530 935,7
129
Insulation of pipes with foamed polyurethane with protective
galvanized shell in Mykolayiv according to the
contract UDHEEP-MYC-ICB-05
№ Name The outer diameter
of the pipeline, мм Length, м
1 Steel pipe 530 84
130
Insulation of pipes with foamed polyurethane with protective
galvanized shell in Mykolayiv according to the
contract UDHEEP-MYC-ICB-05
№ Name The outer diameter
of the pipeline, мм Length, м
1 Steel pipe 57 118,6
2 Steel pipe 76 53,6
3 Steel pipe 89 210,3
4 Steel pipe 108 225,9
5 Steel pipe 133 448,5
6 Steel pipe 159 397,3
7 Steel pipe 219 913,6
131
Insulation of pipes with foamed polyurethane with protective
galvanized shell in Mykolayiv according to the
contract UDHEEP-MYC-ICB-05
№ Name The outer diameter
of the pipeline, мм Length, м
1 Steel pipe 219 93,8
2 Steel pipe 273 94,5
132
Insulation of pipes with foamed polyurethane with protective
galvanized shell in Mykolayiv according to the
contract UDHEEP-MYC-ICB-05
№ Name The outer diameter
of the pipeline, мм Length, м
1 Steel pipe 219 403,5
133
Insulation of pipes with foamed polyurethane with protective
galvanized shell in Mykolayiv according to the
contract UDHEEP-MYC-ICB-05
№ Name The outer diameter
of the pipeline, мм Length, м
1 Steel pipe 57 20,6
2 Steel pipe 76 53,3
3 Steel pipe 89 506,3
4 Steel pipe 108 7,6
5 Steel pipe 133 78,3
6 Steel pipe 159 91
134
Insulation of pipes with foamed polyurethane with protective
galvanized shell in Mykolayiv according to the
contract UDHEEP-MYC-ICB-05
№ Name The outer diameter
of the pipeline, мм Length, м
1 Steel pipe 57 32,4
2 Steel pipe 108 34,4
3 Steel pipe 159 139,7
4 Steel pipe 219 3,2
5 Steel pipe 273 292,2
135
Insulation of pipes with foamed polyurethane with protective
galvanized shell in Mykolayiv according to the
contract UDHEEP-MYC-ICB-05
№ Name The outer diameter
of the pipeline, мм Length, м
1 Steel pipe 57 70,7
2 Steel pipe 108 105,6
3 Steel pipe 159 69
4 Steel pipe 219 1231,4
5 Steel pipe 273 369,2
6 Steel pipe 325 40,2
136
Insulation of pipes with foamed polyurethane with protective
galvanized shell in Mykolayiv according to the
contract UDHEEP-MYC-ICB-05
№ Name The outer diameter
of the pipeline, мм Length, м
1 Steel pipe 108 1,4
2 Steel pipe 219 174,6
137
Insulation of pipes with foamed polyurethane with protective
galvanized shell in Mykolayiv according to the
contract UDHEEP-MYC-ICB-05
№ Name The outer diameter
of the pipeline, мм Length, м
1 Steel pipe 57 43,5
138
Insulation of pipes with foamed polyurethane with protective
galvanized shell in Mykolayiv according to the
contract UDHEEP-MYC-ICB-05
№ Name The outer diameter
of the pipeline, мм Length, м
1 Steel pipe 159 582,5
139
Insulation of pipes with foamed polyurethane with protective
galvanized shell in Mykolayiv according to the
contract UDHEEP-MYC-ICB-05
№ Name The outer diameter
of the pipeline, мм Length, м
1 Steel pipe 108 2,6
2 Steel pipe 159 312,6
140
Insulation of pipes with foamed polyurethane with protective
galvanized shell in Mykolayiv according to the
contract UDHEEP-MYC-ICB-05
№ Name The outer diameter
of the pipeline, мм Length, м
1 Steel pipe 159 471,6
2 Steel pipe 219 555,5
141
Annex 7
Green areas inspection report Translation from Ukrainian
UKRAINE
MYKOLAIV CITY COUNCIL
HOUSING AND COMMUNAL ECONOMY DEPARTMENT
7, Admirala Makarova st., Mykolaiv city, 54030, phone / fax: (0512) 53-77-11, 47-
71-88
E-Mail: [email protected] EDRPOU03365707 __________________No______ No_________dated_________
Interim Executive Director of
RUE “Mykolayivoblteploenerho”
Lohvinov M.Yu.
5A, Mykolaivska, st.
Concerning the consideration of the appeal
To your letter of permission to demolish trees at the following addresses; 6,6A, 17,19
Velyka Morska st, 1, 3, 4, 4/ 6, Mostobudivnykiv st., 5,5A,7, 8, 9, 14,16, Terasna St., 4B, 8/1,
Nikolska, st.,1A, 15A, Buzkyi Blvd, 1, Varvarsivskys descent corner of the Nikolska st.,
Sportyvna st., 8, 31, 33, 35, 49, Henerala Karpenka st., 3, 3A, 4, 5, 12 / 1, 12 / 4, 18, Krylova
st., 13, 42, Dachna st., 8, Heroes of Ukraine ave,. 213A, 215, 215B, 215 H, Chkalova st., 242-
B, 244-A, 244-B, 246-A Pohranichna st., 4, 4A, 8, Teatralna st., 2K, Poliarnyi lane, 3,
Zavodska Ploshcha st. we are reporting the following.
Based on the results of the commission inspection of trees at the above addresses, an act of
inspection of green spaces dated November 9, 2017 No. 716 was drawn up and agreed in
accordance with the resolution of the Cabinet of Ministers ted August 01, 2006 No. 1045 “On
approval of the Procedure for the removal of trees, bushes, lawns and flower beds in
settlements”.
We are sending you the above act for the organization of work.
Appendix: act 176.
The head of ecology department
of housing and communaleconomy
of Mykolaiv city council V.H.Korchahov
142
ACT №716
Mykolaiv city November 09,
2017
The commission was appointed on the basis of the order of the Department of Housing and
Communal Services dated October 02, 2017 No. 139 “On approval of the composition of the
commission for the survey of green plantations”
Chairman of the Commission: Korchahov V.H. - the Head of the ecology department of the
housing and communal economy of the Mykolaiv city council
Members of the Commission:
1. Skybytska T.A. - Deputy Head of the ecology department of the housing and communal
economy of the Mykolaiv city council
2. Portnenko O.I. – the Head of the Landscaping Department of the ecology department of the
housing and communal economy of the Mykolaiv city council
3. Subbotina A.V. - Chief Specialist of the Landscaping Department of the ecology department of
the housing and communal economy of the Mykolaiv city council
Applicant's representative: upon the request of the acting the head of the OKP
“Mykolaivoblteploenerho” Lohvinov M.Yu.
The Commission inspected the green space plantations at the addresses; 6,6A, 17,19 Velyka
Morska st, 1, 3, 4, 4/ 6, Mostobudivnykiv st., 5,5A,7, 8, 9, 14,16, Terasna St., 4B, 8/1, Nikolska,
st.,1A, 15A, Buzkyi Blvd, 1, Varvarsivskys descent corner of the Nikolska st., Sportyvna st., 8,
31, 33, 35, 49, Henerala Karpenka st., 3, 3A, 4, 5, 12 / 1, 12 / 4, 18, Krylova st., 13, 42, Dachna
st., 8, Heroes of Ukraine ave,. 213A, 215, 215B, 215 H, Chkalova st., 242-B, 244-A, 244-B, 246-
A Pohranichna st., 4, 4A, 8, Teatralna st., 2K, Poliarnyi lane, 3, Zavodska Ploshcha st.in
Tsentralnyi, Zavodskyi, Inhulskyi, Korabelnyi distrcts.
The inspection of the green of green plantations is connected with: the prevention an emergency
situation and providing access to the air heating mains during the works on the reconstruction of
the district heating network in accordance with the project “Energy efficiency in the district heating
area of Ukraine upon the request of the acting the head of the OKP “Mykolaivoblteploenerho”, ,
5AMykolaivska st., tel:221149green space (withdrawal of land, removal of green
1. Green areas to be removed:
№ Type of green
plantatons
Age Height The
diameter of
the trunk at
a height of
13m from
the ground
Amount Quality of green
plantations/ good,
satisfactory,
inadequate /
To be cut
off/
removal
Replantation
6 Velyka Morska st., from the side of the military unit
1 Maple 30 35 1 Carrying out repair works in the
Demolitio
n
143
security zone of the heat supply network
2 Ash, plum, cherry shrubs
2-5 2-5 - Removal
3 Ash зо 33 1 Emergency: 100%
dry
Demolitio
n
4 Cherry 40 5-10 10 Carrying out repair
works in the
security zone of the
heat supply network
Demolitio
n
5 Apricot 20 15 1 Demolitio
n
17-19, Velyka Morska st., ordinary planting on the retaining wall
1 Acacia 25 22,23 2 Carrying out repair works in the security zone of the heat supply network
Demolitio
n
2 Gaiter-tree, bush
25 10 Replantation
17-19, Velyka Morska st., ordinary planting on the flower bed under the retaining wall
1 Weeping mulberry
25 18-20 2 Carrying out repair works in the security zone of the heat supply network
Demolitio
n
А
2 Ash 20 20
1 Emergency grows from under the retaining wall
Demolitio
n
6-А, Mostobudivnykiv st.
1 Fruit 15 10-15 5 Carrying out repair works in the security zone of the heat supply network
Demolitio
n
2 Apricot 10 11 1 Emergency: doted Demolitio
n
3 Elder, bush 20 1 Carrying out repair works in the security zone of the heat supply network
Demolitio
n
4 Elder, bush 20 - 2 Demolitio
n
5 Hackberry 15 5-10 7 Demolitio
n
6 Nut tree 40 35 1 Demolishe
d
1, Mostobudivnykiv st., stopped-end from the side of the military unit
1 Acacia 20 20,8,12, 12
4 Carrying out repair works in the security zone of the heat supply network
Demolitio
n
2 Maple, acacia, ailanto shrubs
1-5 Removal
3 Apricot 35 40,13,13 23,
4 Carrying out repair works in the security zone of the heat supply network
Demolitio
n
4 Nut tree 10 5,10 2
5 Tecoma 15 - 1 Replantation
6 Lilac 15 - 1 Replantation
7 Merry 40 зо 1 Emergency: inclined to the balcony
Demolitio
n
8 Mulberry 40 зо 1 Emergency: has grown into the
Demolitio
n
144
heating system
4, Mostobudivnykiv st., stopped-end from the side of 1A, Mostobudivnykiv st.
1 Maple, excised 40 40 1 Emergency: crust lagging, doted, chopped
Demolition
2 Cherry 10 • 8,9 2 Carrying out repair works in the security zone of the heat supply network
Demolition
7-А, Mostobudivnykiv st.
1 Nut tree 25 22 1, Carrying out repair works in the security zone of the heat supply network
Demolition
2 Lilac 15 1 Demolition
8/1,Nikolska st., rear
1 Chestnut зо 24 1 Carrying out repair works in the security zone of the heat supply network
Demolition
2 Maple зо 28 1 Demolition
Terasna st, odd side, along the descent from 8/1,Nikolska st.,
1 Maple many-stemmed
20 22 1 Carrying out repair works in the security zone of the heat supply network
Demolition
2 Maple 10 7,12 2 Demolition
3 Acacia 10. 15,25,6, 25,16
5 Carrying out repair works in the security zone of the heat supply network
Demolition
4 Hackberry 25 23 1 Demolition
5 Cherry 25 17-20 4. Demolition
6 Willow 50 60 1 Emergency: split Demolition
16, Terasna st., rear
1 Hackberry 40 35,33 1 Carrying out repair works in the security zone of the heat supply network
Demolition
2 Birch 10 • 9 1 Demolition
16, Terasna st., stopped-end from the side of the roadway
1 Ash 35 37 1 Carrying out repair works in the security zone of the heat supply network
Demolition
2 Hackberry 30 30,25 2 Demolition
3 Acacia зо 40 1 Demolition
1
14, Terasna st., stopped-end from the side of the roadway
Hackberry 35 29 1 Carrying out repair works in the security zone of the heat supply network
Demolition
2 Ash 20 30,20,12 3 Demolition
9, Terasna st., stopped-end from Terasna st.
1 Acacia 55 52 1 Carrying out repair works in the security zone of the heat supply network
Demolition
2 Mulberry 15 8,20 2 Demolition
3 Maple 50 53 1 Emergency: Demolition
145
hollow at the base of the trunk
7, Terasna st., stopped-end from Terasna st.
1 Nut tree 40 45.38 2 Carrying out repair works in the security zone of the heat supply network
Demolition
2 Nut tree . 40 31 1 Demolition
5, Terasna st., stopped-end from Terasna st.
1 Plane tree 80 70 1 Carrying out repair works in the security zone of the heat supply network
Demolition
2 Mulberry 20 22 1 Demolition
5, Terasna st., the yard of the building
1 Chestnut 5 3 1 Carrying out repair works in the security zone of the heat supply network
Replantation
5, Terasna st., stopped-end from the building 5A
1 Acacia 45 40 -• 1 Emergency: inclined, hollow at the base of the trunk
Demolition
2 Acacia 45 38 1 Emergency:
doted
Demolition
вул. Терасна, буд. 5-А, двір будинку
1 Acacia 45 45,45,40, 28
4 Carrying out repair works in the security zone of the heat supply network
Demolition
2 Acacia 45 28 1
3 Cherry 20 15 1 Demolition
4 Mulberry 35 40,26, 33,42
4 Demolition
5 Acacia 35 зо 1 Emergency: excised 100% dry
Demolition І
Along the descent near the square “Kaskadnyi” opposite building № 9 in Buzkyi blvd.
1 Hackberry 5 3-4 4 Carrying out repair works in the security zone of the heat supply network
Replantation
Near the stopped-end of building 9 in Buzkyi blvd.from the side of the square “Kaskadnyi”
1 Acacia 40 38 1 Carrying out repair works in the security zone of the heat supply network
Demolition
2 Lilac 20 1 Demolition
4B, Nikolska st,. yard, along the passage
1 Acacia зо 28,30 2 Carrying out repair works in the security zone of the heat supply network
Demolition
1-А, Buzkyi blvd., rear of the building
1 Mulberry, 15 5-20. 1 Carrying out Demolition
146
multi-stemmed
repair works in the security zone of the heat supply network
Varvarivskyi descent corner of Nikolska st., near the church
1 Poplar Bollie 80
80 1
Emergency: excised 100% dry
Demolition
2 Poplar Bollie 80
68 1
Emergency: 100% dry
Demolition
3 Mulberry 30 зо 1 Carrying out repair works in the security zone of the heat supply network
Demolition
The territory of the Central city stadium, from the side of O. Hrihoriev st.
1 Apricot 15- 25
17,10,12, 14 4
Carrying out repair works in the security zone of the heat supply network
Demolition
2 Maple 5 8 1 Demolition
3 Acacia 15 18 1
Demolition
4 Acacia 35
40 1
Emergency: hollow at the base of the trunk
Demolition
8, Henerala Karpenka st.
1 White cedar 15
8 1
Carrying out repair works in the security zone of the heat supply network
Demolition
33, Henerala Karpenka st. from the side of building 33
1 Ash ЗО
20,30 2
Carrying out repair works in the security zone of the heat supply network
Demolition
33, Henerala Karpenka st. from the stopped-end of building 35
1 Maple 25
•
25 1
Carrying out repair works in the security zone of the heat supply network
Demolition
3-А , Krylova st. yard of the building
1 Acacia 55
58 1
Carrying out repair works in the security zone of the heat supply network
Demolition
3-А , Krylova st. yard of the building
1 Mulberry 55
58 1
Carrying out repair works in the security zone of the heat supply network
Demolition
147
5 , Krylova st. yard of the building, from the side of building 3
1
Poplar
Bollie 40
42 1
Emergency: 50% dry Demolition
4, Krylova st., rear of the building
1 Maple
10
12 1
Carrying out repair works in the security zone of the heat supply network
Demolition
2 Acacia 20
23 1
Demolition
12/1, Krylova st., stopped-end of building 4
1 Acacia 40
38 1
Carrying out repair works in the security zone of the heat supply network
Demolition
12/1, Krylova st., stopped-end of building 12/4
1 Lime 10
8 1
Carrying out repair works in the security zone of the heat supply network
Demolition
12/4, Krylova st., yeard
1 Mulberry 50
46 1
Carrying out repair works in the security zone of the heat supply network
Demolition «
49,Henerala Karpenka st., yard from the side of 12/4 in Krylova st. Крилова
1 Acacia 16 20 1 Emergency: grows on a sewer chamber
Demolition
2
Maple ash-tree
40
45 1
Carrying out repair works in the security zone of the heat supply network
Demolition
3 Apricot 15
9 1 Demolition
4 Acacia зо
37 . 1 Demolition
5 Chestnut 10
9 1 Replantation
6 Poplar 8
8,5 2 Replantation
7 Cherry 5
3 1 Replantation
5, Abrykosova st., stopped-end from the side of the building 44 in Dachna st.
1 Ash 12
7,10 1
Carrying out repair works in the security zone of the heat supply network
Demolition
18, Krylova st., stopped-end of the passage
148
1 Plane tree 55
42 1
Carrying out repair works in the security zone of the heat supply network
Pruning from the side of the rpassage
42,Dachna st., rear along the passage
1 Plane tree 35
20 1
Carrying out repair works in the security zone of the heat supply network
Pruning from the side of heat pipeline
2 Acacia 35
37, 40,30 3 Demolition
3 Mulberry 5
6 1
Demolition
4 Apricot 35
25 1 Carrying out repair works in the security zone of the heat supply network
Demolition
5 Maple 20
23 1 Demolition
6
Maple
40
38 1
Pruning from the side of heat pipeline
7
Black poplar
45
45 1
Emergency: excised, doted
Demolition
13, Dachna st., along the fence of boarding school № 7, starting from Krylova st.
1 Acacia 45 40,31
2
Carrying out repair works in the security zone of the heat supply network,
Demolition
2 Mulberry 20
20 1 Demolition
3 Acacia 10
10,12,
5
3 Demolition
4 Айлацт 7 10 1
Demolition
5 Apricot 10
5 1
Carrying out repair works in the security zone of the heat supply network
Demolition
6 Nut tree
20
18 1 Demolition
7 Honey locust 10
10 1
Demolition
8 Honey locust 35 45
1 Demolition
Вч /л. Дачна, буд 13, біля під’їзду та вздовж паркану школи-інтернату № 7,
1 Apricot 15
12, 23
2 Carrying out Demolition
149
2 Cherry 15
10 1
repair works in the security zone of the heat supply network
Demolition
3
Bolle's poplar
40
38 1
Emergency: 50% dry
Demolition
4 Hackberry 15 12 1 Emergency:
grows from under the fence
Demolition
5 Acacia 10
10 1
Demolition
6 Apricot 40 34
1 Carrying out repair works in the security zone of the heat supply network
Demolition
7 Maple 5' 3 1
Replanted
8 Oak 7 3
1
9 Plum 5 3 1
213,Chkalova st., yard opposite Entrance 1
1 Ash ЗО 33
1
Carrying out repair works in the security zone of the heat supply network
Demolition
2 Maple 5
5 1
Replanted
213А, Chkalova st., rear of the building
1 Cherry 25
20 1
Carrying out repair works in the security zone of the heat supply network
Demolition
215B, Chkalova st., yard of the building
1 Acacia 40 43
1
Carrying out repair works in the security zone of the heat supply network
Demolition
2 Mulberry multi-
stemmed 5
4-6 1
Demolition
215-H, Chkalova st., yard of the building near the boiler-room
1 Apricot 15
12 1 Carrying out repair works in the security zone of the heat supply
Demolition
2 Cherry 25
22 1 Demolition
3 Maple 10 12 1 Demolition
150
4 Cherry 25 20,24 2 network Demolition
244B, Pohranichna st., rear
1
Sophora
52
1 Carrying out
repairs
55 52 1 Carrying out
repair works in
the security zone
of the heat supply
network
Demolition
2 Maple 15
18 1
Carrying out repair works in the security zone of the heat supply network
Demolition
244B, Pohranichna st., yard
1 Mulberry many-stemmed
7 5-10 1 Carrying out
repair works in
the security zone
of the heat supply
network
Demolition
242B, Pohranichna st.,
1 Acacia 40 зо 1 Emergency: 100% dry
Demolition
The yard between thebuildings 244 aAnd 242V in Pohranichna st.
1 Acacia 45 40,4
7
2 Dry branches. Carrying out repair works in the security zone of the heat supply network
Pruning and sanitary pruning
246А,Pohranichna st., yard
1 Acacia 45 1 Emergency: inclination to the heating pipeline
Demolition
. 8 Tetralna st., from th side of Teatralna st.
1 Cherry 20 15 1 Carrying out repair works in the security zone of the heat supply network
Demolition
2 Poplar pyramidal 45 50,4
5 2 Demolition
3 Apricot ЗО 20,3
0 2 Demolition
6, Teatralna st., yard from the side of building 4 in Teatralna st.
1 Plane tree 45 33,2
6
2 Carrying out repair works in the security zone of the heat supply network
Demolition
1 Plane tree 45 33,2
6 2 Carrying out
repair works in the security zone of the heat supply network
Demolition
2
Poplar pyramidal
45
45 2
Demolition
4-А Teatralna st., rear
1 Quince
10 3-7 1 Carrying out repair
works in the security zone of the
Demolition
2 Apricot 20 14,10,15,
17 4 Demolition
151
3 Pear 10
6 1 heat supply network Demolition
2-К Poliarnyi lane along the roadway
1 Nut tree 35
29,30,35 3
Carrying out repair works in the security zone of the heat supply network
Demolition
Zavodska ploshcha st. along the roadway
1 Poplar pyramidal 15
13,10,9 3
Carrying out repair works in the security zone of the heat supply network
Demolition
Green plantations to be removed:
Total ____14 _____trees _____12 _______bushes are to be replanted
Total ______197 ______trees___0___bushes______ are to be cut
Totally are removed:
Trees__one___units
Conclusion of the commission: in order to prevent an emergency situation we consider it is
advisable to carry out works on demolition of trees of species composition in the amount of 197
units and pruning of trees of 5 species composition , tree replantation - 14 units, bushes - 12 units.
In accordance with paragraph 1cl. 6 of the Procedure for removal of trees, bushes, lawns and flower
beds in settlements, approved by the Cabinet of Ministers of Ukraine Decree No 1045 dated
August 01,2006 with amendments dated July 03, 2013 № 466 no work is being done.
Works should be performed by the organizations of the green economy, which are completed with
special equipment and mechanisms, by qualified specialists, on the terms of the contract in the
presence of a representative of the administration of the district of Mykolaiv city council or a
specialist of ecology department of the housing and communal economy department of Mykolaiv
city council in accordance with the fixing of the territories.
The Head of the commission V. H. Korchahov
T.A. Skybytska
O.I. Portnenko
A.V. Subbotina
State Inspector of Environmental Protection
152
Annex 8
RPMU structure Translation from Ukrainian
OBLASNE PUBLIC UTILITY
“MYKOLAIVOBLTEPLOENERHO”
ORDER
“__“______2017 MYKOLAIV
No_________
On amendments to the order dated 10.02.2017 No 127/1
on the composition of the Regional Project Management Group
"Ukraine District Heating Energy Efficiency Project"
In order to organize performance and practical implementation activities of the project "Ukraine
District Heating Energy Efficiency Project"
I ORDER
1. Make changes to the composition of the Regional Project Management Unit "Ukraine District
Heating Energy Efficiency Project"
2. I shall personally oversee the implementation of this order
Acting director
Lohvinov M.Yu.
APPROVED
The order of acting director
OPU «Mykolaivoblteploenerho» of " " 2017 No
COMPOSITION
of the Regional Project Management Unit
"Ukraine District Heating Energy Efficiency Project"
Chairman of the RPMU
Melnykov Vladyslav Olehovych procurement specialist
Members of the RPMU
Kletsov Yehor Serhiiovych specialist in financial management
Berko Volodymyr Mykhailovych organizational specialist
Hreshnova Tetiana Mykolaivna environmental specialis
Zhukovskyi Viktor Leonidovych marketing specialist
Secretary of the RPMU: Sokol Tetiana Oleksandrivna
Acting director Lohvinov M.Yu.
153
Annex 9
Minutes of public hearing
translated from Ukrainian
MINUTES
of public hearings as to the discussion of the Environmental and Social Management
Plan of OPU " Mykolaivoblteploenerho " within the framework of Ukraine District
Heating Energy Efficiency Project
December 26, 2013 Mykolaiv city
Venue: Mykolaiv city , 166, Lenin Ave., Assembly Hall of Teacher's Building, 16-30 local time.
Present:
From OPU “Mykolayivoblteploenerho”:
Bereznytskyi Volodymyr Mykolaiovych – the Head;
Pisnia Volodymyr Oleksandrovych - Chief Engineer;
Voronov Ihor Hennadiiovych - Chief of TDD (technical due diligence);
Kotov Olexandr Sviatoslavovych - Head of the Capital Construction Sector;
Arkushenko Olena mykolaivna - engineer of the 1st category
Zhuchkova Olena Dmytrivna - the chief economist;
Hrabovska Natalia Vasylivna - Leading economist of FEV.
From the public - 206 people (the lists of participants is in Annex 1 to this protocol).
Agenda:
1. Approval of the agenda and rules of hearings
2. Implementation of the Investment Ukraine District Heating Energy Efficiency Project by the
OPU " Mykolaivoblteploenerho "
3. Main directions of development of OPU " Mykolaivoblteploenerho ".
4. Review and discussion of the Environmental and Social Management Plan.
1. Approval of the agenda and rules of hearings
They listened about approval of the agenda and rules of hearings.
They performed
Zhuchkova O.D.
- I propose to approve the following agenda for public consultations:
154
1. Implementation of the Investment Ukraine District Heating Energy Efficiency Project by the
OPU " Mykolaivoblteploenerho”
2. Main directions of the development of OPU " Mykolaivoblteploenerho”.
3. Review and discussion of Environmental and Social Management Plan.
- I propose the following regulation of public consultations:
report - up to 30 minutes;
question - up to 5 minutes;
answers to the question - up to 10 minutes.
They approved
To approve the following agenda for public consultations:
1. Implementation of the Investment Ukraine District Heating Energy Efficiency Project by the
OPU " Mykolaivoblteploenerho”.
2. Main directions of the development of OPU " Mykolaivoblteploenerho”.
3. Review and discussion of the Environmental and Social Management Plan.
- I propose the following regulation of public consultations:
report - up to 30 minutes;
question - up to 5 minutes;
answers to the question - up to 10 minutes.
1. Implementation of the Investment Ukraine District Heating Energy Efficiency Project by
the OPU " Mykolaivoblteploenerho”.
They listened
On the implementation of the Investment Ukraine District Heating Energy Efficiency Project by
the OPU " Mykolaivoblteploenerho” (speaker Zhuchkova O.D.);
About the main directions of work of OPU " Mykolaivoblteploenerho”, achievements and
prospects of development through the introduction of measures that will be financed at the
expense of World Bank credit (speaker Bereznytskyi V.M.).
They performed
1. Starenkov N.M. By what criteria were the objects selected for the reconstruction?
Bereznytskyi V.M. answered the question - The objects that will be reconstructed are selected on
the basis of an analysis of their performance, equipment wear, degree of moral and physical
deterioration.
2. Reznik L.S. What are the most important and promising measures included in the Project?
155
Pisnia V. O. answered the question - The selection of measures to be financed by the World Bank
took into account efficiency and payback indicators. Therefore, all measures included in the
Project are very important and promising, both technically and economically.
3. Panska I.Yu. How will the implementation of the Project affect the city residents?
Bereznytskyi V.M. answered the question - Due to the work on the reconstruction of boiler houses
and heating networks dispatching the reliability of the heat supply system will increase. The
introduction of individual heat stations, automation systems will improve the quality of heating
and hot water services.
4. Pozdniakov V.A .Who will restore the asphalt pavement and for whose money?
Bereznytskyi V.M. answered the question - Asphalt-concrete restoration works will be performed
by the Contractor, who performs the reconstruction works. The cost of the work is taken into
account in the estimates of the World Bank's lending activities.
They listened
about the project of the Environmental and Social Management Plan (speaker Arkushenko O.M.).
They performed
1. Polishchuk N.M. Will the construction of a cogeneration unit increase the noise level?
Pisnia V. O. answered the question - The noise level does not exceed the permitted limits. To
reduce it, a noise-absorbing casing is installed on the generator set to ensure acceptable vibration
and noise.
Zhuchkova O.D. performed - I propose to approve the Environmental and Social Management
Plan.
They voted unanimously.
They approved :
To approve the Environmental and Social Management Plan.
Head of consultations Zhuchkova O.D.
Secretary of consultations Hrabovska N.V.
156
Annex 10
Announcement of public hearing in newspapers
157
158
Annex 11
Announcement results