ABB LCC ECS - 1 © 2004 Industrial IT Power Management System Scope & Value Proposition Lead...
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ABB LCC ECS - 1 © 2004 Industrial IT Power Management System Scope & Value Proposition Lead Competence Center Electrical Control Systems
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Transcript of ABB LCC ECS - 1 © 2004 Industrial IT Power Management System Scope & Value Proposition Lead...
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IndustrialIT
Power Management SystemScope & Value Proposition
Lead Competence CenterElectrical Control Systems
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Power Management – Introduction (1)
What ? Why? The control of electrical switchgear and equipment
To optimise electricity generation and usage and to prevent major disturbances & plant outages (blackouts)
Where is it required ?
In the context of a green-field installation
a major extension or modification of a brown-field plant
In plants with a substantial electrical load (from 30 MW upwards)
In plants with major electricity generation facilities
In cases where there is no or a poor grid supply or the need to limit imported power
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Power Management – Introduction (2)
In which industries ? Oil and Gas – Onshore & Offshore
Onshore Production
Offshore Platforms and FPSO (Floating Production Storage & Offloading)
Refineries
LNG Complexes
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Petrochemical plants
Large Industrial Complexes
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Power Management – Introduction (3)
Power Management business drivers Prevention of Blackouts
Reduction of Energy Costs
Reduction of Investment Costs
Reduction of Operational Costs
Environmental, Health & Safety (EH&S) Risk Management
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ABB’s Answer to Power Management ABB’s IndustrialIT PMS (Power Management System) is a software
solution targeted at ensuring the reliability of energy supply
and enabling efficient and economic energy use
The solution is fully IndustrialIT Enabled 800xA Extended Automation System AC800M Controller Operations (Process Portal)
The solution is primarily intended for industries operating in extreme, high-demanding and hazardous
environments such as the Oil & Gas (Upstream & Downstream) and Petrochemical Industries
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Critical loads
Limited in-plant generation
Insufficient reliability of grid / sea cable
Main Operational Issues Addressed by PMS
Load Shedding} Several generators
Power-sharing with other plants/sitesPower Control}
Different electrical operational
configurations possibleMode Control}
Generation & distribution networks
“Local only” control facilitiesSCADA}
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4 IndustrialIT Power Management System
LNGPlants
StorageTerminals
FloatingProduction
Onshore Production
Jobbers
OilDistribution
PowerPlants
ChemicalPlants
Main Application Areas in O&G Supply Chain
O>ankers
SubseaProduction
Marine
Loading
SalesTerminal
Consumer Mfg
SalesTerminal
SalesTerminal
Drilling
OffshoreProduction
Boosting Station Refineries
Chemical Terminals
Gas Plants
Pipelines & Terminals
Gas Distribution
Lube OilPlants
Primary Distribution ProcessingProduction Secondary Distribution
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4 Limit electrical import during peak time and reduce peak based charges
Power Control, Standby Optimization, n+1 Criteria, SCADA, etc. are performed by
the system and not by the operators Maintaining a good Power Factor
Optimizing the stability of the operation of the electrical generation- and distribution network
of a plant
The total accumulated switched-off shortcurrents by a circuitbreaker or
the number of generator starts are a trigger for maintenanceNo need for big oversizing of primary equipment
In case of a shortage of electrical power, secure the available power to critical loads by switching
off the none important loads according to dynamic load tables
The Human Machine Interfaces for all the electrical sub-systems can be integrated in the
Energy Management SystemSerial interfaces with protection & control units
avoid spaghetti wiring & cable ducts
A B B T r a n s m i t O yN e t w o r k P a r t n e r
F E E D E R T E R M IN A L R E F 5 4 1A B B N e t w o r k P a r t n e r
U a ux = 80 . . .2 65 Vd c / ac
fn = 5 0 H z
In = 1 /5 A ( I)
1 M RS xx x x x x
9 8 1 5 0U n = 1 0 0 /1 1 0 V (U )
U o n = 1 0 0 /1 1 0 V (U o )
Io n = 1 / 5 A ( Io )
9 5 0 9
PMS – Value Proposition Avoid black-outs (up to 500 kUSD / hour)
Power control including voltage control, frequency control, sharing power among generators and tie-line(s).
High Speed Consistency Load Shedding (< 100 ms.)
Reduce electricity costs Peak-shaving Re-active Power Control & Sharing
? Minimize operational costs
Decreased number of operators Event driven maintenance
Single Window concept Reduce investment costs
Minimized cabling and engineering Optimized network design
Transformer Overload Management
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Differentiators
Proven experience in the area of Power Management in the Oil & Gas and Petrochemical Industries since 1986
Superior solution for high-demanding environments
High-speed Load Shedding, Mode Control, Power Control, Re-acceleration (40-100 milliseconds) is superior to that of competitors
Ability to answer highly complex power management requirements incl. multi-plant power management control
ABB total scope of supply of PT and AT Products & Solutions Global support through various Main Execution Centers
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PMS Global Customer References
