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ABB IndustrialIT EMS
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Energy Management System
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Power Management for the Oil & Gas, Petroleum and Chemical Industries
IndustrialIT EMSPower Management Module
IndustrialIT EMS – Power Management Module* Electrical Process * System Configuration* Power Management Functionality * References* Benefits
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Critical LoadsLimited In-plant GenerationInsufficient Reliability of Public Grid
Qualification Criteria for ABB Power Management
Load Shedding
Several GeneratorsContracted Power Importation Power Control
Different Electrical Operational Configurations possible Mode Control
Complex Distribution Networks“Local only” Control facilities SCADA
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Why ABB Power Management?Thorough understanding of the electrical process+15 years experience in implementing Power Management Systems in many projects (green- and brown-field plants)Standard software, well documented, tested, proven technologyFast Response Time for Load Shedding, Mode Control, Power Control, Re-accelerationHigh Resolution and Accuracy of Sequence of Event recordingSolution complies with class 3 EMC immunity Single responsibility: One supplier for Power Management System integrated with Protection, Governor, Excitation, Tap Changer, Motor Control Centre, Variable Speed Drive, etc.
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M MMM M MMM MMM M MM MM M MMM
M MMM
G G
M MM M
G G
M MM M
6 kV
GGG GGG
MM
33 kV
A B B T r an s m i t O yN e t w o r k P a r t n e r
FEEDER TERMINAL REF5 41A B B N et w or k P a r t ne r
Uaux = 80. . .265 Vdc/ac
fn = 50 Hz
In = 1/5 A ( I)
1MR S xxxxxx
98150U n = 100/110 V (U)
U on = 100/110 V (U o)
I on = 1/5 A ( Io)
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A B B Tr a n s m i t OyN e t w or k P a r t ne r
FEED ER TERMIN AL R EF5 41A B B N e t w o r k P a r t n e r
U aux = 80.. .265 Vdc/ ac
f n = 50 H z
I n = 1/5 A (I )
1M RS xxxxxx
98150Un = 100/ 110 V (U )
Uon = 100/ 110 V ( Uo)
Ion = 1/ 5 A (I o)
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A B B Tr a n s m i t OyN e t w or k P a r t ne r
FEED ER TERMIN AL R EF5 41A B B N e t w o r k P a r t n e r
U aux = 80.. .265 Vdc/ ac
f n = 50 H z
I n = 1/5 A (I )
1M RS xxxxxx
98150Un = 100/ 110 V (U )
Uon = 100/ 110 V ( Uo)
Ion = 1/ 5 A (I o)
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A B B Tr a n s m i t OyN e t w or k P a r t ne r
FEED ER TERMIN AL R EF5 41A B B N e t w o r k P a r t n e r
U aux = 80.. .265 Vdc/ ac
f n = 50 H z
I n = 1/5 A (I )
1M RS xxxxxx
98150Un = 100/ 110 V (U )
Uon = 100/ 110 V ( Uo)
Ion = 1/ 5 A (I o)
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A B B Tr a n s m i t OyN e t w or k P a r t ne r
FEED ER TERMIN AL R EF5 41A B B N e t w o r k P a r t n e r
U aux = 80.. .265 Vdc/ ac
f n = 50 H z
I n = 1/5 A (I )
1M RS xxxxxx
98150Un = 100/ 110 V (U )
Uon = 100/ 110 V ( Uo)
Ion = 1/ 5 A (I o)
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G G G
400 V
Typical Electrical Network of IndustriesAB
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Fast Functions are performed by Controllers:Load Shedding / Re-Acceleration / Re-StartingPower ControlMode Control
MCC
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
FEEDER TERMINAL REF541A B B N e t w o r k P a r t n e r
Ua ux = 8 0. . .26 5 Vdc /a cfn = 5 0 Hz
In = 1 /5 A (I )
1 MRS xx xx xx9 8 15 0Un = 1 00 /11 0 V (U)
Uon = 10 0 /1 10 V (Uo)
Ion = 1 /5 A (Io)
9 5 09
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
FEEDER TERMINAL REF541A B B N e t w o r k P a r t n e r
Ua ux = 8 0. . .26 5 Vdc /a cfn = 5 0 Hz
In = 1 /5 A (I )
1 MRS xx xx xx9 8 15 0Un = 1 00 /11 0 V (U)
Uon = 10 0 /1 10 V (Uo)
Ion = 1 /5 A (Io)
9 5 09
Substation N
S800 I/O
Serial links to AVR
Serial Links to Emergency Diesel Generator
Serial links to Governor
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FEEDER TERMI NAL REF541A B B N e t w o r k P a r t n e r
Ua ux = 80 . ..2 65 Vdc /acfn = 50 Hz
In = 1/5 A (I)
1M RS x xxx xx98 15 0Un = 10 0/11 0 V (U)
Uo n = 1 00 /1 10 V (Uo )
Ion = 1/5 A (Io)
95 0 9
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
FEEDER TERMI NAL REF541A B B N e t w o r k P a r t n e r
Ua ux = 80 . ..2 65 Vdc /ac
fn = 50 Hz
In = 1/5 A (I)
1M RS x xxx xx
98 15 0Un = 10 0/11 0 V (U)Uo n = 1 00 /1 10 V (Uo )
Ion = 1/5 A (Io)
95 0 9
ACS 601
TCP/IP Network
X-terminals(Process DCS)
IndustrialIT EMS Power Management Overview
ControlIT
Substation 2Substation 1 Substation Z
OperateIT EngineerIT
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Power Management FunctionalityLoad SheddingActive and Reactive Power ControlMode Control Supervision, Control and Data Acquisition (SCADA)Re-Acceleration / Re-StartingSynchronisation
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Load SheddingActive and Reactive Power ControlMode ControlSupervision, Control and Data Acquisition (SCADA)Re-Acceleration / Re-StartingSynchronisation ?
Without Load SheddingWith Load Shedding
Power Management Functionality
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Load Shedding: the TypesFast Load Shedding on Loss of Power ResourcesLoad Shedding on Frequency DropSlow Load Shedding on OverloadSlow Load Shedding for Peak ShavingManual Load Shedding
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Load Shedding: KeywordsFastExactFlexibleCoordinatedDeterministicSecurity and ReliabilityAccurate Event LoggingOperator GuidanceIndependent Back-up System
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Load Shedding Example Displays1. Load Shedding Control2. Load Shedding Islands3. Load Shedding Overview
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Load Shedding Control Display
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Load Shedding Islands Display
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Load Shedding Overview Display
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Power Management FunctionalityLoad SheddingActive and Reactive Power ControlMode Control Supervision, Control and Data Acquisition (SCADA)Re-Acceleration / Re-StartingSynchronisation
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MinimumExcitation
Rotor Instability Line
OperatingMinimum
Turbine Maximum
P
Q-LagQ-Lead
Maximum Excitation(Rotor Heating)
MVA-circle(Stator Heating)
MinimumPF-Leading
MinimumPF-lagging
Display Generator Capability Diagram
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P
Q-LagQ-Lead
Active and Reactive Power ControlActive Power Sharing:
Efficient Power GenerationPower Exchange Optimization (Power Demand Control)Avoid Component OverloadingSpinning Reserve OptimizationStandby Optimization
Reactive Power Sharing:Achieve Stable OperationPower Factor Optimization
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Power Control Example Displays1. Calculated Control Margins2. Generator Capability Diagram3. Grid Capability Diagram4. Maximum Demand Monitoring5. Tie-line Monitoring6. Mark V Vibration7. Mark V Gas Turbine Generator Overview
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Calculated Control Margins Display AB
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Generator Capability Diagram Display Overview of the control mode of the turbine/generator unit
Overview of the control mode of the turbine
Overview of the control mode of the generator
Overview of the measurements and the setpoints
Overview of the operation of the network
Working point of the turbine and the generator
10 Dynamic keys for operator control
Setpoint to the turbine and the generator
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Grid Capability Diagram Display AB
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Maximum Demand Monitoring Display
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Tie-line Monitoring Display
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Mark V Vibration Display
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Mark V Gas Turbine Generator Overview Display
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Power Management FunctionalityLoad SheddingActive and Reactive Power ControlMode Control Supervision, Control and Data Acquisition (SCADA)Re-Acceleration / Re-StartingSynchronisation
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for Generatorsfor Turbinesfor Transformersfor Switchboards
Mode ControlAB
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Mode Control Example Display
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Power Management FunctionalityLoad SheddingActive and Reactive Power ControlMode ControlSupervision, Control and Data Acquisition (SCADA)Re-Acceleration / Re-StartingSynchronisation
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Clearly Structured PresentationControls - Select Before ExecuteStatus IndicationsConsistency AnalysisTime Tagged Events (1 ms resolution)Alarm Handling, Reports, TrendsSupervision and Self DiagnosticsSingle Window concept
Supervision, Control and Data AcquisitionAB
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Integration with Supervisory SystemsPlant Information Systems - MISRegional Dispatch CentresPower Generation Coordination CentresEnergy TradingUtility Management SystemsProcess DCS
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Integration with Subordinated systemsSatellite Time Receiver (GPS)Alarm AnnunciatorsSF-6 Density Monitoring UnitsMotor Control CentresBattery ChargersMeteorological StationsDiesel GeneratorsGenerator- and Turbine controllerProtection and Control Units
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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
FEEDER TERMINAL REF541A B B N e t w o r k P a r t n e r
Uaux = 80.. .265 Vdc/acfn = 50 Hz
In = 1/5 A (I)
1MRS xxxxxx98 15 0Un = 100/110 V (U)
Uon = 100/110 V (Uo)
Ion = 1/5 A (Io)
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CB SPRING READY
CB TRUCK OUT
TEMPERATURE HIGH
SF 6 GAS DENSITY
LOADSHEDDED
Measured ValuesIL1 Amps 800IL2 Amps 803IL3 Amps 801Io 0Iob 0U12 kV 20U23 kV 20U31 kV 20U1 kV 11.5U2 kV 11.5U3 kV 11.5Uo - Volts 0
Use Up and Down to scroll view
EventsNOC3Low: E3
99-07-06 18:34:23:230
NOC3Low: E299-07-06 14:25:52:720
CB-HCU2: Opened99-07-06 14:02:48:430
Use C-button to clear Events
Measuring of U,I,E, calculation of P & QMonitoring & ControlInterlockingsAlarm AnnunciationEvent Time TaggingDisturbance RecordingLocal Storage of trip-eventsSerial Communication to Power Management System
Integrated Protection & Control UnitsProtection
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Power Management FunctionalityLoad SheddingActive and Reactive Power ControlMode ControlSupervision, Control and Data Acquisition (SCADA)Re-Acceleration / Re-StartingSynchronisation
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Re-StartingTriggered by Load Shedding or UndervoltageIndividual MotorsPriority per MotorMax. allowed Time Delay per MotorNetwork Configuration CheckNetwork Restoration
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Power Management FunctionalityLoad SheddingActive and Reactive Power ControlMode ControlSupervision, Control and Data Acquisition (SCADA)Re-Acceleration / Re-StartingSynchronisation
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Automatic Synchronisation after Boiler TripAutomatic Synchronisation initiated by OperatorSemi Automatic SynchronisationManual Synchronisation
Synchronisation
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Synchronisation Example Displays1. Synchronisation Overview2. Synchronisation Display
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Synchronisation Overview
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Synchronisation Display AB
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Power Management Functionality: SummaryLoad SheddingActive and Reactive Power ControlMode ControlSupervision, Control and Data Acquisition (SCADA)Re-StartingSynchronisationCircuit breaker ControlTransformer ControlMotor ControlGenerator ControlNetwork Configuration Determination
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ReferencesHAR, refinery in GreeceShell Pernis refinery in the NetherlandsShell BLNG in BruneiShell PDO in OmanHoogovens, steel-industry in the NetherlandsThaiOil, ThaiLube, RRC refineries in ThailandLa Roche, CHP in UKPetrobras: REPAR, REDUC, RLAM refineries in BrazilReliance: Hazira, Jamnagar & Haldia refineries in IndiaAFPC, Omar refinery in SyriaMLNG Satu, Dua & Tiga in MalaysiaStatOil Gullfaks & BP Amoco Valhall in Norway
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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
FEEDER TERMINAL REF541A B B N e t w o r k P a r t n e r
Uaux = 80...265 Vdc/ac
fn = 50 Hz
In = 1/5 A (I)
1MRS xxxxxx
98150Un = 100 /110 V (U)
Uon = 100/110 V (Uo)
Ion = 1/5 A (Io)
9509
ABB Power Management allows you to: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 costsPeak-shavingRe-active Power Control & Sharing
?Minimize operational costsDecreased number of operatorsEvent driven maintenanceSingle Window concept
Reduce investment costsMinimized cabling and engineeringOptimized network design