m. g. raoot , p. pentayya (wrldc) and s. a. khaparde (indian institute technology bombay)
DESCRIPTION
Operational Experience In Managing Contingencies at Western Regional Load Despatch Center (WRLDC), India. M. G. Raoot , P. Pentayya (WRLDC) and S. A. Khaparde (Indian Institute Technology Bombay). IEEE Power Engineering Society General Meeting, July 2009. Presentation Outline. - PowerPoint PPT PresentationTRANSCRIPT
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Operational Experience In Managing Contingencies
at Western Regional Load Despatch Center (WRLDC), India
M. G. Raoot, P. Pentayya (WRLDC) and
S. A. Khaparde (Indian Institute Technology Bombay)
IEEE Power Engineering Society General Meeting, July 2009
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Presentation Outline
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Western Region Grid Overview
Overview of EMS implementation at WR
Contingency Analysis Methodology
Contingency Management Methodology
Western Region Grid – A Case Study
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Indian Power Control Centers
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Total installed capacity 147 GW(Source: CEA report
http://www.cea.nic.in/power_sec_reports/Executive_Summary/index_Executive_Summary.html)
NLDC - 1
RLDC - 5
SLDC - 31
ALDC - 100+
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Hierarchy of Control Centers The Unified Load Despatch and Communication
(ULDC) scheme sets up the hierarchy of control centers in India
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11
55
3131>
100>
100
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11,700 MW
2,650 MW5,850 MW
4,900 MW
1,200 MW3,700 MW
SOUTHERN REGION
WESTERNREGION
NORTHERN REGION
NORTH-EASTERN REGION
EASTERN REGION
Inter-regional Transfer Capacity present - 22800MW 37,000 MW by 2012
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Installed Capacity 45987 MW
Max Demand Met 31608 MW
Max Energy Met 690 MU
Demand Shortage 20%
Energy Shortage 14 %
Gujarat
Madhya Pradesh
Maharashtra
GOA
Chhatisgarh
OVERALL POWER SCENARIO OF WESTERN REGION
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WESTERN REGION-31.3.09
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Look-up Tables Remedial Action module is not available Alternative is to use Look up tables Look up tables provide following information
What are the expected contingencies? What is the system behavior for each contingency? Corrective actions to be taken
What actions ? Which order ? (Ranking Criteria ?) Which agency ?
Look up tables are prepared after extensive offline studies on the system using PSS/E
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Co-ordination for Contingency Management: Via Look-up Tables Multiple agencies are involved in system operation
Common real-time system model is needed for all
Studies carried out by WR for all major contingencies
Internal threats (Trippings inside WR)
External threats (Trippings outside WR)
The study cases and results are made available for all agencies for verification
Workshops conducted to disseminate look up tables
Corrective actions are agreed upon by all agencies
Permissible load angles for extremes of corridors determined through stability studies
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Objective:To make Look-up Tables (Example below)
Contin-gency
System Behaviour
RankCorrective Action required to be taken
Agency to take action
400kV Itarsi-Indore ckt. I & II
• Voltage decay (collapse at Indore)
• Critical L/L on Itarsi-Khandwa corridor
1 Export to NR via HVDC Vindhyachal to be done
WRLDC
2 MP to reduce drawl at Indore/Nagda
MPSEB
3 GEB to reduce drawal GEB
4SSP/ISP generation if possible could be brought immediately
MPSEB, GEB, and WRLDC
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Ranking of Corrective Actions is based on 1) Sensitivity / Impact of the Corrective Action2) Risk assessment based on time taken for implementation and
no. of agencies involved in co-ordination loop
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Presentation Outline
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Western Region Grid Overview
Overview of EMS implementation at WR
Contingency Analysis Methodology
Contingency Management Methodology
Western Region Grid – A Case Study
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Interfaces Between EMS Subsystems
GDC
IS
SCADA
HistoricalSubsystem
PNA
COPS
SDF/ WIF
Generator, Tieline, Frequency Measurements
Generator Controls
Actual Load
Generator Schedules,Load Schedule
Generator Penalty Factors,
Security-Constrained
Economic Basepoints
Interchange Scheduling Composites
Production/Fuel Cost, AGC Performance
Interchange Schedules
Interchange Transactions
Forecasted Load
Request for Security-
Constrained Dispatch
Weather Rainfall
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EMS (the journey so far…..)
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1
2
3
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EMS (the journey so far…..)
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4
5
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Salient Features of EMS in WR
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The entire Western regional grid has been modeled as per actual.
Uniform single model in RLDCs and SLDCs.
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Model Verification and SE tuning
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SE working status
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SE working satisfactorily Tele-metered and estimated data with in permissible
limits Real-time network analysis (RTNA) study run at least
twice a day Day-off peak @ 1200 hrs Evening peak @ 1900 hrs
Converged RTNA made available for studies RTNA also run in case of
Contingency Outage clearance
Corrective measures taken for security enhancement
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Advantages of EMS in grid operation
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Outages can be planned better
The Contingency Analysis (CA) module of EMS helps in
better emergency handling online. It would facilitate quicker
restoration.
The State Estimator (SE) output, properly tuned, gives
proper estimate of the grid measurands which can be used
during non-availability of communication channels and grid
operation is not affected.
The SCADA system also improves due to continuous
availability, comparison and improvement in EMS output
thereby improving the decision making process in real-time.
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Presentation Outline
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Western Region Grid Overview
Overview of EMS implementation at WR
Contingency Analysis Methodology
Contingency Management Methodology
Western Region Grid – A Case Study
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Contingency Analysis (CA)
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Contingency Analysis (CA)
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• The CA can be run based on the following modes
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Contingency Analysis Execution Modes
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Execution Status of Contingency Case
CS – Contingency Selection, CA - Contingency Analysis, RA – Remedial Action
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Composite Severity Index (SI) indicator
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Ranking of contingencies based on SI SI = Weighted Sum of percentage limit excursions
Voltage Violations Contingencies
compared based on voltage degradation profile
Corresponding ranks displayed
Branch Violations Contingencies
compared based on branch loading violations
Corresponding ranks displayed
Voltage CA Branch CA
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Presentation Outline
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Western Region Grid Overview
Overview of EMS implementation at WR
Contingency Analysis Methodology
Contingency Management Methodology
Western Region Grid – A Case Study
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Contingency Evaluation
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Presentation Outline
WRLDC, Mumbai27
Western Region Grid Overview
Overview of EMS implementation at WR
Contingency Management Methodology
Western Region Grid – A Case Study
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WRLDC, Mumbai28
• Due to Concentration of generation in the Eastern part of the grid and major load centers in the Western part of the grid, there is bulk active power transmission from Eastern to Western part over long distances primarily through three critical flow gates viz;
1. 400kV Chandrapur-Parli T/C2. 400kV Koradi-Bhusawal D/C3. 400kV Itarsi-Khandwa-Dhule D/C
Case Study:Contingency Management in WR Grid
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• On 25.05.2008, Western Regional grid was running in an
integrated manner and catering a demand of about 25000
MW at 1130 hours.
• The import was around 1200 MW from ER, 1400 MW from
NR, 750 MW was exported to SR
• Due to rains in NR and ER, the frequency profile was on the
higher side in the NEW grid
• Therefore economy exchanges were transacted with SR
(Power wheeled through WR) and consumed by WR due to
low UI rates
Base Case Scenario
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Flow Gates Loaded Close to Limits
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It was found that around 15 lines are operating near theirfull capacity and angle limits with reduced margins.
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Following contingencies were chosen for security assessment
400kV C’pur-Parli S/C outage
400kV C’pur-Parli D/C outage
400kV C’pur-Parli T/C outage
400kV Koradi-Bhusawal S/C outage
400kV Koradi-Bhusawal D/C outage
400kV Itarsi-Khandwa S/C outage
400kV Itarsi-Khandwa D/C outage
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Contingency Analysis Results
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• The contingencies of Chandrapur-Parli D/C, Chandrapur-Parli T/C and Koradi-Bhusawal D/C outage are extreme and the programme did not converge because the grid may not be able to sustain these contingencies under the same power system conditions.
• As these contingencies are fatal, the composite severity index by voltage / branch / composite does not show any value. However, they are ranked at first in the order of severity of contingencies.
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Contingency Analysis Results
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• The contingency of Itarsi-Khandwa D/C outage has been found to be harmful by CA which entails system operators to take emergency measures for restoring back the normalcy.
• The composite severity index order by voltage comes to be 4150.8 whereas the composite severity index order by branch comes to 447526.5 which is ranked as the most severe contingency after the first three most severe contingencies as explained in the above paragraph.
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Contingency Analysis Results
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Similarly, other contingencies like Koradi-Bhusawal S/C outage, Chandrapur-Parli S/C outage and Itarsi-Khandwa S/C outage have been found harmful by CA which prompts operators to take emergency action.
They are also ranked subsequently based on composite severity index order by voltage and by branch violations
The corrective actions to be taken are as per the Look-up tables shown below (as we do not have Remedial Action – RA module)
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Look-up Table for Koradi-Bhusawal SC Outage
Contin-gency
System Behaviour
RankCorrective Action required to be taken
Agency to take action
400kV Koradi-Bhusawal-SC
• Critical line loading on ckt.II
• Large angular separation between Koradi & Bhusawal
• Low voltage at Bhusawal
1 Open Bhusawal-Aurangabad MSEB
2 Increase Koyna generation atleast by 500 MW
MSEB
3
Maximise power flow on C’pur-Padghe HVDC bipole may be upto 1900 MW (maximum overloading capacity)
MSEB
4 Increase export to SR WRLDC
5 Koradi/Chandrapur generation to be reduced
MSEB
6 Load shedding at Kalwa & Padghe area.
MSEB
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Look-up Table for Chandrapur – Parli SC Outage
Contin-gency
System Behaviour
RankCorrective Action required to be taken
Agency to take action
400kV Chandrapur – Parli SC
• Critical Loading on surviving ckts
• Critical Loading on Koradi-Bhusawal corridor
• Large angular separation between Chandrapur and Parli lines
1 Maximise power flow on C’pur-Padghe HVDC bipole
MSEB
2 Export to SR to the max. extent WRLDC
3Koyna gen. to be picked up immediately and increased to the max.level above 1000 MW
MSEB
4 MSEB drawal to be reduced MSEB
5 MSEB to take up load shedding at Parli, Lonikhand, karad etc.
MSEB
6 C’pur generation to be reduced if frequency is more than 49 Hz
MSEB
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Conclusion
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• It is evident from the above case study that CA module of PNA extends valuable inputs to the system operators in evaluating the credible contingencies so that preventive action can be planned well in advance to ensure the security of the grid.
• It is therefore important that CA is regularly run during clearing of important shut downs in the critical flow gates of Western region and for evaluating the effect of N-1 contingencies during alert grid conditions etc.
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