lecture 49 ems
TRANSCRIPT
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Energy Management Systems (EMS)
Dr M S R Murty
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SCADA System• Supervisory Control and Data Acquisition (SCADA)
Supervisory Control => Remote Control of Field DevicesData Acquisition => Monitoring of Field Conditions
• SCADA System ComponentsMaster Station => System “Nerve Center” Located inElectric Utility Energy Control Center (ECC);Dispatchers Use to Monitor and Control Power System
• Field Devices => Needed Wherever There is Data to be Sent to Master Station (Substations, Lines or Feeders)
• Communications => Links Master Station with Field Devices; Continuous 24 by 7 Operation
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SCADA SYSTEM CONFIGURATION
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Energy Control Center
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Energy Management System (EMS) Primary Functions
• Network Configuration / Topology Processor• State Estimation• Contingency Analysis• Three Phase Balanced Operator Power Flow• Optimal Power Flow• Dispatcher Training Simulator
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• Voltage Reduction• Load Management• Power Factor Control• Two‐Way Distribution Communications• Short‐Term Load Forecasting• Fault Identification / Fault Isolation / Service Restoration
• Interface to Intelligent Electronic Devices (IEDs)
Distribution Automation System (DAS)Primary Functions
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Energy Management System: Applications
Operations Training
LoadManagement Energy
Management
SCADA AutomaticGeneration
Control
Training Simulator
SecurityControl
EMS Functions
Power System Simulation
Instructional System
DataAcquisition
Supervising Control
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SCADA Functions
• Data acquisition.• Supervisory Control.• Tagging: Identifying a device that should not be operated.• Alarms: Analysis, Chronology.• Logging.• Load Shedding• Trending.
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SCADA Computer
• Downloading RTV files.• Conversion of engineering units.• Management of communication circuit configuration.• Detection & ciation of alarms.• Sequence of events recording.• Respond to operator requests for information display,
execution of control action, etc.
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Automatic Generation Control (AGC)
• Major functions:a) Load Frequency Control (LFC).b) Economic Dispatch (ED).
• Objectives of Load Frequency Control:
i) To maintain frequency at scheduled value.ii) To maintain net power inter-changes with
neighboring control areas at scheduled values.iii) To maintain power allocation among generated
units at economic values.
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Economic Dispatch
• Minimum cost dispatch : Equal incremental cost criteria
• ED Algorithm(Thermal) considers : Generator incremental
Costs- Penalty factorsTransmission loss factors
• For Hydro : ‘Water worth’ concept is used.
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LFC and ED functions in real time:
• LFC : Every few seconds
• ED : Every few minutes
• Conflict : Unit control Errors (UCE) in different directions by LFC & ED
• Logic : Permissive Control : Follow loadMandatory control : Follow Economics
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Energy Management Functions• System load forecast : Every hour for a period of 1-7 days.
• Unit Commitment : Start up & shut down times for most economic operation of thermal units for each hour.
• Fuel Scheduling : Economic choice, fuel purchase contracts.
• Transaction evaluation : Purchase & sale of energy with neighboring companies.
• Transmission loss minimization : Controller actions for minimization of loss.
• Security constraineddispatch : Ensuring eco dispatch without violating network
security.• Production cost
calculation : Actual & economical for each generated unit on hourly basis.
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Real-time Network Analysis Sequence
SCADA NetworkTopology
State Estimator
ContingencyAnalysis
SecurityEnhancement
OptimalPower Flow
Preventive Action
Bus LoadForecast
Transmission Loss Factors
Study Network Analysis: Based on postulated state
Power Flow Contingency Analysis
Optimal Power Flow
Short CircuitAnalysis
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Security Control
• Starts with ‘current state’ and executes programs sequentially.
• Contingency:Event that causes important component to
be removed from service (eg:tr-line, generator, transformer).
• A list of contingencies are processed as applicable to current state.
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• Topology Processing:Building a network model based
on real-time measurements.
• State Estimator:Determining “best” estimate from real-time
measurements.• Power Flow:
Load flow analysis (Voltages, Phase angles).• Contingency Analysis:
Impact of a set of contingencies to identify harmful ones.
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• Optimal Power Flow:Optimization of a specified objective
function (with constraints).• Preventive Action:
To prevent contingency.• Short Circuit Analysis:
Determines the fault currents for 1-ø & 3-ø faults for fault locations across the power system network.
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Power System
SubstationSubstation
SubstationSubstation
G G G GGeneration
Transmission
Distribution
RTU
RTU RTU
SCADA
RTU
SCADA
NationalSCADA/EMS
RegionalSCADA/EMS
RegionalSCADA/EMS
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SCADA/EMS/DMS Architecture
ProcessCommunication
UnitRTU
Measurements
Controls
SCADA EMS DMS
HMI
Measurements
SCADA
EMS
DMS
Data points
100 – 1 000 000
10 000 – 100 000
Sub stations
1 – 10 000
100 – 10 000
10 000 – 1 000 000 1000 – 100 000
Approximate sizes High loadevents per second
10 – 10 000
Updatedanalogs per second
10 – 10 000
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DMS Functions
• Three Phase Unbalanced Operator Power Flow• Map Series Graphics• Interface to Automated Mapping / FacilitiesManagement (AM/FM) or Geographic Information System (GIS)
• Interface To Customer Information System (CIS)
• Interface to Outage Management
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Intelligent Electronic Device (IED)
• IED – Building Block of Substation Integration and Automation
• Any device incorporating one or more processors with the capability to receive or send data/control from or to an external source (e.g., electronic multifunction meters,digital relays, controllers)
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Some time scales in grid management• There are four levels in grid management.– Unit commitment – which works
on a scale of days– Scheduling needed on a day
upon day basis– Load following which has a time
scale of minutes to hours– Regulation which happen over
seconds to minutes
• We need to understand that it is a complex issue and needs detailed analysis either to accept or reject an idea.
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SR
WR
NR
ER
NER
Freq ‐ 1
Freq ‐ 2
INDIA CURRENTLY OPERATING AT
“TWO” FREQUENCIES – NORTH & SOUTH
‐ 5 Regional Networks in the Country
‐ Currently 4 Regional Networks merged
Evacuation – The big picture –Northern & Southern GridsEvacuation – The big picture –Northern & Southern Grids
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INTER‐REGIONAL EXISTING CAPACITIESINTER‐REGIONAL EXISTING CAPACITIES
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SOUTHERN REGION
WESTERN REGION
NORTHERN REGION
NORTH-EASTERN REGION
13450 MW
1000 MW6450 MW
4600 MW
1300 MW3700 MW
30,000 MWOF INTER‐REGIONAL POWER BY 2011 ‐12
EASTERN REGION
ER
“NO Augmentation” proposed between “Southern & Northern” Grids
INTER‐REGIONAL PROPOSED CAPACITIES BY 2011‐12INTER‐REGIONAL PROPOSED CAPACITIES BY 2011‐12
SOURCE : CEA
Weak link
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