certs microgrid...certs microgrid 13.8 kv microgrid 480 v 120 kv 480 v pcc peer-to-peer source model...
TRANSCRIPT
![Page 1: CERTS Microgrid...CERTS MicroGrid 13.8 kV MicroGrid 480 V 120 kV 480 V PCC Peer-to-peer source model (no master element) Plug & Play Model (Avoids extensive site engineering & allows](https://reader034.vdocument.in/reader034/viewer/2022050203/5f56ef3383aeb852387beeb6/html5/thumbnails/1.jpg)
University of Wisconsin-Madison
CERTS MicrogridMicrogrid Workshop
17 June 2005Bob Lasseter
Representing the research team of:LBNL, SNL
University of WisconsinNorthern Power Systems
TecogenYoutility Inc
American Electric Power
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University of Wisconsin-Madison
Generic Microgrid:
Clusters sources with loadsSingle controllable unit to utilitySmoothly move between parallel and islanded modes
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University of Wisconsin-Madison
University-of-Wisconsin’s µgrid
75 yd4 wire Cable
9.0 kWY Loads
Utility System
480 V
208 V
480 V
DG 1
DG 2
9.0 kW ∆ Loads
480 V
Static Switch
25 yd4 wire Cable
20 yd4 wire Cable
4.5 kW ∆ Load
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University of Wisconsin-Madison
Stability (interactions between grid and other microsources)
Power balance when islanding (load sensors & fast re-dispatch of microsource)
Custom site engineering
Major Microgrid Issues
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University of Wisconsin-Madison
Stability: Fixed Power Factor
∆V = f (Z , I)Change in power output changes ∆VResulting in change in µsource currentCan result in change in ∆VOscillation in P and V
DG A DG B
I
ZZZ Z
Increase power output of DG A
Need to control voltage at each inverter
Voltage
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University of Wisconsin-Madison
CERT’s Q versus E Droop for stability
E∆
E∆
oE
Q
maxQ
maxQ−
InductiveRegion
CapacitiveRegion
Ereq
maxQ
Qreqo
QEm
QmEE
∆=
−=
DG A DG B
I
∆V = f (Z , I)
Z
Voltage difference between sources is function of impedance and current between them.
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University of Wisconsin-Madison
UtilitySystem
4 wire75yd
4 wire25yd
Event:Loss of load
UW’s µgrid traces: Voltage Regulation
P1 P2
Unit P2Unit P1
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University of Wisconsin-Madison
Stability (interactions between grid and other microsources)
Power balance when islanding (load sensors & fast re-dispatch of microsource)
Custom site engineering
Major Microgrid Issues
![Page 9: CERTS Microgrid...CERTS MicroGrid 13.8 kV MicroGrid 480 V 120 kV 480 V PCC Peer-to-peer source model (no master element) Plug & Play Model (Avoids extensive site engineering & allows](https://reader034.vdocument.in/reader034/viewer/2022050203/5f56ef3383aeb852387beeb6/html5/thumbnails/9.jpg)
University of Wisconsin-Madison
Power balance Problem: Fast control
Utility System Primary Connection
(13.2 kV)
Utility System Interface Control(Synchronization, fault protection, islanding
detection, etc.)
Campus Owned Distribution (13.2
kV)
Isolating Device (opens during micro-
grid mode)
Heat Distribution
Academic Building A
Dormitory B Administrative Building
Dormitory A
Student Union
Academic Building
B
To Other
Campus Loads
500 kVA 500 kVA 300 kVA
75 kVA
800 kVA300 kVA
Generator Step Up
Transformer
Gen
Gen
Gen
Generator Protection
and Control
Paralleling Bus (4.8 kV)
Voltage Regulator
Heat Distribution
1.75 MVA
1.75 MVA
1.75 MVA
Heat Recovered from ICE Units
Load control
Communication & Control Signal Path
EPRI: Campus Microgrid System: CEC Workshop
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University of Wisconsin-Madison
MicroGrid MicroGrid
CERTS MicroGrid
13.8 kV
MicroGrid
480 V
120 kV
480 V
PCC
Peer-to-peer source model (no master element)Plug & Play Model (Avoids extensive site engineering & allows placement near heat load)
Power balancing using local information
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University of Wisconsin-Madison
CERTS Microgrid Configuration
Separate load types (sensitive)
Fast islanding switch
Single PCC (1547 LAPS)
No load control required
DR
DR
PCC
Fast switch
Traditional loadsSensitive loads
DR
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University of Wisconsin-Madison
DR
DR
PCC
Fast switch
Traditional loadsSensitive loads
Intentional islandingNo communications for load balancingLoad balancing uses local information at each unitAutomatic re-synchronizing of the fast switch
DR
Operational Concept
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University of Wisconsin-Madison
Load balancing: P versus Frequency Droop
UtilitySystem P1
F1
P2
F2
L1 L3 L4 L5
4 wire75yd
4 wire25yd
Event:Transfer to Island
Event shows Unit 2 reaching maximum output power after islanding.
A – Grid B – Island
P1 [pu] 0.08 = 10% 0.4 = 50%
P2 [pu] 0.72 = 90% 0.8 = 100%
Frequency [Hz] 60.00 59.8
Load Level [pu] 1.2 = 150% 1.2 = 150%
Grid Flow [pu] 0.4 = 50% 0.0
Control of P1 and P2
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University of Wisconsin-Madison
Unit 1
Unit 2
Wisconsin’s µgrid traces: Islanding
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University of Wisconsin-Madison
F1
L
F2
L
Utility System
Series Configuration
Utility System
F1
L
F2
LParallel Configuration
Zone Control: Load Tracking
( )iioFoi FFm −−= ,ωωmaxP
mFω∆
=Fo1ωo
ωo-∆ω
ωo+∆ω
F
ω
Importing from Grid
Exportingto Grid
ωexp
ωparFo2
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University of Wisconsin-Madison
A – L3 on B – L3 off
P1 [pu] 0.4 = 50% 0.13 = 16%
P2 [pu] 0.8 = 100% 0.77 = 96%
Frequency [Hz] 59.80 59.968
Load Level [pu] 1.2 = 150% 0.9 = 112%
Grid Flow [pu] 0.0 0.0
Zone Power Control: Parallel Case: F1 = - F2
P1
F1
P2
F2L1
L3 L44 wire75yd
4 wire25yd
L2
UtilitySystem
Event:Load Removal
Event shows Unit 2 backing off from maximum output power after a load is removed.
Parallel Configuration, Control of F1 and F2
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University of Wisconsin-Madison
Unit 1
Unit 2
U of W’s µgrid traces: Parallel Case: F1 = - F2
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University of Wisconsin-Madison
4 wire25yd
4 wire75 yd.Utility
System1P1
1F
2P
1
2F
1L 3L 4L 5LEvent:
Wrong Set pointF1
P1-max
Import From Grid, Setpoints are 90% and 10% of Unit Rating; Choosing a Wrong Setpoint
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University of Wisconsin-Madison
Dynamics of Units; Wrong SetpointUnit 1 Unit 2
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University of Wisconsin-Madison
Summary of micro-source controls
Existing DG controls; P at unity pf or constantQHigh penetration levels create interaction problemsCan not smoothly move between grid connected and island operation
CERTS controlsVoltage control with droopPower versus frequency droopAutomatic re-synchronizing to utility grid
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University of Wisconsin-Madison
Microgrid Test Bed Layout
Feeder A
Feeder C
Feeder B
B-3
P-2
P-3Zone-1PCC
Zone-2
Zone-3 Zone-4
Zone-5
Zone-6
P-1
B-4
B-513.8 kV
3-Wire 480 V
4-Wire 480 V
4-Wire 480 VEnergy Manager
Sensitive Loads
Traditional Loads
4-Wire 480 V
Micro-source
Power FlowController
Point ofCommonCoupling
Breaker
Grid connected• Load changes• Control of load flow• Voltage control• Protection• P/V dispatch
Isolated operation• Separation• Load pick-up• Voltage and Q control• Protection• Automatic re-syn.
Static Switch
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University of Wisconsin-Madison
Microgrid Test Bed Timeline
Test Bed Design & Construction
Design: NPSComponent Construction: NPS
Static Switch : NPS
Microsource Control Modification3-Inverters and System Test: Youtility3- “CERTS” Microsources: Tecogen
Test Bed Performance Testing
Static Switch 1547 tests: AEP
Phase 1 construction & tests: AEP
Field Demo Planning
20062003 20052004
20062003 20052004 May
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University of Wisconsin-Madison
Key Tests• Load Flow control
Unit Power, Zone flow & Mixed
• Grid-to-Island-to-GridPower vs. freq power balance Re-closing of the Static Switch using local information
•Protection including Static SwitchInternal, grid side & IEEE 1547events