reliability improvement methodin a smart distribution grid
TRANSCRIPT
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Faculty of Engineering, Kasetsart University
Mr.Wirote BuakleeFebruary 17, 2013
Reliability Improvement Method
in a Smart Distribution Grid
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Selected Paper
[1] Kazemi, S.; Fotuhi-Firuzabad, M.; Billinton, R.,” Reliability assessment of
an automated distribution system”, IET Generation, Transmission & Distribution, 2007, Page(s): 223-233.
[2] Taylor, T.; Fahey, T.; Royster, T.; Engler, D.,”New Recloser functionalityenhances feeder automation”, IEE/PES Transmission and DistributionConference and Exposition, 2008, Page(s): 1-8.
[3] Kazemi, S.; Fotuhi-Firuzabad, M.; Sanaye-Pasand, M.; Lehtonen, M.,” Impacts of automatic control systems of loop restoration scheme on thedistribution system reliability”, IET Generation, Transmission & Distribution, 2009, Page(s): 891- 902.
[4] Wernsing, R.; Hubertus, J.; Duffy, M.; Hataway, G.; Conner, D.; Nelson,E.,” Implementation of an innovative advanced loop scheme to provide
distribution reliability improvement”, IEEE Rural Electric Power Conference(REPC), 2010, Page(s): B2-B2-8.
[5] Kim, J.-C.; Cho, S.-M.; Shin, H.-S.,” Advanced Power Distribution SystemConfiguration for Smart Grid”, IEEE Transactions on Smart Grid, 2013,Page(s): 1-6.
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Presentation Topics
I. Introduction
II. Reliability Improvement Method for Distribution System
Apply Loop Restoration Scheme(LRS) [1,2]
Use Close Tie before Open Method [3]
Employ Single Phase Tripping&Lock Out Scheme [4]
Apply Closed loop scheme [5]
III. Conclusion
IV. Future Research
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• Advanced technologies for reliability improvement
• Ease of Control and Management
• Integrating of Distributed Energy Resources
• Supporting Demand Response
“SMART GRID” a conventional electric power systemthat has been equipped with …
I. Introduction
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I. Introduction
• Radial Scheme
• Loop Scheme
•
Mesh Scheme
5
Typical Distribution Configuration
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I. Introduction
6
Sub1
Sub
2
Relay
Relay
R1
Recloser
R1
Recloser
R2
Recloser
R2
Recloser
TieRecloser
Radial Scheme
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I. Introduction
7
Sub1
Sub
2
Relay
Relay
R1
Recloser
R1
Recloser
R2
Recloser
R2
Recloser
TieRecloser
Loop Scheme
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I. Introduction
8
Sub1
Sub
2
Relay
Relay
R1
Recloser
R1
Recloser
R2
Recloser
R2
Recloser
TieRecloser
Tie
Tie
Mesh Scheme
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Type of Loop Scheme
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Loop Scheme without Communication
10
R6
Sub
1
Sub
2
Relay
Relay
Recloser
R10
R1
Recloser
Recloser
R9
R2
Recloser
Recloser
R8
R3
Recloser
Recloser
R7
R5
R4
Recloser
Recloser
Recloser
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Loop Scheme with Communication
11
R6
Sub
1
Sub
2
Relay
Relay
Recloser
R10
R1
Recloser
Recloser
R9
R2
Recloser
Recloser
R8
R3
Recloser
Recloser
R7
R5
R4
Recloser
Recloser
Recloser
SCADA
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II. Reliability Improvement Method
• Apply Loop Restoration Scheme(LRS)
• Use Close Tie before Open Method
•
Employ Single Phase Tripping and Lock Out Scheme• Apply Closed loop scheme
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Apply Loop Restoration Scheme(LRS)
with Automatic Control System (ACS)
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Automated Scheme
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Loop Restoration Scheme
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Case Study of RBTS Bus 2
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Case Study
FG-First GroupSG-Second Group
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Case Study of RBTS Bus 2
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Comparison of Sustained Interruption Frequency
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Case Study of RBTS Bus 2
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Comparison of Sustained Annual Outage Time
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Case Study of RBTS Bus 2
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Comparison of Momentary Interruption Frequency
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Case Study of RBTS Bus 2
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Comparison of System Reliability Indices
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Use Close Tie before Open Method in Advanced Loop Scheme(ALS)
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The Starting Point –
Automation Without Communication
Sub
1
Sub
2
Relay
Relay
R1
Recloser
R1
Recloser
R2
Recloser
R2
Recloser
TieRecloser Normally
Open Tie
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Sub
1
Sub
2
Relay
Relay
R1
Recloser
R1
Recloser
R2
Recloser
R2
Recloser
TieRecloser
Original Scheme Helpful But
Not Perfect
Fault Occurs
Normally
Open Tie
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Sub
1
Sub
2
Relay
Relay
R1
Recloser
R1
Recloser
R2
Recloser
R2
Recloser
TieRecloser
Original Scheme Helpful But
Not Perfect
R1 Opens toClear Fault
Normally
Open Tie
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Sub
1
Sub
2
Relay
Relay
R1
Recloser
R1
Recloser
R2
Recloser
R2
Recloser
TieRecloser
Original Scheme Helpful But
Not Perfect
Tie Senses Loss
of Voltage
R2 Senses Lossof Voltage
Normally
Open Tie
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Original Scheme Helpful But
Not Perfect
R2 Changes Settings After Time DelaySub
1
Sub
2
Relay
Relay
R1
Recloser
R1
Recloser
R2
Recloser
R2
Recloser
TieRecloser Normally
Open Tie
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Sub
1
Sub
2
Relay
Relay
R1
Recloser
R1
Recloser
R2
Recloser
R2
Recloser
TieRecloser
Original Scheme Helpful But
Not Perfect
Tie Closes After
Time Delay
Normally
Open Tie
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Original Scheme Helpful But
Not Perfect
R2 Opens for Fault
Sub
1
Sub
2
Relay
Relay
R1
Recloser
R1
Recloser
R2
Recloser
R2
Recloser
TieRecloser Normally
Open Tie
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Sub
1
R1
R2
Tie
R2
R1
Sub
2
Sub
1
R1
R2
Tie
R2
R1
Sub
2
Sub
1
R1
R2
Tie
R2
R1
Sub
2
Close Tie Before Clearing Fault to
Prevent Unnecessary Interruptions
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Fast, Secure Communications
Between Devices Are Key
Control 2Control 1.....
..... .....
.....
TR ANSMIT
TMB1
TMB2
.
.
.
TMB8
RMB1
RMB2
RMB8
TMB1
TMB2
TMB8
RMB1
RMB2
RMB8
RECEIVE
TR ANSMIT
RECEIVE
0
0
0
0
0
0
1
0
0
1
0
0
.
.
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Start With Original Circuit
Sub
1
Sub
2
Relay
Relay
R1
Recloser
R1
Recloser
R2
Recloser
R2
Recloser
TieRecloser Normally
Open Tie
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Insert Devices
R6
Sub
1
Sub
2
Relay
Relay
Recloser
R10
R1
Recloser
Recloser
R9
R2
Recloser
Recloser
R8
R3
Recloser
Recloser
R7
R5
R4
Recloser
Recloser
Recloser
ReduceCustomers
Per Section Normally
Open Tie
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Add Fiber Communication
R6
Sub
1
Sub
2
Relay
Relay
Recloser
R10
R1
Recloser
Recloser
R9
R2
Recloser
Recloser
R8
R3
Recloser
Recloser
R7
R5
R4
Recloser
Recloser
Recloser
SCADA
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Control-to-Control Communication
Relay
Relay
Recloser
Recloser
Recloser
Recloser
Recloser
Recloser
Recloser
Recloser
Recloser
Recloser
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R6 Recloser
R5
R4
Recloser
Recloser
R1
Recloser
R2
Recloser
R3
Recloser
Sub
1
Relay
Use Blocking Scheme to Coordinate
High-Density Protection
Normally
Open
Block Block Block
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ALS Initializing
1: 51T Asserted
2: Latch Set3: Bit Transmitted
4: Bit Received
5: Latch Set
6: Bit Transmitted
7: Bit Received
8: Bit Transmitted
(Echo)
9: Bit Received
10: Tie Close
Asserted
R6 Recloser
R5
R4
Recloser
Recloser
R1
Recloser
R2
Recloser
R3
Recloser
Sub
1
Relay
Blocked Blocked
Normally
Open
Blocked
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R6 Recloser
R5
R4
Recloser
Recloser
R1
Recloser
R2
Recloser
R3
Recloser
Sub
1
Relay
ALS Sectionalizing
19: Trip Asserted
18: Bit Received
17: Bit Transmitted
16: Trip Asserted
15: Bit Received
14: Bit Transmitted
(Echo)
13: Bit Received
12: Bit Transmitted
11: Tie ClosedNormally
Open
Blocked BlockedBlocked
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ALS Post-Event Topology
R6 Recloser
R5
R4
Recloser
Recloser
R1
Recloser
R2
Recloser
R3
Recloser
Sub
1
Relay
InitializingRecloser Open
Isolating
Recloser Open
Tie ClosedNormally
Open
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Case Study of PSE&G Company, USA
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Before After
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Case Study of PSE&G Company, USA
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Case Study of PSE&G Company, USA
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Case Study of PSE&G Company, USA
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Employ Single Phase Tripping and
Lock Out Scheme
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Automated Loop Sectionalizing Scheme
44
Three-Phase, Five-Recloser Loop Sectionalizing Scheme
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Single Phase Tripping and Lock out
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Fault at F1
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Fault at F2
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Fault at F3
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Case Study of Dominion Company, USA
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5 reclosers, 45 mile, 34.5 kV
5,145 customers
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Case Study of Dominion Company, USA
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Advanced Distribution System
Configuration(Closed loop scheme)
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Conventional Distribution System
52
DAS-5 min
Anti-Islanding of DG = 0.5 sec
DG reconnecting = 5 min
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Closed Loop Configuration
53
C S d f KEPCO K
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Case Study of KEPCO, Korea
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C St d f KEPCO K
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Case Study of KEPCO, Korea
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C St d f KEPCO K
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Case Study of KEPCO, Korea
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Loss during 24 hour for each case
C St d f KEPCO K
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Case Study of KEPCO, Korea
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Voltage Profile for Case 1 and Case 3
L C fi ti S l ti Al ith
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Loop Configuration Selection Algorithm
58
for loss maximization
Generate tie switch cases for loop configuration
Carry out power flow analysis for 24 h
Calculate Accumulated Switch Voltage (ASV)
Select the case with the maximum total ASV for loss
minimization.
C St d f KEPCO K
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Case Study of KEPCO, Korea
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ASV for each tie-switch
C St d f KEPCO K
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Case Study of KEPCO, Korea
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Voltage Profile with DG for Case 1 and Case 3
III C l i
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III. Conclusion
There are a lot of methods to be applied in a SmartDistribution Grid to improve the system reliability
Operate as Closed loop configuration can improve bothreliability indices and system loss as well as voltageprofile.
IV F t R h
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IV. Future Research
Optimal of automatic device (RTU, Switch,) should befurther studied.
Reliability Assessment in Closed loop distribution systemshould be studied
Study of the impact on Power Quality in case of usingSingle Phase Tripping and Lock out scheme should bedone
T d G d H i S i t
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