Beyond the Nameplate – Selecting Transformer...
Transcript of Beyond the Nameplate – Selecting Transformer...
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Copyright © PowerServices, Inc., FirstEnergy Corporation, and SEL 2017
Beyond the Nameplate –Selecting Transformer Compensation
Settings for Secure Differential ProtectionBarker Edwards
PowerServices, Inc.
David G. WilliamsFirstEnergy Corporation
Ariana Hargrave, Matthew Watkins, and Vinod K. Yedidi Schweitzer Engineering Laboratories, Inc.
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What Do You Need to Set a Transformer Relay?
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Percentage-Restrained Differential
+= 1 2I I
IRTk
= + 1 2IOP I I
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Compensating for Transformer
1TAP1
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Compensation Matrices[ ]
=
compensated
compensated
compensated
Ia IaIb Compensation Matrix • Ib
IcIc
1 0 00 1 00 0 1
0
− − −
− − −
− − −
1 1 01 • 0 1 13 1 0 1
0 1 11 • 1 0 13 1 1 0
1 0 11 • 1 1 03 0 1 1
1
3
5
− − −
− − − − − −
− − −
1 2 11 • 1 1 23
2 1 1
1 1 21 • 2 1 13
1 2 1
2 1 11 • 1 2 13
1 1 2
2
4
6
− − −
− − −
− − −
1 1 01 • 0 1 13 1 0 1
0 1 11 • 1 0 13 1 1 0
1 0 11 • 1 1 03 0 1 1
7
9
11
− − − − − −
− − −
− − − − − −
1 2 11 • 1 1 23
2 1 1
1 1 21 • 2 1 13
1 2 1
2 1 11 • 1 2 13
1 1 2
8
10
12
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• Nameplate phase shift is only valid when System has ABC
phase sequence
Phase-to-bushing connections are ABC
• Phase shift that relay sees is influenced by external factors CTs in delta or wye
CT polarity
CT-to-relay connections
“I Thought the Nameplate Was All I Needed”
Entire installation must be taken into account when setting relay!
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1. Derive phase shift seen by relay2. If delta winding exists, choose it as reference
and select Matrix 03. If delta winding does not exist, select Matrix 11 for
one of wye windings and appropriate matrix for other 4. Avoid even-numbered matrices
Rules for Selecting Correct CompensationGoal: W1 180 Degrees Out of Phase With W2
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Applying the Rules
On System At Relay
Compensation?(0, 11)
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• Nameplate used to set compensation to (0, 1)
• Relay tripped twice
Field Case: Incorrect Compensation Settings30 MVA DABY Transformer, 69 kV / 12.47 kV150
–150–50
50
Cur
rent
Cur
rent
500
0
–500
–15,000–5,000
5,00015,000
Vol
tage
1:87R1:TRIP
0 5 10 15 20
1:IAW1_A1:IBW1_A1:ICW1_A
1:IAW2_A1:IBW2_A1:ICW2_A
Time (cycles)
1:VA_V1:VB_V1:VC_V
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0.00.20.40.6
Cur
rent
0.00.20.40.6
Cur
rent
0.00.20.40.6
Cur
rent
1:87R1:TRIP
8 10 12 14 16 18
1:IRT1=0.4611:IOP1=0.246
1:IRT2=0.5021:IOP2=0.210
1:IRT3=0.4581:IOP3=0.250
Time (cycles)
1:IOP1_pu1:IRT1_pu
1:IOP2_pu1:IRT2_pu
1:IOP3_pu1:IRT3_pu
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• Correct compensation per rules is (0, 1)
• Compensation set to (11,12) –correct pair for phase angle compensation, but arbitrary selection of reference winding
• Relay tripped on external A-B fault (wye side)
• 7% CT error from saturation
Field Case: New Rules Add Security22 MVA DABY Transformer, 72 kV / 13 kV,
Standard Connections
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1,500
500
–500
–1,500
Cur
rent
8,000
0
–8,000
Cur
rent
1:87R11:87R21:87R3
1:87R1:TRIP
4,000
–4,000
0 2 4 6 8 10 12 14Time (cycles)
1:IAW1_A1:IBW1_A1:ICW1_A
1:IAW2_A1:IBW2_A1:ICW2_A
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Compensated Currents
With (11, 12)
Input Currents Measured by Relay (A primary)
Compensated Currents (pu of tap)
IAW1 912 ∠0˚ 4.21 ∠–1.4˚IBW1 414 ∠–175˚ 4.27 ∠–178˚ICW1 395 ∠175˚ 0.23 ∠74.8˚IAW2 4,620 ∠178˚ 4.66 ∠179˚IBW2 4,320 ∠2˚ 4.38 ∠1.43˚ICW2 323 ∠–35.9˚ 0.36 ∠–39.2˚
c
b
a
C
B
A
IF
IF
2IF
0
IF
0
IF
IF
H3
H2
H1
X3
X2
X1
22 MVA73 kV / 13 kV
IF X0
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Original Compensation (11, 12)
( )1 1ICW1C • • –IBW1 ICW1CTR1• TAP1 3
= +
≅Simplifies to ICW1C 0
( )1 1ICW2C • • –IAW2 –IBW2 2• ICW2CTR2• TAP2 3
= + +
( )= ≅1 1Simplifies to ICW2C • • 2 • ICW2 0
CTR2• TAP2 3
Differential Characteristic Current Differential Element 1 Differential Element 2 Differential Element 3
IOP (pu) 0.452 0.115 0.337IRT (pu) 8.868 8.650 0.584
IOP / IRT (%) 5.1 1.3 57.7
=
1 0 –11Matrix 11 –1 1 03 0 –1 1
− = − − −
2 1 –11Matrix 12 –1 2 13
1 –1 2
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–2
26
10
Cur
rent
–2
2
6
10C
urre
nt
–2
2
6
10
Cur
rent
1:87R30 2 4 6 8 10 12 14
1:IOP11:IRT1
1:IOP21:IRT2
1:IOP31:IRT3
Time (cycles)
1:IOP1=0.4521:IRT1=8.868
1:IOP2=0.1151:IRT2=8.650
1:IOP3=0.3371:IRT3=0.584
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Correct Compensation (0, 1)
Both W1 and W2 compensated C-phase currents now contain fault current contribution, increasing restraint current
( )1ICW1C • ICW1CTR1• TAP1
=
( )1 1ICW2C • • –IAW2 ICW2CTR2• TAP2 3
= +
Differential Characteristic Current Differential Element 1 Differential Element 2 Differential Element 3
IOP (pu) 0.131 0.068 0.652IRT (pu) 10.307 4.687 5.062
IOP / IRT (%) 1.3 1.5 12.9
=
1 0 0Matrix 0 0 1 0
0 0 1
=
1 –1 01Matrix 1 0 1 –13 –1 0 1
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–2
2
6
10
Cur
rent
–2
2
6
10C
urre
nt
–2
2
6
10
Cur
rent
0 2 4 6 8 10 12 14
1:IRT1_P1:IOP1_P
1:IOP2_P1:IRT2_P
1:IRT3_P1:IOP3_P
Time (cycles)
1:IRT1_P=10.3071:IOP1_P=0.131
1:IOP2_P=0.0681:IRT2_P=4.687
1:IRT3_P=5.0621:IOP3_P=0.652
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Original vs. Correct Compensation
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• Correct compensation per rules is (11, 11)
• Compensation set to (12, 12) –correct pair for phase angle compensation (common in autotransformers)
• Relay tripped on external A-B fault (115 kV side)
• 12% CT error from saturation
New Rules Add Security for Autotransformers100 MVA Autotransformer, 230 kV / 115 kV,
Standard Connections
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3,0002,0001,000
0–1,000
–3,000–2,000
Cur
rent
6,0004,0002,000
0–2,000
–6,000–4,000
Cur
rent
1:87R11:87R21:87R3
40.954000 41.004000 41.054000 41.104000 41.154000
1:IAW1_A1:IBW1_A1:ICW1_A
1:IAW2_A1:IBW2_A1:ICW2_A
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Compensated Currents for (12, 12) and (11, 11)
InputCurrents
Measured by Relay (A primary)
Compensated Currents for Pair (12, 12)
(A secondary pu of tap)
Compensated Currents for Pair (11, 11)
(pu of tap)
IAW1 1,910 ∠0˚ 7.05 ∠9.16˚ 4.46 ∠–0.5˚
IBW1 1,640 ∠–148˚ 6.62 ∠–160˚ 7.85 ∠–165˚
ICW1 33.8 ∠151˚ 1.41 ∠123˚ 3.73 ∠32.8˚
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Operate and
Restraint Currents
Differential Characteristic
Current
Differential Element 1
Differential Element 2
Differential Element 3
IOP (pu) 1.32 2.64 1.31
IRT (pu) 14.71 14.19 1.51
IOP / IRT (%) 9 18 87
Differential Characteristic
Current
Differential Element 1
Differential Element 2
Differential Element 3
IOP (pu) 0.00 2.29 2.28
IRT (pu) 8.93 16.65 8.06
IOP / IRT (%) 0 14 28
Compensation (12,12)
Compensation (11,11)
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Original vs. Correct Compensation
00
0.81.62.43.2
4
4 8 12 16 20Restraint Current (IRT)
Trip Characteristic
Ope
rate
Cur
rent
(IO
P)
87R1 Correct
87R1 Original87R2 Original87R3 Original
87R2 Correct87R3 Correct
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• Follow 4 simple rules to select compensation matrices
• Consider CT saturation in transformer applications• Recognize likelihood of operations
Conclusions
1 Derive phase shift seen by relay
2 If delta winding exists, choose it as reference and select Matrix 0
3 If delta winding does not exist, select Matrix 11 for one of wye windings and appropriate matrix for other
4 Avoid even-numbered matrices
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Questions?