程序代写代做 C Distribution System Analysis Subcommittee

Distribution System Analysis Subcommittee

IEEE 13 Node Test Feeder

IEEE 13 Node Test Feeder

Overhead Line Configuration Data:

Config.
Phasing
Phase
Neutral
Spacing

ACSR
ACSR
ID
601
B A C N
556,500 26/7
4/0 6/1
500
602
C A B N
4/0 6/1
4/0 6/1
500
603
C B N
1/0
1/0
505
604
A C N
1/0
1/0
505
605
C N
1/0
1/0
510

Underground Line Configuration Data:

Config.
Phasing
Cable
Neutral
Space ID
606
A B C N
250,000 AA, CN
None
515
607
A N
1/0 AA, TS
1/0 Cu
520

Line Segment Data:

Node A
Node B
Length(ft.)
Config.
632
645
500
603
632
633
500
602
633
634
0
XFM-1
645
646
300
603
650
632
2000
601
684
652
800
607
632
671
2000
601
671
684
300
604
671
680
1000
601
671
692
0
Switch
684
611
300
605
692
675
500
606

Transformer Data:

kVA
kV-high
kV-low
R – %
X – %
Substation:
5,000
115 – D
4.16 Gr. Y
1
8
XFM -1
500
4.16 – Gr.W
0.48 – Gr.W
1.1
2

Capacitor Data:

Node
Ph-A
Ph-B
Ph-C

kVAr
kVAr
kVAr
675
200
200
200
611

100
Total
200
200
300

Regulator Data:

Regulator ID:
1

Line Segment:
650 – 632

Location:
50

Phases:
A – B -C

Connection:
3-Ph,LG

Monitoring Phase:
A-B-C

Bandwidth:
2.0 volts

PT Ratio:
20

Primary CT Rating:
700

Compensator Settings:
Ph-A
Ph-B
Ph-C
R – Setting:
3
3
3
X – Setting:
9
9
9
Volltage Level:
122
122
122

Spot Load Data:

Node
Load
Ph-1
Ph-1
Ph-2
Ph-2
Ph-3
Ph-3

Model
kW
kVAr
kW
kVAr
kW
kVAr
634
Y-PQ
160
110
120
90
120
90
645
Y-PQ
0
0
170
125
0
0
646
D-Z
0
0
230
132
0
0
652
Y-Z
128
86
0
0
0
0
671
D-PQ
385
220
385
220
385
220
675
Y-PQ
485
190
68
60
290
212
692
D-I
0
0
0
0
170
151
611
Y-I
0
0
0
0
170
80

TOTAL
1158
606
973
627
1135
753

Distributed Load Data:

Node A
Node B
Load
Ph-1
Ph-1
Ph-2
Ph-2
Ph-3
Ph-3

Model
kW
kVAr
kW
kVAr
kW
kVAr
632
671
Y-PQ
17
10
66
38
117
68

IEEE 13 NODE TEST FEEDER
Impedances

Configuration 601:

Z (R +jX) in ohms per mile
0.3465 1.0179 0.1560 0.5017 0.1580 0.4236
0.3375 1.0478 0.1535 0.3849
0.3414 1.0348
B in micro Siemens per mile
6.2998 -1.9958 -1.2595
5.9597 -0.7417
5.6386

Configuration 602:

Z (R +jX) in ohms per mile
0.7526 1.1814 0.1580 0.4236 0.1560 0.5017
0.7475 1.1983 0.1535 0.3849
0.7436 1.2112
B in micro Siemens per mile
5.6990 -1.0817 -1.6905
5.1795 -0.6588
5.4246

Configuration 603:

Z (R +jX) in ohms per mile
0.0000 0.0000 0.0000 0.0000 0.0000 0.0000
1.3294 1.3471 0.2066 0.4591
1.3238 1.3569
B in micro Siemens per mile
0.0000 0.0000 0.0000
4.7097 -0.8999
4.6658

Configuration 604:

Z (R +jX) in ohms per mile
1.3238 1.3569 0.0000 0.0000 0.2066 0.4591
0.0000 0.0000 0.0000 0.0000
1.3294 1.3471
B in micro Siemens per mile
4.6658 0.0000 -0.8999
0.0000 0.0000
4.7097
Configuration 605:

Z (R +jX) in ohms per mile
0.0000 0.0000 0.0000 0.0000 0.0000 0.0000
0.0000 0.0000 0.0000 0.0000
1.3292 1.3475
B in micro Siemens per mile
0.0000 0.0000 0.0000
0.0000 0.0000
4.5193

Configuration 606:

Z (R +jX) in ohms per mile
0.7982 0.4463 0.3192 0.0328 0.2849 -0.0143
0.7891 0.4041 0.3192 0.0328
0.7982 0.4463
B in micro Siemens per mile
96.8897 0.0000 0.0000
96.8897 0.0000
96.8897

Configuration 607:

Z (R +jX) in ohms per mile
1.3425 0.5124 0.0000 0.0000 0.0000 0.0000
0.0000 0.0000 0.0000 0.0000
0.0000 0.0000
B in micro Siemens per mile
88.9912 0.0000 0.0000
0.0000 0.0000
0.0000

Power-Flow Results

– R A D I A L F L O W S U M M A R Y – DATE: 6-24-2004 AT 15:33: 2 HOURS —
SUBSTATION: IEEE 13; FEEDER: IEEE 13
——————————————————————————-
SYSTEM PHASE PHASE PHASE TOTAL
INPUT ——-(A)——-|——-(B)——-|——-(C)——-|——————
kW : 1251.398 | 977.332 | 1348.461 | 3577.191
kVAr : 681.570 | 373.418 | 669.784 | 1724.772
kVA : 1424.968 | 1046.241 | 1505.642 | 3971.289
PF : .8782 | .9341 | .8956 | .9008

LOAD –(A-N)—-(A-B)-|–(B-N)—-(B-C)-|–(C-N)—-(C-A)-|—WYE—–DELTA–
kW : 785.6 385.0| 424.0 625.7| 692.5 553.4| 1902.1 1564.0
TOT : 1170.563 | 1049.658 | 1245.907 | 3466.128
| | |
kVAr : 393.0 220.0| 313.0 358.1| 447.9 369.5| 1153.9 947.7
TOT : 613.019 | 671.117 | 817.450 | 2101.586
| | |
kVA : 878.4 443.4| 527.0 720.9| 824.8 665.4| 2224.8 1828.7
TOT : 1321.367 | 1245.865 | 1490.137 | 4053.481
| | |
PF : .8943 .8682| .8045 .8679| .8397 .8316| .8550 .8553
TOT : .8859 | .8425 | .8361 | .8551

LOSSES ——(A)——-|——-(B)——-|——-(C)——-|——————
kW : 39.107 | -4.697 | 76.653 | 111.063
kVAr : 152.585 | 42.217 | 129.850 | 324.653
kVA : 157.517 | 42.478 | 150.787 | 343.124

CAPAC –(A-N)—-(A-B)-|–(B-N)—-(B-C)-|–(C-N)—-(C-A)-|—WYE—–DELTA–
R-kVA: 200.0 .0| 200.0 .0| 300.0 .0| 700.0 .0
TOT : 200.000 | 200.000 | 300.000 | 700.000
| | |
A-kVA: 193.4 .0| 222.7 .0| 285.3 .0| 701.5 .0
TOT : 193.443 | 222.747 | 285.276 | 701.466

 p 1
— V O L T A G E P R O F I L E —- DATE: 6-24-2004 AT 15:33:12 HOURS —-
SUBSTATION: IEEE 13; FEEDER: IEEE 13
——————————————————————————-
NODE | MAG ANGLE | MAG ANGLE | MAG ANGLE |mi.to SR
——————————————————————————-
______|_______ A-N ______ |_______ B-N _______ |_______ C-N _______ |
650 | 1.0000 at .00 | 1.0000 at -120.00 | 1.0000 at 120.00 | .000
RG60 | 1.0625 at .00 | 1.0500 at -120.00 | 1.0687 at 120.00 | .000
632 | 1.0210 at -2.49 | 1.0420 at -121.72 | 1.0174 at 117.83 | .379
633 | 1.0180 at -2.56 | 1.0401 at -121.77 | 1.0148 at 117.82 | .474
XFXFM1| .9941 at -3.23 | 1.0218 at -122.22 | .9960 at 117.35 | .474
634 | .9940 at -3.23 | 1.0218 at -122.22 | .9960 at 117.34 | .474
645 | | 1.0329 at -121.90 | 1.0155 at 117.86 | .474
646 | | 1.0311 at -121.98 | 1.0134 at 117.90 | .530
671 | .9900 at -5.30 | 1.0529 at -122.34 | .9778 at 116.02 | .758
680 | .9900 at -5.30 | 1.0529 at -122.34 | .9778 at 116.02 | .947
684 | .9881 at -5.32 | | .9758 at 115.92 | .815
611 | | | .9738 at 115.78 | .871
652 | .9825 at -5.25 | | | .966
692 | .9900 at -5.31 | 1.0529 at -122.34 | .9777 at 116.02 | .852
675 | .9835 at -5.56 | 1.0553 at -122.52 | .9758 at 116.03 | .947

p 1
———– VOLTAGE REGULATOR DATA —- DATE: 6-24-2004 AT 15:33:16 HOURS —
SUBSTATION: IEEE 13; FEEDER: IEEE 13
_______________________________________________________________________________
[NODE]–[VREG]—–[SEG]——[NODE] MODEL OPT BNDW
650 RG60 632 632 Phase A & B & C, Wye RX 2.00
………………………………………………………………
PHASE LDCTR VOLT HOLD R-VOLT X-VOLT PT RATIO CT RATE TAP
1 122.000 3.000 9.000 20.00 700.00 10
2 122.000 3.000 9.000 20.00 700.00 8
3 122.000 3.000 9.000 20.00 700.00 11

 p 1
– R A D I A L P O W E R F L O W — DATE: 6-24-2004 AT 15:33:27 HOURS —
SUBSTATION: IEEE 13; FEEDER: IEEE 13
——————————————————————————-
NODE VALUE PHASE A PHASE B PHASE C UNT O/L< (LINE A) (LINE B) (LINE C) 60.% ---------------------*--------A-------*-------B-------*-------C-------*-------- NODE: 650 VOLTS: 1.000 .00 1.000 -120.00 1.000 120.00 MAG/ANG kVll 4.160 NO LOAD OR CAPACITOR REPRESENTED AT SOURCE NODE TO NODE RG60 ..: 593.30 -28.58 435.61 -140.91 626.92 93.59 AMP/DG < LOSS= .000: ( .000) ( .000) ( .000) kW
———————*——–A——-*——-B——-*——-C——-*——–
NODE: RG60 VOLTS: 1.062 .00 1.050 -120.00 1.069 120.00 MAG/ANG
-LD: .00 .00 .00 .00 .00 .00 kW/kVR
kVll 4.160 CAP: .00 .00 .00 kVR

FROM NODE 650 : 558.40 -28.58 414.87 -140.91 586.60 93.59 AMP/DG < LOSS= .000: ( .000) ( .000) ( .000) kW
TO NODE 632 …….: 558.40 -28.58 414.87 -140.91 586.60 93.59 AMP/DG < <632 > LOSS= 59.716: ( 21.517) ( -3.252) ( 41.451) kW
———————*——–A——-*——-B——-*——-C——-*——–
NODE: 632 VOLTS: 1.021 -2.49 1.042 -121.72 1.017 117.83 MAG/ANG
-LD: .00 .00 .00 .00 .00 .00 kW/kVR
kVll 4.160 CAP: .00 .00 .00 kVR

FROM NODE RG60 …..: 558.41 -28.58 414.87 -140.91 586.60 93.59 AMP/DG < <632 > LOSS= 59.716: ( 21.517) ( -3.252) ( 41.451) kW
TO NODE 633 …….: 81.33 -37.74 61.12 -159.09 62.70 80.48 AMP/DG
<633 > LOSS= .808: ( .354) ( .148) ( .306) kW
TO NODE 645 …….: 143.02 -142.66 65.21 57.83 AMP/DG < <645 > LOSS= 2.760: ( 2.540) ( .220) kW
TO NODE 671 …….: 478.29 -27.03 215.12 -134.66 475.50 99.90 AMP/DG < <671 > LOSS= 35.897: ( 10.484) ( -6.169) ( 31.582) kW
———————*——–A——-*——-B——-*——-C——-*——–
NODE: 633 VOLTS: 1.018 -2.56 1.040 -121.77 1.015 117.82 MAG/ANG
-LD: .00 .00 .00 .00 .00 .00 kW/kVR
kVll 4.160 CAP: .00 .00 .00 kVR

FROM NODE 632 …..: 81.33 -37.74 61.12 -159.09 62.71 80.47 AMP/DG
<633 > LOSS= .808: ( .354) ( .148) ( .306) kW
TO NODE XFXFM1…….: 81.33 -37.74 61.12 -159.09 62.71 80.47 AMP/DG < LOSS= 5.427: ( 2.513) ( 1.420) ( 1.494) kW
———————*——–A——-*——-B——-*——-C——-*——–
NODE: XFXFM1 VOLTS: .994 -3.23 1.022 -122.22 .996 117.35 MAG/ANG
-LD: .00 .00 .00 .00 .00 .00 kW/kVR
kVll .480 CAP: .00 .00 .00 kVR

FROM NODE 633 …..: 704.83 -37.74 529.73 -159.09 543.45 80.47 AMP/DG < LOSS= 5.427: ( 2.513) ( 1.420) ( 1.494) kW
TO NODE 634 …….: 704.83 -37.74 529.73 -159.09 543.45 80.47 AMP/DG < <634 > LOSS= .000: ( .000) ( .000) ( .000) kW

 p 2
– R A D I A L P O W E R F L O W — DATE: 6-24-2004 AT 15:33:27 HOURS —
SUBSTATION: IEEE 13; FEEDER: IEEE 13
——————————————————————————-
NODE VALUE PHASE A PHASE B PHASE C UNT O/L< (LINE A) (LINE B) (LINE C) 60.% ---------------------*--------A-------*-------B-------*-------C-------*-------- NODE: 634 VOLTS: .994 -3.23 1.022 -122.22 .996 117.34 MAG/ANG Y-LD: 160.00 110.00 120.00 90.00 120.00 90.00 kW/kVR kVll .480 Y CAP: .00 .00 .00 kVR FROM NODE XFXFM1.....: 704.83 -37.74 529.73 -159.09 543.45 80.47 AMP/DG < <634 > LOSS= .000: ( .000) ( .000) ( .000) kW
———————*——–A——-*——-B——-*——-C——-*——–
NODE: 645 VOLTS: 1.033 -121.90 1.015 117.86 MAG/ANG
Y-LD: 170.00 125.00 .00 .00 kW/kVR
kVll 4.160 Y CAP: .00 .00 kVR

FROM NODE 632 …..: 143.02 -142.66 65.21 57.83 AMP/DG < <645 > LOSS= 2.760: ( 2.540) ( .220) kW
TO NODE 646 …….: 65.21 -122.17 65.21 57.83 AMP/DG
<646 > LOSS= .541: ( .271) ( .270) kW
———————*——–A——-*——-B——-*——-C——-*——–
NODE: 646 VOLTS: 1.031 -121.98 1.013 117.90 MAG/ANG
D-LD: 240.66 138.12 .00 .00 kW/kVR
kVll 4.160 Y CAP: .00 .00 kVR

FROM NODE 645 …..: 65.21 -122.18 65.21 57.82 AMP/DG
<646 > LOSS= .541: ( .271) ( .270) kW
———————*——–A——-*——-B——-*——-C——-*——–
NODE: 671 VOLTS: .990 -5.30 1.053 -122.34 .978 116.02 MAG/ANG
D-LD: 385.00 220.00 385.00 220.00 385.00 220.00 kW/kVR
kVll 4.160 Y CAP: .00 .00 .00 kVR

FROM NODE 632 …..: 470.20 -26.90 186.41 -131.89 420.64 101.66 AMP/DG < <671 > LOSS= 35.897: ( 10.484) ( -6.169) ( 31.582) kW
TO NODE 680 …….: .00 .00 .00 .00 .00 .00 AMP/DG
<680 > LOSS= .000: ( -.001) ( .001) ( .000) kW
TO NODE 684 …….: 63.07 -39.12 71.15 121.62 AMP/DG
<684 > LOSS= .580: ( .210) ( .370) kW
TO NODE 692 …….: 229.11 -18.18 69.61 -55.19 178.38 109.39 AMP/DG
<692 > LOSS= .008: ( .003) ( -.001) ( .006) kW
———————*——–A——-*——-B——-*——-C——-*——–
NODE: 680 VOLTS: .990 -5.30 1.053 -122.34 .978 116.02 MAG/ANG
-LD: .00 .00 .00 .00 .00 .00 kW/kVR
kVll 4.160 CAP: .00 .00 .00 kVR

FROM NODE 671 …..: .00 .00 .00 .00 .00 .00 AMP/DG
<680 > LOSS= .000: ( -.001) ( .001) ( .000) kW

 p 3
– R A D I A L P O W E R F L O W — DATE: 6-24-2004 AT 15:33:27 HOURS —
SUBSTATION: IEEE 13; FEEDER: IEEE 13
——————————————————————————-
NODE VALUE PHASE A PHASE B PHASE C UNT O/L< (LINE A) (LINE B) (LINE C) 60.% ---------------------*--------A-------*-------B-------*-------C-------*-------- NODE: 684 VOLTS: .988 -5.32 .976 115.92 MAG/ANG -LD: .00 .00 .00 .00 kW/kVR kVll 4.160 CAP: .00 .00 kVR FROM NODE 671 .....: 63.07 -39.12 71.15 121.61 AMP/DG <684 > LOSS= .580: ( .210) ( .370) kW
TO NODE 611 …….: 71.15 121.61 AMP/DG
<611 > LOSS= .382: ( .382) kW
TO NODE 652 …….: 63.07 -39.12 AMP/DG
<652 > LOSS= .808: ( .808) kW
———————*——–A——-*——-B——-*——-C——-*——–
NODE: 611 VOLTS: .974 115.78 MAG/ANG
Y-LD: 165.54 77.90 kW/kVR
kVLL 4.160 Y CAP: 94.82 kVR

FROM NODE 684 …..: 71.15 121.61 AMP/DG
<611 > LOSS= .382: ( .382) kW
———————*——–A——-*——-B——-*——-C——-*——–
NODE: 652 VOLTS: .983 -5.25 MAG/ANG
Y-LD: 123.56 83.02 kW/kVR
kVll 4.160 Y CAP: .00 kVR

FROM NODE 684 …..: 63.08 -39.15 AMP/DG
<652 > LOSS= .808: ( .808) kW
———————*——–A——-*——-B——-*——-C——-*——–
NODE: 692 VOLTS: .990 -5.31 1.053 -122.34 .978 116.02 MAG/ANG
D-LD: .00 .00 .00 .00 168.37 149.55 kW/kVR
kVll 4.160 Y CAP: .00 .00 .00 kVR

FROM NODE 671 …..: 229.11 -18.18 69.61 -55.19 178.38 109.39 AMP/DG
<692 > LOSS= .008: ( .003) ( -.001) ( .006) kW
TO NODE 675 …….: 205.33 -5.15 69.61 -55.19 124.07 111.79 AMP/DG < <675 > LOSS= 4.136: ( 3.218) ( .345) ( .573) kW
———————*——–A——-*——-B——-*——-C——-*——–
NODE: 675 VOLTS: .983 -5.56 1.055 -122.52 .976 116.03 MAG/ANG
Y-LD: 485.00 190.00 68.00 60.00 290.00 212.00 kW/kVR
kVll 4.160 Y CAP: 193.44 222.75 190.45 kVR

FROM NODE 692 …..: 205.33 -5.15 69.59 -55.20 124.07 111.78 AMP/DG < <675 > LOSS= 4.136: ( 3.218) ( .345) ( .573) kW

IEEE POWER ENGINEERING SOCIETY
Power System Analysis, Computing and Economics Committee

Subcommittee Chairs

EMBED TurboCAD.Drawing.4

Secretary
ROGER C. DUGAN
Sr. Consultant
Electrotek Concepts, Inc.
408 N Cedar Bluff Rd
Knoxville, TN 37923
Vox: 865-470-9222
Fax: 865-470-9223
r.dugan@ieee.org

Vice Chair
CHEN-CHING LIU
Dept. of Electrical Eng.
University of Washington
Box 352500
Seattle, WA 98195
Vox: 206-543-2198
Fax: 206-543-3842
liu@ee.washington.edu

Chair
MARTIN L. BAUGHMAN
Professor Emeritus
The University of Texas at Austin
5703 Painted Valley Drive
Austin, TX 78759
Vox: 512-345-8255
Fax: 512-345-9880
baughman@mail.utexas.edu

The Institute of Electrical and Electronics Engineers, Inc.

Computer & Analytical Methods
EDWIN LIU, Chair
Nexant, Inc.
101, 2nd street, 11F
San Francisco CA 94105
Vox: 415-369-1088
Fax: 415-369-0894
exliu@nexant.com

Distribution Systems Analysis
SANDOVAL CARNEIRO, JR, Chair
Dept. of Electrical Engineering
Federal Univ. of Rio de Janeiro
Rio de Janeiro, RJ, Brazil
Vox: 55-21-25628025
Fax: 55-21-25628628
sandoval@coep.ufrj.br

Intelligent System Applications
DAGMAR NIEBUR, Chair
Department of ECE
Drexel University
3141 Chestnut Street
Philadelphia, PA 19104
Vox: (215) 895 6749
Fax: (215) 895 1695
niebur@cbis.ece.drexel.edu

Reliability, Risk & Probability 
Applications
JAMES D. MCCALLEY, Chair
Iowa State University
Room 2210 Coover Hall
Ames, Iowa 50011
Vox: 515-294-4844
Fax: 515-294-4263
jdm@iastate.edu

Systems Economics
ROSS BALDICK, Chair
ECE Dept. , ENS 502
The University of Texas at Austin
Austin, TX 78712
Vox: 512-471-5879
Fax: 512-471-5532
baldick@ece.utexas.edu

Past Chair
JOANN V. STARON
Nexant Inc/ PCA
1921 S. Alma School Road
Suite 207
Mesa, AZ 85210
Vox: 480-345-7600
Fax: 480-345-7601
joann.staron@pca-corp.com

The Institute of Electrical and Electronics Engineers, Inc.