dastorkar-fakhrtaha
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See discussions, stats, and author profiles for this publication at: http://www.researchgate.net/publication/274008087
DIgSILENT Power Factory
CONFERENCE PAPER FEBRUARY 2015
READS
55
1 AUTHOR:
Hassan Fakhrtaha
Khorasan Institute of Higher Education
7PUBLICATIONS 0CITATIONS
SEE PROFILE
Available from: Hassan Fakhrtaha
Retrieved on: 05 December 2015
http://www.researchgate.net/institution/Khorasan_Institute_of_Higher_Education?enrichId=rgreq-f005899e-58e7-42ad-85c8-6a08648dde6b&enrichSource=Y292ZXJQYWdlOzI3NDAwODA4NztBUzoyMTA3NzAyNjU2Nzc4MjVAMTQyNzI2Mjk1NjA2MA%3D%3D&el=1_x_6http://www.researchgate.net/institution/Khorasan_Institute_of_Higher_Education?enrichId=rgreq-f005899e-58e7-42ad-85c8-6a08648dde6b&enrichSource=Y292ZXJQYWdlOzI3NDAwODA4NztBUzoyMTA3NzAyNjU2Nzc4MjVAMTQyNzI2Mjk1NjA2MA%3D%3D&el=1_x_6http://www.researchgate.net/institution/Khorasan_Institute_of_Higher_Education?enrichId=rgreq-f005899e-58e7-42ad-85c8-6a08648dde6b&enrichSource=Y292ZXJQYWdlOzI3NDAwODA4NztBUzoyMTA3NzAyNjU2Nzc4MjVAMTQyNzI2Mjk1NjA2MA%3D%3D&el=1_x_6http://www.researchgate.net/institution/Khorasan_Institute_of_Higher_Education?enrichId=rgreq-f005899e-58e7-42ad-85c8-6a08648dde6b&enrichSource=Y292ZXJQYWdlOzI3NDAwODA4NztBUzoyMTA3NzAyNjU2Nzc4MjVAMTQyNzI2Mjk1NjA2MA%3D%3D&el=1_x_6http://www.researchgate.net/institution/Khorasan_Institute_of_Higher_Education?enrichId=rgreq-f005899e-58e7-42ad-85c8-6a08648dde6b&enrichSource=Y292ZXJQYWdlOzI3NDAwODA4NztBUzoyMTA3NzAyNjU2Nzc4MjVAMTQyNzI2Mjk1NjA2MA%3D%3D&el=1_x_6http://www.researchgate.net/institution/Khorasan_Institute_of_Higher_Education?enrichId=rgreq-f005899e-58e7-42ad-85c8-6a08648dde6b&enrichSource=Y292ZXJQYWdlOzI3NDAwODA4NztBUzoyMTA3NzAyNjU2Nzc4MjVAMTQyNzI2Mjk1NjA2MA%3D%3D&el=1_x_6http://www.researchgate.net/institution/Khorasan_Institute_of_Higher_Education?enrichId=rgreq-f005899e-58e7-42ad-85c8-6a08648dde6b&enrichSource=Y292ZXJQYWdlOzI3NDAwODA4NztBUzoyMTA3NzAyNjU2Nzc4MjVAMTQyNzI2Mjk1NjA2MA%3D%3D&el=1_x_6http://www.researchgate.net/institution/Khorasan_Institute_of_Higher_Education?enrichId=rgreq-f005899e-58e7-42ad-85c8-6a08648dde6b&enrichSource=Y292ZXJQYWdlOzI3NDAwODA4NztBUzoyMTA3NzAyNjU2Nzc4MjVAMTQyNzI2Mjk1NjA2MA%3D%3D&el=1_x_6http://www.researchgate.net/?enrichId=rgreq-f005899e-58e7-42ad-85c8-6a08648dde6b&enrichSource=Y292ZXJQYWdlOzI3NDAwODA4NztBUzoyMTA3NzAyNjU2Nzc4MjVAMTQyNzI2Mjk1NjA2MA%3D%3D&el=1_x_1http://www.researchgate.net/profile/Hassan_Fakhrtaha?enrichId=rgreq-f005899e-58e7-42ad-85c8-6a08648dde6b&enrichSource=Y292ZXJQYWdlOzI3NDAwODA4NztBUzoyMTA3NzAyNjU2Nzc4MjVAMTQyNzI2Mjk1NjA2MA%3D%3D&el=1_x_7http://www.researchgate.net/institution/Khorasan_Institute_of_Higher_Education?enrichId=rgreq-f005899e-58e7-42ad-85c8-6a08648dde6b&enrichSource=Y292ZXJQYWdlOzI3NDAwODA4NztBUzoyMTA3NzAyNjU2Nzc4MjVAMTQyNzI2Mjk1NjA2MA%3D%3D&el=1_x_6http://www.researchgate.net/profile/Hassan_Fakhrtaha?enrichId=rgreq-f005899e-58e7-42ad-85c8-6a08648dde6b&enrichSource=Y292ZXJQYWdlOzI3NDAwODA4NztBUzoyMTA3NzAyNjU2Nzc4MjVAMTQyNzI2Mjk1NjA2MA%3D%3D&el=1_x_5http://www.researchgate.net/profile/Hassan_Fakhrtaha?enrichId=rgreq-f005899e-58e7-42ad-85c8-6a08648dde6b&enrichSource=Y292ZXJQYWdlOzI3NDAwODA4NztBUzoyMTA3NzAyNjU2Nzc4MjVAMTQyNzI2Mjk1NjA2MA%3D%3D&el=1_x_4http://www.researchgate.net/?enrichId=rgreq-f005899e-58e7-42ad-85c8-6a08648dde6b&enrichSource=Y292ZXJQYWdlOzI3NDAwODA4NztBUzoyMTA3NzAyNjU2Nzc4MjVAMTQyNzI2Mjk1NjA2MA%3D%3D&el=1_x_1http://www.researchgate.net/publication/274008087_DIgSILENT_Power_Factory________?enrichId=rgreq-f005899e-58e7-42ad-85c8-6a08648dde6b&enrichSource=Y292ZXJQYWdlOzI3NDAwODA4NztBUzoyMTA3NzAyNjU2Nzc4MjVAMTQyNzI2Mjk1NjA2MA%3D%3D&el=1_x_3http://www.researchgate.net/publication/274008087_DIgSILENT_Power_Factory________?enrichId=rgreq-f005899e-58e7-42ad-85c8-6a08648dde6b&enrichSource=Y292ZXJQYWdlOzI3NDAwODA4NztBUzoyMTA3NzAyNjU2Nzc4MjVAMTQyNzI2Mjk1NjA2MA%3D%3D&el=1_x_2 -
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DIgSILENTPower Factory
:
Dr. Mos. Eidiani
:
Hassan Fakhrtaha
393
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Contents
DigSilent Power Factory:.......................................................................................................................4
$4..3#:..............................................................................................................................................6
:...........................................................................................................................................................................69
:.................................................................................................................................................................1
-:...........................................................................................................................................................................1
-2:
........................................................................................................................................................7
-3:.......................................................................................................................................21
-4:
Station control..........................................................................................................24
-5:FEEDER...........................................................................................................................................27
:.......................................................................................................................................................31
:DIgSILENT...........................................................................................................39
:.......................................................................................................................................................................................................44
$avr-gov-pss#..................................................................................................44
:.......................................................................................................................................................................................................48
,......................................................................................................48
: ....................................................................................................................56
6-:......................................................................................................................56
:6-2
..............................................................................................................................61
:
...........................................................................................................................................................65
:........................................................................................................................................................................69
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4
8-:........................................................................................................................................69
8-2:$#..........................................72
:.......................................................................................................................................................................73
:.....................................................................................................................................................................81
1-:$Contingency Analysis#...............................................................................................................8
1-2:..............................................................................................................................................................84
:DigSilent Power Factory
DigSilent
976
Power Factory.
:
Generation
Transmission
Distribution
Industrial
,
,
,
,
:
Generation
.
.
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5
Transmission
.
.
Distribution
.
.
Industrial
.
.
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:4..3#$
Google
.
rar
setup.exe Workstation
Crack
Copy
$ C:\DIgSILENT\pf141\#Paste .
$ #Readme.txt
.
usernamepassword
Demo
ok.
usernamepassword
.
9:
usernamepassword filenew
name
$
fakhrtaha930801#
new
project
Execute
name
Grid OK
.
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7
.
-
$ # .!
2-
3-
4-
.
9.
.
PowerFactory 14.1.3
LaboratoryPower System Analysis1
MyMaster : Dr eidianiUndergraduate : Hassan Fakhrtaha
Number of Undergraduate : 9324044216
Project: load flow
Graphic: Grid
Date: 930801
Annex: step2
Nodes Branches Terminal
BUS3
BUS1
BUS5
BUS9
BUS4
BUS2
BUS6
BUS8
BUS7
Line36
Line23
Line48
Line24
Line78Line67
G~G1
G~ G9
G~G5
T12
T98T56
LOAD7
LOAD3 LOAD4
DIgSILENT
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8
-Type:
:
Basic Data
type
new project type.
name
OK
$
# .
-2
:
:
$ #Edit relevant objects calculation file
. $
#
type $
.#
.
$
#User settings
Data managersave data automatically (tabular input)
-
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9
.
type
$ #calculate load flow
.
result box
.....
.
$
#output calculation analysis
total system summary
$#maximize output window
$ #maximize graphic window.
.
P owerFactory 14.1.3
Laboratory Power System Analysis 1
My Master : Dr eidianiUndergraduate : Hassan Fakhrtaha
Number of Undergraduate : 9324044216
Project: load flow
Graphic: Grid
Date: 930801
Annex: step2
Load Flow Balanced
Nodes
Line-Line Voltage, Magnitude [kV]
Voltage, Magnitude [p.u.]
Branches
Active Power [MW]
Reactive Power [Mvar]
BUS3221.780.96
144.51
BUS2230.881.00
147.02
BUS4224.070.97
145.15
BUS1 17.161.040.00
B
US8
229
.55
1.0
0
150
.28
BUS7
226
.45
0.9
8
148
.41
BUS5
18
.45
1.0
2
6.0
1
B
US6
230
.99
1.0
0
151
.13
BUS9
13
.84
1.0
2
3.1
3
Line
23
-54.38-40.3617.63
54.8538.2017.63
Line
36
72
.35
10
.64
18
.55
-70.62-9.6418.55
Line4
8
52
.09
0.3
6
13
.18
-51.02-3.4113.18
T12
94.2067.7644.63
-94.20-60.5944.63
LOAD3
125.0050.00
LOAD4
90.0030.00
Line
24
-38.98-26.5912.16
39.3522.3912.16
G~G1
94.2067.7646.89
LOAD7
100
.00
35
.00
Line78
-32
.77
-13
.11
9.0
0
32
.91
5.5
2
9.0
0
G~G5
140
.00
39
.88
75
.82
T56
140
.00
39
.88
71
.01
-140
.00
-27
.27
71
.01
T98
-85
.00
-5
.88
56
.91
85
.00
10
.15
56
.91
Line67
-67
.23
-21
.89
18
.03
67
.65
16
.63
18
.03
G~ G9
85
.00
10
.15
66
.88
DIgSILENT
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1
:
- :
.
........
$
#
Diagram colouring
load flow
colour settings
.
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.
-
,
.
-2
-
-3 4.2
MW- 2.79 Mvar.
4-
$line 23#
showvector diagram & current
voltage
$ #scale x-axes automatically ,
.
:
23. $
81# .
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2
5- 7 220 Mw100Mvar
load flow ok .
.BUS 7
3
$G1 ,G5#
.
7
.
13.012.011.010.09.008.007.006.005.004.003.002.001.00-1.00-2.00-3.00-4.00-5.00-6.00-7.00-8.00-9.00-10.0-11.0-12.0-13.0-14.0
3.00
2.00
1.00
-1.00
-2.00
-3.00
-4.00
0.0500 kA/Tick25.0000 kV/Tick
0.176 kA/-72.08
128.042 kV/144.51
Line23 Terminal iCurrent in kALine-Ground Voltage in kV
13.012.011.010.09.008.007.006.005.004.003.002.001.00-1.00-2.00-3.00-4.00-5.00-6.00-7.00-8.00-9.00-10.0-11.0-12.0-13.0-14.0
3.00
2.00
1.00
-1.00
-2.00
-3.00
-4.00
0.0600 kA/Tick25.0000 kV/Tick
0.167 kA/112.17
133.299 kV/147.02
Line23 Terminal jCurrent in kALine-Ground Voltage in kV
MyMaster :Dr eidiani Vector Diagram
Undergraduate : Hassan Fakhrtaha Number of Undergraduate : 9324044216
Date: 930728
Annex: step1
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3
6-
ctrl
show bar diagram
KA
Bar
Diagram67.
Load Flow Balanced
Nodes
Line-Line Voltage, Magnitude [kV]
Voltage, Magnitude [p.u.]
Branches
Active Power [MW]
Reactive Power [Mvar]
PowerFactory 14.1.3
Laboratory Power System Analysis1
My Master : Dr eidianiUndergraduate : Hassan Fakhrtaha
Number of Undergraduate : 9324044216
Project: load flow
Graphic: Grid
Date: 10/21/2014
Annex: step1
BUS3218.360.95
137.15
BUS2228.911.00
143.07
BUS4220.680.96
137.97
BUS117.161.040.00
BUS8
223.3
9
0.9
7
137.2
5
BUS7
209.8
8
0.9
1
131.7
5
BUS5
18.4
5
1.0
2
-7.3
9
BUS6
223.6
2
0.9
7
137.5
7
BUS9
13.8
4
1.0
2
-9.8
2
Line23
-118.37-34.2532.58
120.0342.3932.58
Line36
6.7
0
8.7
7
4.5
2
-6.63-15.754.52
Line48
-5.1
0
4.2
0
3.2
8
5.13-11.443.28
T12
216.8893.9290.90
-216.88-64.1790.90
LOAD3
125.0050.00
LOAD4
90.0030.00
Line24
-95.13-18.5625.36
96.8521.7925.36
G~G1
216.8893.9295.49
LOAD7
220.0
0
100.0
0
Line78
-88.7
6
-42.3
7
27.0
6
90.1
0
45.7
8
27.0
6
G~G5
140.0
0
92.6
2
87.4
3
T56
140.0
0
92.6
2
81.8
8
-140.0
0
-75.8
5
81.8
8
T98
-85.0
0
-49.9
8
67.6
8
85.0
0
56.0
2
67.6
8
Line67
-131.2
4
-57.6
3
39.4
3
133.3
0
67.0
9
39.4
3
G~ G9
85.0
0
56.0
2
79.5
3
DIgSILENT
Lin
e67
Lin
e78
Lin
e24
Lin
e48
Lin
e36
Lin
e23
0.50
0.40
0.30
0.20
0.10
0.00
Current, Magnitude in kA
My master :Dr eidiani Bar-Diagram
Undergraduate : Hassan Fakhrtaha Number of Undergraduate : 9324044216
Date: 930728
Annex: step1 /1
DIgSI
LENT
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4
9-#
G1
.% PG1 = 216.88 MwloadingG1 = 95.49
#-9
G1300Mva
G1:
G1
300Mva
OK
. G1 $PG1 = 216.88 Mw#
80%$ loadingG1 = 78.78 % #
.
Load Flow Balanced
NodesLine-Line Voltage, Magnitude [kV]
Voltage, Magnitude [p.u.]
,
BranchesActive Power [MW]
Reactive Power [Mvar]
PowerFactory 14.1.3
Laboratory Power System Analysis1
My Master : Dr eidianiUndergraduate : Hassan Fakhrtaha
Number of Undergraduate : 9324044216
Project: load flow
Graphic: GridDate: 10/21/2014
Annex: step1
BUS3218.360.95
137.15
BUS2228.911.00
143.07
BUS4220.680.96
137.97
BUS117.161.040.00
BUS8
223
.39
0.9
7
137
.25
BUS7
209
.88
0.9
1
131
.75
BUS5
18
.45
1.0
2
-7
.39
BUS6
223
.62
0.9
7
137
.57
BUS9
13
.84
1.0
2
-9
.82
Line
23
-118.37-34.2532.58
120.0342.3932.58
Line
36
6.7
0
8.7
7
4.5
2
-6.63-15.754.52
Line
48
-5
.10
4.2
0
3.2
8
5.13-11.443.28
T12
216.8893.9290.90
-216.88-64.1790.90
LOAD3
125.0050.00
LOAD4
90.0030.00
Line
24
-95.13-18.5625.36
96.8521.7925.36
G~G1
216.8893.9295.49
LOAD
7
220.0
0
100.0
0
Line78
-88
.76
-42
.37
27
.06
90
.10
45
.78
27
.06
G~G5
140
.00
92
.62
87
.43
T56
140
.00
92
.62
81
.88
-140
.00
-75
.85
81
.88
T98
-85
.00
-49
.98
67
.68
85
.00
56
.02
67
.68
Line67
-131
.24
-57
.63
39
.43
133
.30
67
.09
39
.43
G~ G9
85
.00
56
.02
79
.53
DIgSILENT
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5
1-7 400Mvar
$ No convergence in load flow! #
25.
- 7400Mvar $ 100Mvar #
BUS
ctrl
show bar diagram
Per uint .
PowerFactory 14.1.3
Laboratory Power System Analysis1
My Master : Dr eidianiUndergraduate : Hassan Fakhrtaha
Number of Undergraduate : 9324044216
Project: load flow
Graphic: Grid
Date: 11/5/2014
Annex: step1
Load Flow Balanced
Nodes
Line-Line Voltage, Magnitude [kV]
Voltage, Magnitude [p.u.]
,
Branches
Active Power [MW]
Reactive Power [Mvar]
BUS3218.360.95
137.15
BUS117.161.040.00
BU
S5
18.4
5
1.0
2
-7.3
9
BU
S9
13.8
4
1.0
2
-9.8
2
BUS4220.680.96
137.97
BUS2228.911.00
143.07
BUS6
223
.62
0.9
7
137
.57
BUS8
223
.39
0.9
7
137
.25
BUS7
209.8
8
0.9
1
131.7
5
Line36
6.7
0
8.7
7
4.5
2
-6.63-15.754.52
Line23
-118.37-34.2532.58
120.0342.3932.58
Line48
-5.1
0
4.2
0
3.2
8
5.13-11.443.28
Line24
-95.13-18.5625.36
96.8521.7925.36
Line78
-88.7
6
-42.3
7
27.0
6
90.1
0
45.7
8
27.0
6Line67
-131.2
4
-57.6
3
39.4
3
133.3
0
67.0
9
39.4
3
G~G1
216.8893.9278.78
G~ G9
85.0
0
56.0
2
79.5
3
G~G5
140.0
0
92.6
2
87.4
3
T12
216.8893.92
90.90
-216.88-64.1790.90
T98
-85.0
0
-49.9
8
67.6
8
85.0
0
56.0
2
67.6
8
T56
140.0
0
92.6
2
81.8
8
-140.0
0
-75.8
5
81.8
8
LOAD7
220.0
0
100.0
0
LOAD3
125.0050.00
LOAD4
90.0030.00
DIgSILENT
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6
2-
show layer
#invisible $direction
arrows$
#visible ok
.
BUS9 BUS6 BUS5 BUS7 BUS8 BUS1 BUS4 BUS2 BUS3
1.25
1.00
0.75
0.50
0.25
0.00
Voltage, Magnitude in p.u.
My master :Dr eidiani Bar-Diagram
Undergraduate : Hassan Fakhrtaha Number of Undergraduate : 9324044216
Date: 930730
Annex: step1 /1
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7
-2:
37
7 $1
#
7
. $ #
shunt/filter4f 7
.
$
#layout parameter
layout
parameterinductance / capacitance
4f ok .
7
.
Load Flow Balanced
Nodes
Line-Line Voltage, Magnitude [kV]
Voltage, Magnitude [p.u.]
,
Branches
Active Power [MW]
Reactive Power [Mvar]
PowerFactory 14.1.3
Laboratory Power System Analysis1
My Master : Dr eidianiUndergraduate : Hassan Fakhrtaha
Number of Undergraduate : 9324044216
Project: load flow
Graphic: Grid
Date: 10/23/2014
Annex: step1
BUS3218.360.95
137.15
BUS2228.911.00
143.07
BUS4220.680.96
137.97
BUS117.161.040.00
BUS8
223
.3
9
0.9
7
137
.2
5
BUS7
209
.88
0.9
1
131
.75
BUS
5
18
.45
1.0
2
-7
.39
BUS6
223
.6
2
0.9
7
137
.5
7
BUS
9
13
.84
1.0
2
-9
.82
Line
23
-118.37-34.2532.58
120.0342.3932.58
Line
36
6.7
0
8.7
7
4.5
2
-6.63-15.754.52
Line
48
-5
.10
4.2
0
3.2
8
5.13-11.443.28
T12
216.8893.9290.90
-216.88-64.1790.90
LOAD3
125.0050.00
LOAD4
90.0030.00
Line
24
-95.13-18.5625.36
96.8521.7925.36
G~G1
216.8893.9278.78
LOAD7
220
.00
100
.00
Line78
-88
.76
-42
.37
27
.06
90
.10
45
.78
27
.06
G~G5
140
.00
92
.62
87
.43
T56
140
.00
92
.62
81
.88
-140
.00
-75
.85
81
.88
T98
-85
.00
-49
.98
67
.68
85
.00
56
.02
67
.68
Line67
-131
.24
-57
.63
39
.43
133
.30
67
.09
39
.43
G~ G9
85
.00
56
.02
79
.53
DIgSILENT
-
7/26/2019 dastorkar-fakhrtaha
19/88
8
.
-
7
230kv
230kv.
-2 7
Q= -61.57 Mvar.
Load Flow Balanced
Nodes
Line-Line Voltage, Magnitude [kV]
Voltage, Magnitude [p.u.]
,
Branches
Active Power [MW]
Reactive Power [Mvar]
PowerFactory 14.1.3
Laboratory Power System Analysis1
My Master : Dr eidianiUndergraduate : Hassan Fakhrtaha
Number of Undergraduate : 9324044216
Project: load flow
Graphic: Grid
Date: 930801
Annex: step2
BUS3221.180.96
137.31
BUS2230.411.00
143.14
BUS4223.120.97
138.12
BUS117.161.040.00
BUS8
227
.30
0.9
9
137
.37
BUS7
221
.36
0.9
6
132
.06
BUS5
18
.45
1.0
2
-7
.44
BUS6
228
.55
0.9
9
137
.63
BUS9
13
.84
1.0
2
-9
.75
Shunt/Filter
0.0
0
-61
.57
Line
23
-118.14-28.5831.73
119.7235.8931.73
Line
36
6.9
9
14
.46
5.8
7
-6.86-21.425.87
Line
48
-4
.63
7.8
0
4.1
0
4.70-15.134.10
T12
216.0681.9388.87
-216.06-53.4988.87
LOAD3
125.0050.00
LOAD4
90.0030.00
Line
24
-94.70-14.8724.80
96.3417.6024.80
G~G1
216.0681.9377.02
LOAD7
220
.00
100
.00
Line78
-88
.61
-14
.29
23
.41
89
.63
14
.44
23
.41
G~G5
140
.00
57
.39
78
.81
T56
140
.00
57
.39
73
.81
-140
.00
-43
.77
73
.81
T98
-85
.00
-22
.24
59
.27
85
.00
26
.88
59
.27
Line67
-131
.39
-24
.13
34
.84
133
.01
29
.31
34
.84
G~ G9
85
.00
26
.88
69
.65
DIgSILENT
-
7/26/2019 dastorkar-fakhrtaha
20/88
9
3-
$#
73
T56G5.
-4 $#
7
.
:
$
#.
Load Flow Balanced
Nodes
Line-Line Voltage, Magnitude [kV]
Voltage, Magnitude [p.u.]
,
Branches
Active Power [MW]
Reactive Power [Mvar]
PowerFactory 14.1.3
Laboratory Power System Analysis1
My Master : Dr eidianiUndergraduate : Hassan Fakhrtaha
Number of Undergraduate : 9324044216
Project: load flow
Graphic: Grid
Date: 930801
Annex: step2
BUS3222.760.97
138.64
BUS2231.301.01
143.83
BUS4224.410.98
139.33
BUS117.161.040.00
BUS8
228
.19
0.9
9
139
.17
BU
S7
223
.26
0.9
7
134
.21
BUS5
18
.45
1.0
2
-5.59
BUS6
229
.61
1.0
0
139
.50
BUS9
13
.84
1.0
2
-7.9
6
Shunt/Filter
0.0
0
-62
.64
Line
23
-106.61-28.0528.57
107.8932.7328.57
Line
36
12
.29
12
.14
5
.88
-12.15-19.155.88
Line
48
0
.58
5
.54
3
.37
-0.55-13.073.37
T
12
195.2272.5280.10
-195.22-49.4380.10
LOAD3
118.7747.20
LOAD4
86.5328.70
Line
24
-85.98-15.6322.48
87.3316.7022.48
G~G1
195.2272.5269.42
LOAD7
209
.78
94
.79
Line78
-83
.53
-11
.38
21
.80
84
.42
10
.29
21
.80
G~G5
140
.00
49
.77
77
.39
T56
140
.00
49
.77
72
.48
-140
.00
-36
.63
72
.48
T98
-85
.00
-15
.83
58
.10
85
.00
20
.28
58
.10
Line67
-126
.25
-20
.77
33
.09
127
.71
24
.49
33
.09
G~ G9
85
.00
20
.28
68
.27
DIgSILENT
-
7/26/2019 dastorkar-fakhrtaha
21/88
21
-3:
7
7100Mvar170Mvar
7170 Mvar
Vbus6 = 0.94 p.u..
load flow automatic tap
changing
.
PowerFactory 14.1.3
Laboratory Power System Analysis1
My Master : Dr eidianiUndergraduate : Hassan Fakhrtaha
Number of Undergraduate : 9324044216
Project: load flow
Graphic: Grid
Date: 930801
Annex: step2
Load Flow Balanced
Nodes
Line-Line Voltage, Magnitude [kV]
Voltage, Magnitude [p.u.]
,
Branches
Active Power [MW]
Reactive Power [Mvar]
BUS3214.600.93
136.87
BUS2226.900.99
142.94
BUS4217.430.95
137.71
BUS117.161.040.00
BUS8
218
.21
0.9
5
136
.97B
US7
194
.74
0.8
5
131
.16
BUS5
18
.45
1.0
2
-7
.43
BUS6
217
.12
0.9
4
137
.38
BUS9
13
.84
1.0
2
-10
.03
Shunt/Filter
0.0
0
0.0
0
Line
23
-119.12-41.3933.93
120.9250.8533.93
Line
36
5.9
1
1.7
3
2.8
0
-5.88-8.612.80
Line
48
-6
.11
-0
.22
2.4
3
6.13-6.802.43
T12
218.88110.0294.22
-218.88-78.0694.22
LOAD3
125.0050.00
LOAD4
90.0030.00
Line
24
-96.13-23.2026.26
97.9727.2126.26
G~G1
218.88110.0281.66
LOAD7
220
.00
170
.00
Line78
-88
.96
-74
.35
34
.37
91
.11
85
.37
34
.37
G~G5
140
.00
139
.20
102
.83
T56
140
.00
139
.20
96
.31
-140
.00
-116
.02
96
.31
T98
-85
.00
-85
.15
84
.54
85
.00
94
.58
84
.54
Line67
-131
.04
-95
.65
48
.10
134
.09
114
.29
48
.10
G~ G9
85
.00
94
.58
99
.34
DIgSILENT
-
7/26/2019 dastorkar-fakhrtaha
22/88
2
.
- 7170 Mvar
7
3-4-6-7-8
.
2-
T56
Basic data
type
load flow ok.
PowerFactory 14.1.3
Laboratory Power System Analysis1
My Master : Dr eidianiUndergraduate : Hassan Fakhrtaha
Number of Undergraduate : 9324044216
Project: load flow
Graphic: Grid
Date: 930801
Annex: step2
Load Flow Balanced
Nodes
Line-Line Voltage, Magnitude [kV]
Voltage, Magnitude [p.u.]
,
Branches
Active Power [MW]
Reactive Power [Mvar]
BUS3214.600.93
136.87
BUS2226.900.99
142.94
BUS4217.430.95
137.71
BUS117.161.040.00
BUS8
218
.21
0.9
5
136
.97B
US7
194
.74
0.8
5
131
.16
BUS5
1
8.4
5
1
.02
-7
.43
BUS6
217
.12
0.9
4
137
.38
BUS9
1
3.8
4
1.0
2
-10
.03
Shunt/Filter
0.0
0
0.0
0
Line
23
-119.12-41.3933.93
120.9250.8533.93
Line
36
5.9
1
1.7
3
2.8
0
-5.88-8.612.80
Line
48
-6
.11
-0
.22
2.4
3
6.13-6.802.43
T12
218.88110.0294.22
-218.88-78.0694.22
LOAD3
125.0050.00
LOAD4
90.0030.00
Line
24
-96.13-23.2026.26
97.9727.2126.26
G~G1
218.88110.0281.66
LOAD7
220
.00
170
.00
Line78
-88
.96
-74
.35
34
.37
91
.11
85
.37
34
.37
G~G5
140
.00
139
.20
102
.83
T56
140
.00
139
.20
96
.31
-140
.00
-116
.02
96
.31
T98
-85
.00
-85
.15
84
.54
85
.00
94
.58
84
.54
Line67
-131
.04
-95
.65
48
.10
134
.09
114
.29
48
.10
G~ G9
85
.00
94
.58
99
.34
DIgSILENT
-
7/26/2019 dastorkar-fakhrtaha
23/88
22
6
6
,
3-4-6-8
6 ..Vbus6 = 0.99 p.u0.94 p.u.
-3 T56
show layer
#invisible $Tap position
#$
visible ok
4.
PowerFactory 14.1.3
Laboratory Power System Analysis1
My Master : Dr eidianiUndergraduate : Hassan Fakhrtaha
Number of Undergraduate : 9324044216
Project: load flow
Graphic: Grid
Date: 930801
Annex: step2
Load Flow Balanced
Nodes
Line-Line Voltage, Magnitude [kV]
Voltage, Magnitude [p.u.]
,
Branches
Active Power [MW]
Reactive Power [Mvar]
BUS3220.440.96
137.08
BUS2229.431.00
143.04
BUS4220.350.96
137.96
BUS117.161.040.00
BUS8
221
.51
0.9
6
137
.29B
US7
203.8
6
0.89
131.6
9
BUS5
18
.45
1.0
2
-7
.43
BUS6
228
.39
0.9
9
137
.24
BUS9
13
.84
1.0
2
-9
.75
Shunt/Filter
0.0
0
0.0
0
Line
23
-119.49-26.8732.08
121.1134.5432.08
Line
36
5.6
5
16
.29
6.2
3
-5.51-23.136.23
Line
48
-5
.44
0.4
6
2.4
7
5.46-7.692.47
T12
218.3389.9990.83
-218.33-60.2990.83
LOAD3
125.0050.00
LOAD4
90.0030.00
Line
24
-95.46-22.3125.69
97.2225.7525.69
G~G1
218.3389.9978.72
LOAD7
220
.00
170
.00
Line78
-88
.82
-56
.44
29
.80
90
.44
62
.50
29
.80
G~G5
140
.00
179
.65
118
.62
T56
140
.00
179
.65
111
.10
-140
.00
-148
.79
111
.10
T98
-85
.00
-62
.96
73
.22
85
.00
70
.03
73
.22
Line67
-131
.18
-113
.56
49
.14
134
.35
132
.50
49
.14
G~ G9
85
.00
70
.03
86
.04
DIgSILENT
-
7/26/2019 dastorkar-fakhrtaha
24/88
23
4-
7
200Mvar
.
Tap
T56
7 6
.
PowerFactory 14.1.3
Laboratory Power System Analysis1
My Master : Dr eidianiUndergraduate : Hassan Fakhrtaha
Number of Undergraduate : 9324044216
Project: load flow
Graphic: Grid
Date: 930801
Annex: step2
Load Flow Balanced
Nodes
Line-Line Voltage, Magnitude [kV]
Voltage, Magnitude [p.u.]
,
Branches
Active Power [MW]
Reactive Power [Mvar]
BUS3220.440.96
137.08
BUS2229.431.00
143.04
BUS4220.350.96
137.96
BUS117.161.040.00
BUS8
221
.5
1
0.9
6
137
.2
9BUS7
203
.86
0.8
9
131
.69
BUS
5
18
.45
1.0
2
-7
.43
BUS6
228
.3
9
0.9
9
137
.2
4
BUS
9
13
.84
1.0
2
-9
.75
Shunt/Filter
0.0
0
0.0
0
1
Line
23
-119.49-26.8732.08
121.1134.5432.08
Line
36
5.6
5
16
.29
6.2
3
-5.51-23.136.23
Line
48
-5
.44
0.4
6
2.4
7
5.46-7.692.47
T12
218.3389.9990.83
-218.33-60.2990.83
LOAD3
125.0050.00
LOAD4
90.0030.00
Line
24
-95.46-22.3125.69
97.2225.7525.69
G~G1
218.3389.9978.72
LOAD7
220
.00
170
.00
Line78
-88
.82
-56
.44
29
.80
90
.44
62
.50
29
.80
G~G5
140
.00
179
.65
118
.62
T56
140
.00
179
.65
111
.10
-140
.00
-148
.79
111
.10
4 T98
-85
.00
-62
.96
73
.22
85
.00
70
.03
73
.22
Line67
-131
.18
-113
.56
49
.14
134
.35
132
.50
49
.14
G~ G9
85
.00
70
.03
86
.04
DIgSILENT
-
7/26/2019 dastorkar-fakhrtaha
25/88
24
-4
:Station control
Station control
$
.1per unit #
reactive power control
7
.
PowerFactory 14.1.3
Laboratory Power System Analysis1
My Master : Dr eidianiUndergraduate : Hassan Fakhrtaha
Number of Undergraduate : 9324044216
Project: load flow
Graphic: Grid
Date: 930801
Annex: step2
Load Flow Balanced
Nodes
Line-Line Voltage, Magnitude [kV]
Voltage, Magnitude [p.u.]
,
Branches
Active Power [MW]
Reactive Power [Mvar]
BUS3221.170.96
137.03
BUS2229.571.00
143.01
BUS4220.100.96
137.94
BUS117.161.040.00
BUS8
220
.5
5
0.9
6
137
.2
7BUS7
200
.85
0.8
7
131
.61
BUS
5
18
.45
1.0
2
-7
.45
BUS6
230
.1
4
1.0
0
137
.0
7
BUS
9
13
.84
1.0
2
-9
.76
Shunt/Filter
0.0
0
0.0
0
1
Line
23
-120.16-23.9931.99
121.7731.5731.99
Line
36
5.0
2
19
.28
6.9
1
-4.84-26.016.91
Line
48
-5
.71
-1
.20
2.1
8
5.73-6.012.18
T12
219.2888.9791.02
-219.28-59.1591.02
LOAD3
125.0050.00
LOAD4
90.0030.00
Line
24
-95.73-23.9925.89
97.5127.5825.89
G~G1
219.2888.9778.88
LOAD7
220
.00
200
.00
Line78
-88
.92
-63
.07
31
.34
90
.71
70
.70
31
.34
G~G5
140
.00
222
.50
136
.92
T56
140
.00
222
.50
128
.23
-140
.00
-181
.39
128
.23
6 T98
-85
.00
-69
.50
76
.34
85
.00
77
.18
76
.34
Line67
-131
.08
-136
.93
54
.49
134
.98
162
.11
54
.49
G~ G9
85
.00
77
.18
89
.70
DIgSILENT
-
7/26/2019 dastorkar-fakhrtaha
26/88
25
Station control G5 Define
Station control load flow
controlled bar select
. Grid$
7 #ok
Station control 7
Station control 7G5
7 .1p.u
.
PowerFactory 14.1.3
Laboratory Power System Analysis1
My Master : Dr eidianiUndergraduate : Hassan Fakhrtaha
Number of Undergraduate : 9324044216
Project: load flow
Graphic: Grid
Date: 930801
Annex: step2
Load Flow Balanced
Nodes
Line-Line Voltage, Magnitude [kV]
Voltage, Magnitude [p.u.]
,
Branches
Active Power [MW]
Reactive Power [Mvar]
BUS7
187
.22
0.8
1
130
.79
BUS3212.720.92
136.70
BUS2225.900.98
142.86
BUS4215.800.94
137.56
BUS117.161.040.00
BUS8
215
.6
4
0.9
4
136
.7
8
BUS
5
18
.45
1.0
2
-7
.50
BUS6
213
.8
8
0.9
3
137
.2
4
BUS
9
13
.84
1.0
2
-10
.19
Shunt/Filter
0.0
0
0.0
0
1
Line
23
-119.67-44.8034.68
121.5655.0134.68
Line
36
5.3
4
-1
.56
2.0
2
-5.33-5.202.02
Line
48
-6
.79
-2
.28
2.2
0
6.81-4.612.20
T12
220.27118.1596.14
-220.27-84.8896.14
LOAD3
125.0050.00
LOAD4
90.0030.00
Line
24
-96.81-25.3926.78
98.7229.8626.78
G~G1
220.27118.1583.32
LOAD7
220
.00
200
.00
Line78
-89
.06
-88
.09
38
.63
91
.79
104
.29
38
.63
G~G5
140
.00
162
.39
111
.67
T56
140
.00
162
.39
104
.59
-140
.00
-135
.04
104
.59
0 T98
-85
.00
-102
.02
94
.42
85
.00
113
.77
94
.42
Line67
-130
.94
-111
.91
53
.12
134
.66
136
.61
53
.12
G~ G9
85
.00
113
.77
110
.95
DIgSILENT
-
7/26/2019 dastorkar-fakhrtaha
27/88
26
.
-
7
7
Station control 7G5
7
.1p.u
.
2-
PowerFactory 14.1.3
Laboratory Power System Analysis1
My Master : Dr eidianiUndergraduate : Hassan Fakhrtaha
Number of Undergraduate : 9324044216
Project: load flow
Graphic: Grid
Date: 930801
Annex: step2
Load Flow Balanced
Nodes
Line-Line Voltage, Magnitude [kV]
Voltage, Magnitude [p.u.]
,
Branches
Active Power [MW]
Reactive Power [Mvar]
BUS7
230
.00
1.0
0
132
.71
BUS3239.761.04
137.48
BUS2237.581.03
143.21
BUS4229.341.00
138.51
BUS117.161.040.00
BUS8
231
.03
1.0
0
137
.91
BUS5
23
.95
1.3
3
-10
.21
BUS6
266
.48
1.1
6
136
.54
BUS9
13
.84
1.0
2
-9
.26
Shunt/Filter
0.0
0
0.0
0
1
Line
23
-122.5628.9330.67
124.04-23.20
30.67
Line
36
4.0
8
77
.55
19
.02
-2.44-78.9319.02
Line
48
-4
.93
1.4
9
2.6
6
4.96-9.342.66
T12
220.5925.8185.42
-220.590.4585.42
LOAD3
125.0050.00
LOAD4
90.0030.00
Line
24
-94.96-20.6624.46
96.5522.74
24.46
G~G1
220.5925.8174.03
LOAD7
220
.00
200
.00
Line78
-88
.98
5.6
9
22.5
4
89.9
3
-6.5
9
22.5
4
G~G5
140
.00
369
.40
205
.75
T56
140
.00
369
.40
148
.48
-140
.00
-314
.28
148
.48
0 T98
-85
.00
5.1
0
56
.52
85
.00
-0
.89
56
.52
Line67
-131
.02
-205
.69
61.2
2
135
.92
236
.74
61.2
2
G~ G9
85
.00
-0
.89
66
.41
DIgSILENT
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27
56
Station control
,
.
-5 :FEEDER
Feeder
.
Station control 67 $cubicle#
line 23 2
Define
Feeder.
ok
.
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28
load flow
Adjusted by feeder load scaling.
$ #
50 MW
.
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29
.
-
feeder
124.04 MW 50 MW
.
6 Station control
$Vbus6 =1p.u.#
7$
Vbus7=211.34
#T56G5
.
$
bus2
lin23
#Digsilent
PowerFactory 14.1.3
Laboratory Power System Analysis1
My Master : Dr eidianiUndergraduate : Hassan Fakhrtaha
Number of Undergraduate : 9324044216
Project: load flow
Graphic: Grid
Date: 930801
Annex: step2
Load Flow Balanced
Nodes
Line-Line Voltage, Magnitude [kV]
Voltage, Magnitude [p.u.]
,
Branches
Active Power [MW]
Reactive Power [Mvar]
BUS3225.880.98
144.91
BUS117.161.040.00
BUS
5
19
.19
1.0
7
3.3
0
BUS
9
13
.84
1.0
2
0.9
9
BUS4225.970.98
145.34
BUS2232.591.01
147.19
BUS6
230
.0
0
1.0
0
148
.5
9
BUS8
225
.1
5
0.9
8
148
.0
8BUS7
211
.34
0.9
2
144
.65
Shunt/Filter
0.0
0
0.0
0
1
Line
36
40
.05
0.4
7
10
.21
-39.53-5.6510.21
Line
23
-49.67-30.0414.84
50.0026.5414.84
Line
48
25
.39
-11
.02
7.1
0
-25.114.637.10
Line
24
-39.12-26.0412.01
39.4821.6912.01
Line78
-58
.82
-49
.99
21
.09
59
.61
48
.62
21
.09Line67
-98
.18
-92
.73
36
.89
99
.95
99
.46
36
.89
G~G1
89.4854.0534.85
G~ G9
85
.00
42
.88
74
.38
G~G5
140
.00
118
.41
95
.50
T12
89.4854.0540.21
-89.48-48.2340.21
T98
-85
.00
-37
.59
63
.30
85
.00
42
.88
63
.30
T56
140
.00
118
.41
86
.00
-140
.00
-99
.92
86
.00
0
LOAD7
157
.00
142
.72
LOAD3
89.2035.68
LOAD4
64.2321.41
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31
load flow .feeder
:
show .Voltage Profile
:
$
Digsilent power factoty#
$ ANSI-IEC-DVE
-COMPLETE METHOD#
.
IEC60909
.
6.255.003.752.501.250.00 [km]
BUS2
BUS3
BUS5
BUS7
BUS9
BUS4
BUS1
1.10
1.06
1.02
0.98
0.94
0.90
[p.u.]
Voltage, Magnitude
2.000 km1.066 p.u.
6.000 km1.040 p.u.
2.000 km1.001 p.u.
0.994 km0.982 p.u.
0.006 km1.011 p.u.
4.000 km1.025 p.u.
5.000 km0.982 p.u.
2.995 km0.919 p.u.
4.000 km0.979 p.u.
My master :Dr eidiani Voltage Profile-BUS2_Line23
Undergraduate : Hassan Fakhrtaha Number of Undergraduate : 9324044216
Date: 930728
Annex: step1 /1
DIgSILENT
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3
-#
$ Skss#
$ Ikss$ #Ip #.
Calculate short - circuit
IEC609093-phase-circuit
Busbars and junction nodes
Execute .
.
$ # .
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32
$ Skss$ #Ikss #
$ Ip
# .
Ctrl
showBar Diagram
.
PowerFactory 14.1.3
Laboratory Power System Analysis1
My Master : Dr eidianiUndergraduate : Hassan Fakhrtaha
Number of Undergraduate : 9324044216
Project: load flow
Graphic: Grid
Date: 930801
Annex: step2
Max. 3-Phase Short-Circuit acc. to IEC60909
Short Circuit Nodes
Initial Short-Circuit Power [MVA]
Initial Short-Circuit Current [ kA]
Branches
Initial Short-Circuit Pow
Initial S hort-Circuit Cur
BUS3996.182.5016.155
BUS11926.8067.420
174.935
BUS5
1495.5
7
47.9
71
125.3
80
BUS9
1177.3
4
50.3
51
130.4
72
BUS4911.452.2885.480
BUS21355.003.4018.749
BUS6
1682.6
8
4.2
24
11.0
95
BUS8
1188.4
0
2.9
83
7.5
85B
US7
1137.1
8
2.8
55
7.2
41 Shunt/Filter
0.0
0
0.0
00
0.0
00
1
Line36
268.2
8
0.6
73
1.7
69
433.371.0882.678
Line23
563.281.4143.481
302.110.7581.951
Line48
270.1
7
0.6
78
1.7
24
355.710.8932.139
Line24
555.901.3953.342
250.370.6281.617
Line78
434.5
7
1.0
91
2.7
67
405.3
4
1.0
17
2.5
87Line67
702.6
2
1.7
64
4.4
74
310.4
4
0.7
79
2.0
47
G~G1
1498.1352.421
136.016
G~ G9
691.1
9
29.5
60
76.5
96
G~G5
1059.8
2
33.9
94
88.8
49
T12
429.1515.01638.963
804.432.0195.194
T98
514.1
4
1.2
91
3.2
81
486.3
0
20.7
98
53.8
91
T56
435.8
3
13.9
79
36.5
37
1104.8
2
2.7
73
7.2
85
0
LOAD7
LOAD3
LOAD4
DIgSILENT
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33
Skss
Ikss
BUS7
BUS8
BUS6
BUS2
BUS4
BUS9
BUS5
BUS1
BUS3
2500.00
2000.00
1500.00
1000.00
500.00
0.00
Initial Short-Circuit Power in MVA
My master :Dr eidiani Bar-Diagram(3)
Undergraduate : Hassan Fakhrtaha Number of Undergraduate : 9324044216
Date: 930728
Annex: step1 /4
DIgSILENT
BUS7
BUS8
BUS6
BUS2
BUS4
BUS9
BUS5
BUS1
BUS3
100.00
80.00
60.00
40.00
20.00
0.00
Initial Short-Circuit Current in kA
My master :Dr eidia ni Bar-Diagram
Undergraduate : Hassan Fakhrtaha Number of Undergraduate : 9324044216
Date: 930728
Annex: step1 /5
DIgSILENT
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34
Ip
# $
2,4,8#
$
Skss$
#Ikss
#
$Ip#.
Ctrl
Calculateshort - circuit
#
$ Busbars and
junction nodes
User selection
Execute
$
Skss #
$ Ikss$ #Ip# $2,4,8#
IEC60909.
BUS7
BUS8
BUS6
BUS2
BUS4
BUS9
BUS5
BUS1
BUS3
200.00
160.00
120.00
80.00
40.00
0.00
Peak Short-Circuit Current in kA
My master :Dr eidiani Bar-Diagram(4)
Undergraduate : Hassan Fakhrtaha Number of Undergraduate : 9324044216
Date: 930728
Annex: step1 /6
DIgSILENT
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35
2-#
$Multiple Faults# 68
.
Ctrl 68
CalculateMultiple Faults
$ complete #
$
. #
PowerFactory 14.1.3
Laboratory Power System Analysis1
My Master : Dr eidianiUndergraduate : Hassan Fakhrtaha
Number of Undergraduate : 9324044216
Project: load flow
Graphic: Grid
Date: 930801
Annex: step2
Max. 3-Phase Short-Circuit acc . to IEC60909
Short Circuit Nodes
Initial Short-Circuit Power [MVA]
Initial Short-Circuit Current [kA]
Nodes
Line-Line Voltage, Magn
Voltage, Magnitude [p.u
BUS30.0000.0000.000
BUS10.0000.0000.000
BUS5
0.0
00
0.0
00
0.0
00
BUS9
0.0
00
0.0
00
0.0
00
BUS4911.452.2885.480
BUS21355.003.4018.749
BUS6
0.0
00
0.0
00
0.0
00
BUS8
1188
.40
2.9
83
7.5
85B
US7
0.0
00
0.0
00
0.0
00 Shunt/Filter
0.0
0
0.0
00
0.0
00
1
Line
36
0.0
0
0.0
00
0.0
00
0.000.0000.000
Line
23
0.000.0000.000
302.110.7581.951
Line
48
270
.17
0.6
78
1.7
24
355.710.8932.139
Line
24
555.901.3953.342
250.370.6281.617
Line78
0.0
0
0.0
00
0.0
00
405
.34
1.0
17
2.5
87Line67
0.0
0
0.0
00
0.0
00
0.0
0
0.0
00
0.0
00
G~G1
0.000.0000.000
G~ G9
0.0
0
0.0
00
0.0
00
G~G5
0.0
0
0.0
00
0.0
00
T12
0.000.0000.000
804.432.0195.194
T98
514
.14
1.2
91
3.2
81
0.0
0
0.0
00
0.0
00
T56
0.0
0
0.0
00
0.0
00
0.0
0
0.0
00
0.0
00
0
LOAD7
LOAD3
LOAD4
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36
$ Skss #
$Ikss$ #Ip# $6,8#
.
# 26
48
,
Ikss
Skss.
PowerFactory 14.1.3
Laboratory Power System Analysis1
My Master : Dr eidianiUndergraduate : Hassan Fakhrtaha
Number of Undergraduate : 9324044216
Project: load flow
Graphic: Grid
Date: 930801
Annex: step2
Multiple Faults
Short Circuit Nodes
Initial Short-Circuit Power [MVA]
Initial Short-Circuit Current [kA]
Nodes
Line-Line Voltage, Magn
Voltage, Magnitude [p.u
BUS390.8230.395
140.868
BUS114.760
0.895-0.054
BUS5
8.0
30
0.4
46
9.9
04
BUS9
4.0
56
0.3
00
8.0
50
BUS490.5660.394
142.174
BUS2141.5730.616
145.167
BUS6
952
.69
2.3
91
6.3
59
BUS8
727
.16
1.8
25
4.7
69B
US7
0.0
00
0.0
00
0.0
00 Shunt/Filter
0.0
0
0.0
00
0.0
00
1
Line
36
240
.56
0.6
04
1.6
06
239.030.6000.000
Line
23
262.590.6590.000
259.510.6510.000
Line
48
225
.76
0.5
67
1.4
81
224.240.5630.000
Line
24
239.810.6020.000
236.750.5940.000
Line78
0.0
0
0.0
00
0.0
00
0.0
0
0.0
00
0.0
00Line67
0.0
0
0.0
00
0.0
00
0.0
0
0.0
00
0.0
00
G~G1
496.2217.3630.000
G~ G9
490
.70
20
.986
0.0
00
G~G5
713
.79
22
.895
0.0
00
T12
496.2217.3630.000
496.221.2460.000
T98
501
.61
1.2
59
3.2
89
490
.70
20
.986
0.0
00
T56
713
.79
22
.895
0.0
00
713
.79
1.7
92
4.7
65
0
LOAD7
0.0
0
0.0
00
0.0
00
LOAD3
39.340.0990.000
LOAD4
27.620.0690.000
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37
3-36 IEC 61"6. Ip
.
PowerFactory 14.1.3
Laboratory Power System Analysis1
My Master : Dr eidianiUndergraduate : Hassan Fakhrtaha
Number of Undergraduate : 9324044216
Project: load flow
Graphic: Grid
Date: 930801
Annex: step2
Multiple Faults
Short Circuit Nodes
Initial Short-Circuit Power [MVA]
Initial Short-Circuit Current [kA]
Nodes
Line-Line Voltage, Magn
Voltage, Magnitude [p.u
BUS392.6460.403
137.689
BUS114.7850.896-0.464
BUS5
8.0
36
0.4
46
7.0
25
BUS9
4.1
22
0.3
05
0.4
75
BUS492.9510.404
138.118
BUS2142.8700.621
143.590
BUS6
948
.96
2.3
82
6.3
35
BUS8
717
.15
1.8
00
4.7
03B
US7
9.2
78
0.0
40
66
.546
Shunt/Filter
0.0
0
0.0
00
0.0
00
1
Line
36
238
.23
0.5
98
1.5
90
236.680.5940.000
Line
23
263.310.6610.000
260.260.6530.000
Line
48
221
.39
0.5
56
1.4
52
219.870.5520.000
Line
24
238.700.5990.000
235.700.5920.000
Line78
14
.35
0.0
36
0.0
00
13
.96
0.0
35
0.0
92Line67
6.4
7
0.0
16
0.0
00
6.8
0
0.0
17
0.0
45
G~G1
495.7717.3480.000
G~ G9
489
.96
20
.954
0.0
00
G~G5
714
.34
22
.913
0.0
00
T12
495.7717.3480.000
495.771.2440.000
T98
500
.85
1.2
57
3.2
84
489
.96
20
.954
0.0
00
T56
714
.34
22
.913
0.0
00
714
.34
1.7
93
4.7
68
0
LOAD7
10
.14
0.0
25
0.0
00
LOAD3
40.130.1010.000
LOAD4
28.350.0710.000
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38
Calculateshort - circuit
Execute.
6.191 KA
;36$Ip.
#
PowerFactory 14.1.3
LaboratoryP ower System Analysis1
MyMaster : Dr eidianiUndergraduate : Hassan Fakhrtaha
Number of Undergraduate : 9324044216
Project: load fl ow
Graphic: Grid
Date: 930801
Annex: step2
Max. 3-Phase Short-Circuit acc. to IEC60909
Short Circuit Nodes
Initial Short-Circuit Power [MVA]
Initial Short-Circuit Current [kA]
Nodes
Line-Line Voltage, Magn
Voltage, Magnitude [p.u
BUS361.8390.269-5.452
BUS113.8760.841
-150.732
BUS5
14
.126
0.7
85
-151
.570
BUS9
11
.857
0.8
78
-151
.656
BUS4154.4720.672-2.757
BUS2142.3350.619-2.888
BUS6
137
.521
0.5
98
-4
.203
BUS8
177
.104
0.7
70
-2
.875B
US7
154
.004
0.6
70
-3
.567
Shunt/Filter
0.0
0
0.0
00
0.0
00
1
Line
36
607
.09
1.5
24
0.0
00
409.481.0280.000
Distance:60.00 %1016.51 MVA
2.552 kA6.191 kA
Line
23
409.481.0280.000
409.481.0280.000
Line
48
56
.42
0.1
42
0.0
00
56.420.1420.000
Line
24
56.420.1420.000
56.420.1420.000
Line78
99
.32
0.2
49
0.0
00
99
.32
0.2
49
0.0
00Line67
99
.32
0.2
49
0.0
00
99
.32
0.2
49
0.0
00
G~G1
353.1812.3580.000
G~ G9
152
.35
6.5
16
0.0
00
G~G5
507
.81
16
.288
0.0
00
T12
353.18
12.3580.000
353.180.8870.000
T98
155
.74
0.3
91
0.0
00
152
.35
6.5
16
0.0
00
T56
507
.81
16
.288
0.0
00
507
.81
1.2
75
0.0
00
0
LOAD7
LOAD3
LOAD4
DIgSILENT
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39
: DIgSILENT
$ Digsilent power factoty #2111
.
#
:
- G1 .(Variable Set(simDefine
2-.
3- EMTSimulation
firel
.
:
firel
.
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41
4-OK$
#G5G9 .
: #
, .
line 36
0.1s
0.3s
..
- line36
DefineShort circuit event
0.1s ok.
2- line36
DefineSwitch event
Basic data
0.3s
Action
openok.
: 2
.
.
#
:
-
Grid
Insert page
Create new page.
2- Virtual instrument panel Execute
.project
3-
Append new VI(s)
Subplot(visplot)
ok
.
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4
4-
Edit
.
Element$#
.
:
Calculate Initial condition .
G1 $2 G1$# . #
5-
Variable#
$
firel
.
6-
Insert rows
.
7- 45 G5G9.
Calculate Initial condition-8 Execute .
:
Calculate Initial condition. $
# .
-9 Start Simulation 10s
Execute.
-
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42
#
Defin/Switch Event / Time = 0.3 s
:
Scale.
#
reset calculate
Switch event
0.4300643 s
ok
.
Start Simulation .
10.008.006.004.002.000.00 [s]
100.00
75.00
50.00
25.00
0.00
-25.00
G5: Rotor angle with reference to reference machine an gle in deg
G9: Rotor angle with reference to reference machine an gle in deg
G1: Rotor angle with reference to reference machine an gle in deg
My master :Dr eidiani Project
Undergraduate : Hassan Fakhrtaha Number of Undergraduate : 9324044216
Date: 930728
Annex: step1 /2
DIgSILENT
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43
Defin/Switch Event / Time = 0.4300643 s
#
reset calculate
# $ 0.4300644 s ok
. Start Simulation
.
10.008.006.004.002.000.00 [s]
200.00
150.00
100.00
50.00
0.00
-50.00
G5: Rotor angle with reference to reference machine angle in deg
G9: Rotor angle with reference to reference machine angle in deg
G1: Rotor angle with reference to reference machine angle in deg
My master :Dr eidiani Project
Undergraduate : Hassan Fakhrtaha Number of Undergraduate : 9324044216
Date: 930728
Annex: step1 /2
DIgSILENT
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44
Defin/Switch Event / Time = 0.4300644 s
:
$avr-gov-pss#
(avr-gov-pss)
Digsilent
.
Automatic Voltage Regulator$AVR: #
AVR
$PT #
10.008.006.004.002.000.00 [s]
300.00
200.00
100.00
0.00
-100.00
-200.00
G5: Rotor angle with reference to reference machine angle in deg
G9: Rotor angle with reference to reference machine angle in deg
G1: Rotor angle with reference to reference machine angle in deg
My master :Dr eidiani Project
Undergraduate : Hassan Fakhrtaha Number of Undergraduate : 9324044216
Date: 930728
Annex: step1 /2
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# $
.
.
Governor$gov: #
$
#
$
#
.
Power System Stabilizer$PSS: #
PSS
.PSS
$
avr-gov-pss #:
$ avr-gov-pss # .
G5
:Define
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46
-Governor and Turbine(gov)
2-$AVR#Automatic Voltage Regulator
3-$PSS#Power System Stabilizer
:
-pcu_HYGOV
2-vco_IEEET1
3-pss_STAB1
LibraryDatabase
past
OK
.
Edit relevant objects for calculation
Composite Modelpcupssvco.
Composite Model
out of service
pcupssvco
.
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36
Start Simulation
.
$Hlim=0.05 #
pss.
Hlim=0.2 Hlim=0.01
Hlim
pss .
.
9.99187.97345.95513.93671.9184-0.1000 [s]
200.00
150.00
100.00
50.00
0.00
-50.00
G5: Rotorangle with reference to reference machine angle in deg
G9: Rotorangle with reference to reference machine angle in deg
G1: Rotorangle with reference to reference machine angle in deg
My master :Dr eidiani Project
Undergraduate : Hassan Fakhrtaha Numberof Undergraduate : 9324044216
Date: 930728
Annex: step1 /2
DIgSILENT
10.008.006.004.002.000.00 [s]
300.00
200.00
100.00
0.00
-100.00
-200.00
G5:Rotoranglewithreferencetoreferencemachineangleindeg
G9:Rotoranglewithreferencetoreferencemachineangleindeg
G1:Rotoranglewithreferencetoreferencemachineangleindeg
My master :Dr eidiani Project
Undergraduate : Hassan Fakhrtaha Number of Undergraduate :9324044216
Date: 930728
Annex:step1 /2
DIgSILENT
10.008.006.004.002.000.00 [s]
300.00
200.00
100.00
0.00
-100.00
-200.00
G5:Rotoranglewith referencetoreferencemachineangle indeg
G9:Rotoranglewith referencetoreferencemachineangle indeg
G1:Rotoranglewith referencetoreferencemachineangle indeg
My master :Dr eidiani Project
Undergraduate : Hassan Fakhrtaha Number of Undergraduate :9324044216
Date: 930728
Annex:step1 /2
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:
,
,
.
:
9 T98
.
$ #9
Composite Model
G5
OUT OF SERVICE
.
:
,
$ . #9.
-
.
PAST
OK.
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2-
Type
ok.
3- 36out of
service.
-4
DefineSwitch event
closeBreaker
.
5- 4 2Breakeropen
2.
6- 4 5Breakerclose
5.
7-$ 1#Bus9
DefineShort-Circuit Event
8
Fault Type
.
8- 7 8.3
Fault Typeclear short
circuit
.
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9-
Edit Simulation Events
.
1-
(DifineVariable set (sim
EMT-Simulation
RMS-Simulation
$xme# $xmt#
$
slip# Selected Variable
Variable SetSingle$ speed p.u #
ok .
-
.
:
Grid Insert page
Create new page.
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Virtual instrument panel Execute
.project
Append new VI(s)
Subplot(visplot)4 ok
.
Edit
.
Subplot x-y plot
y-Axis$
xme#
$x-Axis speed .#ok
2-$ #calculate initial condition
$ 2#start simulation 2
.
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:
8.3
.
$ #
S= 0.
12.5010.007.505.002.500.00 [s]
0.40
0.30
0.20
0.10
0.00
-0.10
Asynchronous Machine: Speed in p.u.
12.5010.007.505.002.500.00 [s]
1.20
0.90
0.60
0.30
0.00
-0.30
Asynchronous Machine: Slip in -
12.5010.007.505.002.500.00 [s]
0.08
0.06
0.04
0.02
-0.00
-0.02
Asynchronous Machine: Mechanical Torque in p.u.
12.5010.007.505.002.500.00 [s]
0.04
0.00
-0.04
-0.08
-0.12
-0.16
Asynchronous Machine: Electrical Torque in p.u.
My master :Dr eidiani Project(1)
Undergraduate : Hassan Fakhrtaha Number of Undergraduate : 9324044216
Date: 930728
Annex: step1 /3
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$-. #
$avr-gov-pss#.
0.400.300.200.100.00-0.10 [p.u.]
0.04
0.00
-0.04
-0.08
-0.12
-0.16
[p.u.]
Asynchronous Machine: Speed in p.u. / Electrical Torque in p.u.
My master :Dr eidiani Project(2)
Undergraduate : Hassan Fakhrtaha Number of Undergraduate : 9324044216
Date: 930728
Annex: step1 /4
DIgSILENT
12.5010.007.505.002.500.00 [s]
80.00
60.00
40.00
20.00
0.00
-20.00
G5: Rotor angle with reference to reference machine angle i n deg
G9: Rotor angle with reference to reference machine angle i n deg
G1: Rotor angle with reference to reference machine angle i n deg
My master :Dr eidiani Project
Undergraduate : Hassa n Fakhrtaha Number of Undergraduate : 9324044216
Date: 930728
Annex: step1 /2
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$avr-gov-pss#.
$avr-gov-pss#
.
$
-
#
.
12.5010.007.505.002.500.00 [s]
0.40
0.30
0.20
0.10
0.00
-0.10
Asynchronous Machine: Speed in p.u.
12.5010.007.505.002.500.00 [s]
1.20
0.90
0.60
0.30
0.00
-0.30
Asynchronous Machine: Slip in -
12.5010.007.505.002.500.00 [s]
0.100
0.075
0.050
0.025
0.000
-0.025
Asynchronous Machine: Mechanical Torque in p.u.
12.5010.007.505.002.500.00 [s]
0.04
0.00
-0.04
-0.08
-0.12
-0.16
Asynchronous Machine: Electrical Torque in p.u.
My master :Dr eidiani Project(1)
Undergraduate : Hassan Fakhrtaha Number of Undergraduate : 9324044216
Date: 930728
Annex: step1 /3
DIgSILENT
0.400.300.200.100.00-0.10 [p.u.]
0.04
0.00
-0.04
-0.08
-0.12
-0.16
[p.u.]
Asynchronous Machi ne: Speed in p.u. / Elec trical T orque in p.u.
My master :Dr eidia ni Project(2)
Undergraduate : Hassan Fakhrtaha Number of Undergraduate : 9324044216
Date: 930728
Annex: step1 /4
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$avr-gov-pss#.
G5
.
- PSS .
.
PSS
.
12.5010.007.505.002.500.00 [s]
80.00
60.00
40.00
20.00
0.00
-20.00
G5: Rotor angle with reference to reference machi ne angle in deg
G9: Rotor angle with reference to reference machi ne angle in degG1: Rotor angle with reference to reference machi ne angle in deg
My master :Dr eidiani Project
Undergraduate : Hassan Fakhrtaha Number of Undergraduate : 9324044216
Date: 930728
Annex: step1 /2
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:
6-:
9
load4.
- load4
ok
4
.
-2 4
4 5 ok
.
PowerFactory14.1.3
LaboratoryPower System Analysis1
MyMaster: DreidianiUndergraduate : Hassan Fakhrtaha
Numberof Undergraduate : 9324044216
Project: load flow
Graphic: Grid
Date: 930801
Annex: step2
Load FlowBalanced
Nodes
Line-Line Voltage, Magnitude [kV]
Voltage, Magnitude [p.u.]
Branches
Active Power[MW]
Reactive Power[Mvar]
BUS3221.780.96
144.51
BUS2230.881.00
147.02
BUS4224.070.97
145.15
BUS117.161.040.00
BU
S8
229.55
1.00
150.28
BUS7
226.45
0.98
148.41
BUS5
18.45
1.02
6.01
BU
S6
230.99
1.00
151.13
BUS9
13.84
1.02
3.13
Line23
-54.38-40.3617.63
54.8538.2017.63
Line36
72.35
10.64
18.55
-70.62-9.6418.55
Line48
52.09
0.36
13.18
-51.02-3.4113.18
T12
94.2067.7644.63
-94.20-60.5944.63
LOAD3
125.0050.00
LOAD4
90.0030.00
Line24
-38.98-26.5912.16
39.3522.3912.16
G~G1
94.2067.7646.89
LOAD7
100.00
35.00
Line78
-32.77
-13.11
9.00
32.91
5.52
9.00
G~G5
140.00
39.88
75.82
T56
140.00
39.88
71.01
-140.00
-27.27
71.01
T98
-85.00
-5.88
56.91
85.00
10.15
56.91
Line67
-67.23
-21.89
18.03
67.65
16.63
18.03
G~ G9
85.00
10.15
66.88
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3-
ok
.
4-
toolbar
Execute
.
PowerFactory14.1.3
LaboratoryPower System Analysis 1
MyMaster:Dr eidian i Undergraduate:Navid Aghli
Number of Undergraduate:38600185
Project: Load Flow
Graphic: Grid
Date: 26/10/2010
Annex: Step 1
Harmonic; U-I Distribution; Output Frequency=50.00 Hz
Nodes
Total Harmonic Distortion [%]
Harmonic Distortion [%]
RMS-Value of Voltage [p.u.]
Branches
Current, Magnitude [A]
Current, RMS-Value [kA]
Total Active Power [MW]
Bus7
62.9
8
100.0
0
1.1
6
Bus6
50.3
9
100.0
0
1.1
2
Bus5
30.8
6
100.0
0
1.0
7
Bus468.83100.00
1.18
Bus373.33100.001.20
Bus249.36100.001.12
Bus126.41100.001.08
Bus9
38.9
6
100.0
0
1.1
0
Bus8
53.8
3
100.0
0
1.1
3
T12
280.090.30
-94.20
3904.254.22
94.20
T56
45
55.2
5
4
.70
140.0
0
356.5
0
0
.37
-1
40.0
0
Load4
244.440.25
88.07
T98
214.3
0
0
.23
-8
5.0
0
35
71.7
0
3
.77
8
5.0
0
Load3
350.480.35
125.00
Load7
270.1
3
0.2
7
100.0
0
G~G1
3904.254.22
94.20
G~G
5
45
55.2
5
4
.70
140.0
0
G~G
9
35
71.7
0
3
.77
8
5.0
0
Line24
121.580.14
-36.87
113.220.16
37.56
Line23
176.310.19
-56.00
167.150.20
56.64
Line48
131.0
2
0.1
6
52.9
1
131.750.15
-51.19
Line78
89.9
9
0.1
1
-31.7
7
83.9
4
0.1
3
32.0
9Line67
174.1
3
0.2
1
68.7
8
180.2
7
0.1
9
-68.2
3
Line36
182.7
7
0.2
0
71.2
2
185.540.20
-69.00
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5-
#HD$Harmonic Distortion
THD$Harmonic DistortionTotal#
ctrl
.
THD
HD
THD
3
$ 4 4#
:HD
Bus8
Bus9
Bus1
Bu
s2
Bus3
Bus4
Bus5
Bus6
Bus7
100.00
80.00
60.00
40.00
20.00
0.00
Total Harmonic Distortionin %
Answer The Question number 4 of the (questions1-3) Bar-Diagram
MyMaster:Dreidiani Undergraduate:Hassanfakhrtaha
Date: 26/10/2010
Annex:question /1
DIgSILENT
1.00 5.00 7.00 11.0 13.0 17.0 19.0 [-]
125.00
100.00
75.00
50.00
25.00
0.00
Bus1:Harmonic Distortionin %
Bus2:Harmonic Distortionin %
Bus3:Harmonic Distortionin %
Bus4:Harmonic Distortionin %
Bus5:Harmonic Distortionin %
Bus6:Harmonic Distortionin %
Bus7:Harmonic Distortionin %
Bus8:Harmonic Distortionin %
Bus9:Harmonic Distortionin %
Answer The Question number 4 o f the (questions 1-3) Distortion
MyMaster:Dreidiani Undergraduate:Hassanfakhrtaha
Date:26/10/2010
Annex:question/2
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.3
4
9
50
:
= 50 x 19 = 950 hz
.
THD
THD .
:
HD:
$ Harmonic Distortion.
#
.
.
150 HZ
5250 HZ4
7350 HZ7
11550 HZ4
13650 HZ3
17850 HZ8
19950 HZ4
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THD:
. THD
THD
.
:2-6
.
# .... , $
.
- 4
DefineVariable set ( freguancy sweep
).
-2
.
3-
.
ok
.
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4-
.
5-
Element
.
6-5
variable
.
7-
.
20.00016.04012.0808.12004.16000.2000 [-]
8.00E+4
6.00E+4
4.00E+4
2.00E+4
0.00E+0
-2.00E+4
Bus4: Network Impedance, Magnitude in Ohm
Answer The Question num ber 4 of the (que stions 1-3) Project
MyMaster:Dr eidiani Undergraduate: Hassanfakhrtaha
Date: 93.09.24
Annex: question /3
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8-
zoom
. 6.272
68674.026 ohm
.
,.
9- load4
.
1- THD.
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.
-.
20 Mvar 7
.
7 .
1.00 5.00 6.27 11.0 13.0 17.0 19.0 [-]
125.00
100.00
75.00
50.00
25.00
0.00
Bus1: Harmonic Distortion in %
Bus2: Harmonic Distortion in %
Bus3: Harmonic Distortion in %
Bus4: Harmonic Distortion in %
Bus5: Harmonic Distortion in %
Bus6: Harmonic Distortion in %
Bus7: Harmonic Distortion in %
Bus8: Harmonic Distortion in %
Bus9: Harmonic Distortion in %
Answer The Question number 4 of the (questions 1-3) Distortion
My Master:Dr eidiani Undergraduate: Hassanfakhrtaha
Date: 93.09.24
Annex: question /3
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7
7.
PowerFactory 14.1.3
Laboratory Power System Analysis 1
My Master:Dr eidian iUndergraduate:Navid Aghli
Number of Undergraduate:38600185
Project: Load Flow
Graphic: Grid
Date: 26/10/2010
Annex: Step 1
Load Flow Balanced
Nodes
Line-Line Voltage, Magnitude [kV]
Voltage, Magnitude [p.u.]
Voltage, Angle [deg]
Branches
Acti ve Power [MW]
Reactive Power [Mvar]
Loading [%]
Bus7
229.7
4
1.0
0
148.3
3
Bus6
232.41
1.0
1
151.05
Bus5
1
8.4
5
1
.02
5
.90
Bus4224.780.98
145.16
Bus3222.600.97
144.52
Bus2231.311.01
147.03
Bus117.161.040.00
Bus9
1
3.8
4
1
.02
3
.06
Bus8
230.67
1.0
0
150.23
Shunt/Filter
0.0
0
-19.9
6
T12
-94.12-57.4343.85
94.1264.3543.85
T56
140.0
0
29.7
5
69.8
2
-140.0
0
-17.5
7
69.8
2
Load4
90.0030.00
T98
-85.0
0
2.4
3
56.5
3
85.0
0
1.7
8
56.5
3
Load3
125.0050.00
Load7
100.0
0
35.0
0
G~G1
94.1264.3546.07
G~G5
140.0
0
29.7
5
74.5
5
G~ G9
85.0
0
1.7
8
66.4
2
Line24
-38.94-25.4511.95
39.3021.1511.95
Line23
-54.36-38.6317.30
54.8136.2817.30
Line48
52.1
2
1.4
1
13.1
7
-51.06-4.5513.17
Line78
-32.7
5
-4.0
3
8.2
9
32.8
8
-3.8
4
8.2
9Line67
67.6
4
5.2
8
17.1
2
-67.2
5
-11.0
1
17.1
2
Line36
72.3
6
12.2
8
18.5
6
-70.64-11.3718.56
DIgSILENT
20.00016.04012.0808.12004.16000.2000 [-]
8.00E+4
6.00E+4
4.00E+4
2.00E+4
0.00E+0
-2.00E+4
Bus4:NetworkImpedance,MagnitudeinOhm
Answer The Question number 4 of the (questions1-3) Project
MyMaster:Drei diani Undergraduate: Hassanfakhrtaha
Date:93.09.24
Annex:question/1
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:
9
.
.
PowerFactory 14.1.3
LaboratoryP ower System Analysis1
MyMaster : Dr eidiani
Undergraduate : Hassan FakhrtahaNumber of Undergraduate : 9324044216
Project: load flow
Graphic: Grid
Date: 930801Annex: step2
Load Flow Balanced
Nodes
Line-Line Voltage, Magnitude [kV]Voltage, Magnitude [p.u.]
Branches
Active Power [MW]Reactive Power [Mvar]
BUS3221.780.96
144.51
BUS2230.881.00
147.02
BUS4224.070.97
145.15
BUS117.161.040.00
BUS8
229
.55
1.0
0
150
.28
BUS7
226
.45
0.9
8
148
.41
BUS5
18
.45
1.0
2
6.0
1
BUS6
230
.99
1.0
0
151
.13
BUS9
13
.84
1.0
2
3.1
3
Line
23
-54.38-40.3617.63
54.8538.2017.63
Line
36
72
.35
10
.64
18
.55
-70.62-9.64
18.55
Line
48
52
.09
0.3
6
13
.18
-51.02-3.41
13.18
T12
94.2067.7644.63
-94.20-60.5944.63
LOAD3
125.0050.00
LOAD4
90.0030.00
Line
24
-38.98-26.5912.16
39.3522.3912.16
G~G1
94.2067.7646.89
LOAD7
100
.00
35
.00
Line78
-32
.77
-13
.11
9.0
0
32
.91
5.5
2
9.0
0
G~G5
140
.00
39
.88
75
.82
T56
140
.00
39
.88
71
.01
-140
.00
-27
.27
71
.01
T98
-85
.00
-5
.88
56
.91
85
.00
10
.15
56
.91
Line67
-67
.23
-21
.89
18
.03
67
.65
16
.63
18
.03
G~ G9
85
.00
10
.15
66
.88
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66
:
- line 232,
ok.
-2
low and voltage
feeders
#
$ .
3-
.
.
.
PowerFactory14.1.3
LaboratoryPower System Analysis 1
MyMaster:Dreidi aniUndergraduate:Navid Aghli
Numberof Undergraduate:38600185
Project: Load Flow
Graphic: Grid
Date: 26/10/2010
Annex: Step 1
Load FlowBal anced
Nodes
Line-Line Voltage, Magnitude [kV]
Voltage, Magnitude [p.u.]
Voltage, Angle [deg]
Branches
Active Power[MW]
Reactive Power [Mvar]
Loading [%]
Bus7
226.4
5
0.9
8