Mar 5, 2011 - [19] Mostafa Eidiani, Natan Asghari, Hossein Zeynal, " Dynamic Response ... [24] Mostafa Eidiani, Ahmad Bani Hashemi, "The use of variable frequency ... [35] Reza Saljoghi, Mostafa Eidiani, " Optimal Capacitor Placement by ...
The Laboratory of Computer Methods in Power Systems Analysis Amir hosein Sattari, Mostafa Eidiani Abstaract: generation , transmission and distribution of power and industrial systems , the review and analysis of this four important issues in electrical engineering have particular importance for engineers. With DigSilent software we would able to calculate the power distribution network , reactive power compensation , voltage control with “station control” and determine “feeder”. Also with the help of this software , we are able to calculate short circuit. Another possibility of this software is to calculate the transient stability and dynamic curve. In ths article we reviewd all this features .
ﺑﻪ ﻧﺎم ﺧﺪا
ﮔﺰارش ﮐﺎر آزﻣﺎﯾﺸﮕﺎه روش ﻫﺎي ﮐﺎﻣﭙﯿﻮﺗﺮي در آﻧﺎﻟﯿﺰ ﺳﯿﺴﺘﻢ ﻫﺎي ﻗﺪرت
اﺳﺘﺎد ﻣﺤﺘﺮم :ﺟﻨﺎب آﻗﺎي دﮐﺘﺮ ﻋﯿﺪﯾﺎﻧﯽ
ﭘﮋوﻫﺸﮕﺮ :اﻣﯿﺮﺣﺴﯿﻦ ﺳﺘﺎري
ﺷﻤﺎره داﻧﺸﺠﻮﯾﯽ 9424044189 :
ﺑﻬﻤﻦ ﻣﺎه 94
1
ﯾﮏ ﺷﺒﮑﻪ ﻣﺘﺸﮑﻞ از 9ﺑﺎس ﺑﻪ ﺷﮑﻞ زﯾﺮ ﺑﺎ اﺳﺘﻔﺎده از 9ﺗﺮﻣﯿﻨﺎل 3 ،ﺑﺎر 3 ،ﺗﺮاﻧﺴﻔﻮرﻣﺎﺗﻮر و 3 ژﻧﺮاﺗﻮر ﺳﻨﮑﺮون ﻃﺮاﺣﯽ ﻣﯽ ﮐﻨﯿﻢ .
LOAD7
100.00 35.00 0.270
85.00 10.15 3.572
G9 66.9
SG ~
52.09 0.36 0.131
BUS7
72.35 10.64 0.183
85.00 10.15 3.572
32.91 5.52 0.084
-85.00 -5.88 0.214
-32.77 -13.11 0.090 226.45 0.98 148.41
LINE78 9.0
67.65 16.63 0.174
-140.00 -27.27 0.356
140.00 39.88 4.555
13.84 1.02 3.13
229.55 1.00 150.28
230.99 1.00 151.13
18.45 1.02 6.01
BUS9
BUS8
LINE48 13.2
LINE36 18.6
BUS6
LINE24 12.2
LOAD4
BUS5
-38.98 -26.59 0.122
LINE23 17.6
39.35 22.39 0.113
-54.38 -40.36 0.176
LOAD3
54.85 38.20 0.167
-94.20 -60.59 0.280
125.00 50.00 0.350
230.88 1.00 147.02
BUS2
T12 44.6 94.20 67.76 3.904
94.20 67.76 3.904
17.16 1.04 0.00
BUS1
SG ~
ﭘﺎﺳﺦ ﺳﻮاﻻت ﻓﺼﻞ ﺳﻮم -1ﻫﻤﺎﻧﻄﻮر ﮐﻪ ﻣﺸﺎﻫﺪه ﻣﯽ ﺷﻮد ﺷﮑﻞ دﭼﺎر اﺿﺎﻓﻪ ﺑﺎر ﻧﮕﺮدﯾﺪه و رﻧﮕﯽ ﻧﺸﺪه اﺳﺖ . -2ﻫﯿﭻ ﮐﺪام از ﺑﺎس ﻫﺎ دﭼﺎر اﺿﺎﻓﻪ ﺑﺎر ﻧﮕﺮدﯾﺪه اﻧﺪ . -3ﻣﻄﺎﺑﻖ ﺷﮑﻞ زﯾﺮ 4,2ﻣﮕﺎوات ﻣﯽ ﺑﺎﺷﺪ.
2
G5 75.8
BUS4
224.07 0.97 145.15
-70.62 -9. 64 0.186
221.78 0.96 144.51
BUS3
~ SG
-51.02 -3.41 0.132
90.00 30.00 0.244
140.00 39.88 4.555
-67.23 -21.89 0.180
LINE67 18.0
T98 56.9
T56 71.0
DIgSILENT
. ﺑﺼﻮرت زﯾﺮ اﺳﺖ24 دﯾﺎﮔﺮام ﺑﺮداري ﺧﻂ-4 129.368 kV/145.15°
3.00
2.00
1.00 -14.0
-13.0
-12.0
-11.0
-10.0
-9.00
-8.00
-7.00
-6.00
-5.00
-4.00
-3.00
-2.00
-1.00
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
4.00
5.00
6.00
7.00
8.00
9.00
10.0
11.0
12.0
13.0
-1.00
-2.00
-3.00
-4.00 LINE24 Terminal i Current in kA Line-Ground Voltage in kV
0.122 kA/-69.15°
0.0300 kA/Tick 25.0000 kV/Tick
133.299 kV/147.02°
3.00 0.113 kA/117.38° 2.00
1.00 -14.0
-13.0
-12.0
-11.0
-10.0
-9.00
-8.00
-7.00
-6.00
-5.00
-4.00
-3.00
-2.00
-1.00
1.00
2.00
3.00
-1.00
-2.00
-3.00
-4.00 LINE24 Terminal j Current in kA Line-Ground Voltage in kV
0.0400 kA/Tick 25.0000 kV/Tick Vector Diagram
Date: 1/31/2016 Annex:
دﭼﺎر اﺿﺎﻓﻪ ﺑﺎر ﮔﺮدﯾﺪه اﻧﺪ ﮐﻪ ﺑﺎ رﻧﮓ ﺳﺒﺰ ﻗﺎﺑﻞT12 وT56 و ﺗﺮاﻧﺴﻔﻮرﻣﺎﺗﻮرﻫﺎيG1 وG5 ژﻧﺮاﺗﻮر- 6 و5 دﭼﺎر اﻓﺖ وﻟﺘﺎژ ﮔﺮدﯾﺪه اﻧﺪ ﮐﻪ در ﺷﮑﻞ ﺑﺎ رﻧﮓ آﺑﯽ ﻗﺎﺑﻞ ﺗﺸﺨﯿﺺBUS7 وBUS3 ﻫﻤﭽﻨﯿﻦ. ﺗﺸﺨﯿﺺ اﺳﺖ . ﻣﯽ ﺑﺎﺷﺪ
3
DIgSILENT LOAD7
220.00 100.00 0.665 125.00 50.00 0.356
LOAD3
G9 79.5
SG ~
85.00 56.02 4.247
85.00 56.02 4.247
-85.00 -49.98 0.255
90.10 45.78 0.261
BUS9
13.84 1.02 -9.82
223.39 0.97 137.25
BUS8
-95.13 -18.56 0.254
LINE23 32.6
120.03 42.39 0.321
90.00 30.00 0.248
220.68 0.96 137.97
BUS4
LOAD4
96.85 21.79 0.250
-216.88 -64.17 0.570
228.91 1.00 143.07
T12 90.9
BUS2
-5.10 4.20 0.017
LINE48 3.3
-118.37 -34.25 0.326
5.13 -11.44 0.033
LINE24 25.4
218.36 0.95 137.15
LINE78 27.1
209.88 0.91 131.75 -6.63 -15.75 0.045
BUS3
T98 67.7
BUS7
6.70 8.77 0.028 223.62 0.97 137.57
LINE36 4.5
BUS6
18.45 1.02 -7.39
BUS5
-88.76 -42.37 0.271
-131.24 -57.63 0.394
LINE67 39.4 133.30 67.09 0.385
-140.00 -75.85 0.411
140.00 92.62 5.253
140.00 92.62 5.253
G5 87.4
~ SG
T56 81.9
216.88 93.92 7.952
BUS1
17.16 1.04 0.00
216.88 93.92 7.952
SG ~ G1 95.5
Load Flow Balanced Nodes
Branches
Line-Line Voltage, Magnitude [kV]
Active Power [MW]
Voltage, Magnitude [p.u.] Voltage, Angle [deg]
Reactive Power [Mvar] Current, Magnitude [kA]
labratory power system analysis 1 my master : dr.Eidiani Undergraduate: amir hossein Sattari Undergraduate : 9424044189
PowerFactory 15.1.7
Project: load flow Graphic: Grid Date:
1/31/2016
Annex:
step 1
DIgSILENT
. ﺑﯿﺸﺘﺮﯾﻦ ﺑﺎرﮔﺬاري را دارد67 ﺧﻂ-8 0.50
0.40
0.30
0.20
0.10
LIN E2 4
LIN E7 8
LIN E2 3
LIN E3 6
LIN E4 8
LIN E6 7
0.00
Current, Magnitude in kA Bar-Diagram
Date: 1/31/2016 Annex: /1
4
: ﻗﺴﻤﺖ اول-9
218.36 0.95 137.15
125.00 50.00 0.356
5.13 -11.44 0.033
-118.37 -34.25 0.326
-95.13 -18.56 0.254
LOAD3
120.03 42.39 0.321
220.68 0.96 137.97
90.00 30.00 0.248
BUS4
LOAD4
96.85 21.79 0.250
-216.88 -64.17 0.570
228.91 1.00 143.07
T12 90.9
BUS2
LINE23 32.6
LINE24 25.4
BUS3
-6.63 -15.75 0.045
216.88 93.92 7.952
BUS1
17.16 1.04 0.00
216.88 93.92 7.952
SG ~ G1
BUS9
5.13 -11.4 4 0.033
220.68 0.96 137.97 125.00 50.00 0.356
-118.37 -34.25 0.326
LOAD3
120.03 42.39 0.321
BUS4
90.00 30.00 0.248
LOAD4
96.85 21.79 0.250
-216.88 -64.17 0.570
228.91 1.00 143.07
T12 90.9
BUS2
-95.13 -18.56 0.254
LINE23 32.6
LINE24 25.4
218.36 0.95 137.15
13.84 1.02 -9.82
223.39 0.97 137.25 -6.63 -15.75 0.045
BUS3
BUS8
LINE48 3.3
BUS6
LINE36 4.5
BUS5
18.45 1.02 -7.39
223.62 0.97 137.57
: ﻗﺴﻤﺖ دوم
216.88 93.92 7.952
BUS1
17.16 1.04 0.00
216.88 93.92 7.952
SG ~ G1 78.8
Load Flow Balanced Nodes
Branches
labratory power system analysis 1
Line-Line Voltage, Magnitude [kV] Active Power [MW] Voltage, Magnitude [p.u.]
Reactive Power [Mvar]
Voltage, Angle [deg]
Current, Magnitude [kA]
PowerFactory 15.1.7
my master : dr.Eidiani Undergraduate: amir hossein Sattari Undergraduate : 9424044189
Project: load flow Graphic: Grid Date:
1/31/2016
Annex:
step 1
NO CONVERGENCE IN LOAD FLOW -10
5
DIgSILENT
-11 1.25
1.00
0.75
0.50
0.25
BU S1
BU S2
BU S7
BU S3
BU S4
BU S9
BU S8
BU S6
BU S5
0.00
Voltage, Magnitude in p.u. Bar-Diagram(1)
Date: 1/31/2016 Annex: /2
-6.63 -15.75 0.045
-118.37 -34.25 0.326
LOAD3
-95.13 -18.56 0.254
LINE23 32.6
L I NE 2 4 25 . 4
125.00 50.00 0.356
120.03 42.39 0.321
220.68 0.96 137.97
90.00 30.00 0.248
BUS4
LOAD4
96.85 21.79 0.250
BUS2228.91
-216.88 -64.17 0.570
T1 2 9 0 .9
1.00 143.07
216.88 93.92 7.952
BUS1 17.16 1.04 0.00
216.88 93.92 7.952
SG ~ G1 78.8
Load Flow Balanced Nodes
Branches
Line-Line Voltage, MagnitudeActive [kV] Power [MW ] Voltage, Magnitude [p.u.] Reactive Power [Mvar] Voltage, Angle [deg] Current, Magnitude [kA]
labratory power system analysis 1 Project: load flow
PowerFactory 15.1.7
Graphic: Grid my master : dr.Eidiani Undergraduate: amir hossein Sattari Date: 1/31/2016 Undergraduate : 9424044189 Annex: step 1
6
G9 7 9. 5
SG ~
85. 00 56. 02 4. 247 1.02 -9.82
B U S 9 13. 84
5.13 -11.44 0.033
BUS3218.36 0.95 137.15
85. 00 56. 02 4. 247
-85. 00 -49. 98 0. 255
90. 10 45. 78 0. 261 -5. 10 4. 20 0.017
0.97 137. 25
LI NE 4 8 3.3
B U S 8 223. 39
-88. 76 -42. 37 0. 271
T98 67.7 LI NE 7 8 2 7 .1
0. 91 131.75
0.97 137. 57
LI NE 3 6 4.5
1.02 -7.39
B U S 5 18. 45
B U S 6 223. 62
6. 70 8. 77 0.028
B U S 7 209.88
133. 30 67. 09 0. 385
-140. 00 -75. 85 0. 411
140. 00 92. 62 5. 253
140.00 92. 62 5. 253
G5 8 7. 4
~ SG
T56 81.9
-131. 24 -57. 63 0. 394
L INE 6 7 3 9. 4
220. 00 100. 00 0. 665
LO A D7
. ﺟﻬﺖ ﺗﻮان ﻫﺎ ﺑﺼﻮرت ﺷﮑﻞ زﯾﺮ ﻣﯽ ﺑﺎﺷﺪ-12
ﺟﺒﺮان ﺗﻮان راﮐﺘﯿﻮ-3-2 ﻣﺸﺎﻫﺪه ﻣﯿﮑﻨﯿﻢ اﺿﺎﻓﻪ ﮐﺮدن ﺧﺎزن. اﺿﺎﻓﻪ ﻧﻤﻮدﯾﻢ7 ﯾﮏ ﺧﺎزن ﺷﻨﺖ ﻣﻄﺎﺑﻖ ﺑﺎ اﻃﻼﻋﺎت داده ﺷﺪه ﺑﻪ ﺑﺎس . ﺑﻪ ﻫﻤﯿﻦ دﻟﯿﻞ از ﺧﺎزن ﺑﻪ ﻋﻨﻮان ﺟﺒﺮان ﺳﺎز ﺗﻮان راﮐﺘﯿﻮ ﺑﻬﺮه ﻣﯽ ﺑﺮﯾﻢ. ﻣﻮﺟﺐ اﻓﺰاﯾﺶ ﺗﻮان راﮐﺘﯿﻮ ﻣﯽ ﺷﻮد
-118.14 -28.58 0.317
LOAD3
G9 69.6
SG ~
85.00 26.88 3.720 -94.70 -14.87 0.248
LINE23 31.7
119.72 35.89 0.313
13.84 1.02 -9.75
BUS9
BUS8 90.00 30.00 0.245
223.12 0.97 138.12
BUS4
LOAD4
96.34 17.60 0.245
-216.06 -53.49 0.558
230.41 1.00 143.14
T12 88.9
BUS2
85.00 26.88 3.720
-85.00 -22.24 0.223 227.30 0.99 137.37
-4.63 7.80 0.023
LINE48 4.1
LINE36 5.9 125.00 50.00 0.351
4.70 -15.13 0.041
LINE24 24.8
221.18 0.96 137.31
89.63 14.44 0.231
-88.61 -14.29 0.234
0.00 -61.57 0.161
221.36 0.96 132.06
BUS7
6.99 14.46 0.041 228.55 0.99 137.63
BUS6
18.45 1.02 -7.44
BUS5
Shunt/Filter
-6.86 -21.42 0.059
BUS3
T98 59.3 LINE78 23.4
LINE67 34.8 133.01 29.31 0.344
-140.00 -43.77 0.371
140.00 57.39 4.735
140.00 57.39 4.735
G5 78.8
T56 73.8
~ SG
-131.39 -24.13 0.348
220.00 100.00 0.630
LOAD7
DIgSILENT
. ﺗﺰرﯾﻖ ﻣﯽ ﮐﻨﺪ7 ﺗﻮان راﮐﺘﯿﻮ ﺑﻪ ﺑﺎس0,05 اﯾﻦ ﺧﺎزن-2
216.06 81.93 7.774
BUS1
17.16 1.04 0.00
216.06 81.93 7.774
SG ~ G1 77.0
Load Flow Balanced Nodes Line-Line Voltage, Magnitude [kV] Voltage, Magnitude [p.u.] Voltage, Angle [deg]
Branches Active Power [MW] Reactive Power [Mvar] Current, Magnitude [kA]
labratory power system analysis 1
PowerFactory 15.1.7
my master : dr.Eidiani Undergraduate: amir hossein Sattari Undergraduate : 9424044189
Project: load flow Graphic: Grid Date: 1/31/2016 Annex: step 1
و ﺗﺮاﻧﺲ5 ﻫﻤﭽﻨﯿﻦ اﺿﺎﻓﻪ ﺑﺎر ژﻧﺮاﺗﻮر، ﺑﺮﻃﺮف ﮔﺮدﯾﺪه اﺳﺖ7 و3 ﻣﺸﺎﻫﺪه ﻣﯽ ﺷﻮد اﻓﺖ وﻟﺘﺎژ ﺑﺎس ﻫﺎي-3 . ﻧﯿﺰ ﺑﺮﻃﺮف ﺷﺪه اﺳﺖT56 . ﻣﺸﺎﻫﺪه ﻣﯽ ﺷﻮد ﮐﻪ ﺗﻮان ﺣﺪود دو واﺣﺪ اﻓﺰاﯾﺶ داﺷﺘﻪ اﺳﺖ ﮐﻪ در ﺷﮑﻞ زﯾﺮ ﻗﺎﺑﻞ ﺗﺸﺨﯿﺺ ﻣﯽ ﺑﺎﺷﺪ-4
7
LO A D 7
-12.15 -19.15 0.059
LOAD3
SG ~
G 9 6 8 .3
8 5 .0 0 2 0 .2 8 3 .6 4 6
8 5 .0 0 2 0 .2 8 3 .6 4 6
-85.98 86.53 -15.63 28.70 0.225 0.235
LINE23 28.6
L IN E 2 4 2 2 .5
118.77 -106.61 47.20 -28.05 0.331 0.286
- 7 .9 6
B U S 1193. 0. 824
-0.55 -13.07 0.034
BUS3 222.76 0.97 138.64
1 3 9 .1 7
B U S 2082. 98 9. 1 9
L IN E 4 8 3 .4
L IN E 3 6 5 .9
Shunt/Filter
T98 58.1
- 8 5 .0 0 - 1 5 .8 3 0 .2 1 9
8 4 .4 2 1 0 .2 9 0 .2 1 5 0 .5 8 5 .5 4 0 .0 1 4
2 0 9 .7 8 9 4 .7 9 0 .5 9 5 - 8 3 .5 3 - 1 1 .3 8 0 .2 1 8 1 3 4 .2 1
L IN E 7 8 2 1 .8
- 1 2 6 .2 5 - 2 0 .7 7 0 .3 3 1
B U S 2072. 93 7. 2 6
0 .0 0 - 6 2 .6 4 0 .1 6 2
L IN E 6 7 3 3 .1
1 2 7 .7 1 2 4 .4 9 0 .3 2 7
- 1 4 0 .0 0 - 3 6 .6 3 0 .3 6 4
1 3 9 . 5102 . 2 9 1 2 .1 4 0 .0 4 3
B U S 2162. 09 0. 6 1
1 4 0 .0 0 4 9 .7 7 4 .6 5 0 - 5 .5 9
B U S 1158. 0. 425
1 4 0 .0 0 4 9 .7 7 4 .6 5 0
G 5 7 7 .4
~ SG
T56 72.5
107.89 32.73 0.281
224.41 0.98 139.33
BUS4
LOAD4
87.33 16.70 0.222
BUS2 231.30
-195.22 -49.43 0.503
T12 8 0 .1
1.01 143.83
195.22 72.52 7.007
BUS1 17.16 1.04 0.00
195.22 72.52 7.007
SG ~ Load Flow Balanced Nodes Branches Line-Line Voltage, Magnitude Active Power [kV] [MW] Voltage, Magnitude [p.u.] Reactive Power [Mvar] Voltage, Angle [deg] Current, Magnitude [kA]
G1 69.4
labratory power system analysis Project: 1 load flow my master : dr.Eidiani Graphic: Grid Undergraduate: amir hossein Date: Sattari1/31/2016 PowerFactory 15.1.7 Undergraduate : 9424044189 Annex: step 1
ﺗﻐﯿﯿﺮ ﺗﭗ ﺗﺮاﻧﺲ-3-3 اﻓﺰاﯾﺶ170 را ﺑﻪ7 ﺳﭙﺲ ﺗﻮان راﮐﺘﯿﻮ ﺑﺎس، ﺑﺮ روي ﮐﻠﯿﺪ ﺧﺎزن دﺑﻞ ﮐﻠﯿﮏ ﻣﯽ ﮐﻨﯿﻢ ﺗﺎ ﺧﺎزن ﺧﺎﻣﻮش ﺷﻮد . ﮐﯿﻠﻮ وﻟﺖ ﮔﺮدﯾﺪه اﺳﺖ217,12 ،6 ﻣﺸﺎﻫﺪه ﻣﯽ ﮐﻨﯿﻢ وﻟﺘﺎژ ﺑﺎس، ﻣﯽ دﻫﯿﻢ . دﭼﺎر اﻓﺖ وﻟﺘﺎژ ﮔﺮدﯾﺪه اﻧﺪ6،7،8،3،4 ﺑﺎس ﻫﺎي-1
8
2 2 0 .0 0 1 7 0 .0 0 0 .8 2 4
LO A D 7
-1 3 1 .0 4 -9 5 .6 5 0 .4 8 1
-5 .8 8 -8 .6 1 0. 02 8
SG ~
G9 99. 3
8 5 .0 0 9 4 .5 8 5 .3 0 6 1 .0 2 - 1 0 .0 3
B U S 91 3 .8 4
L IN E 4 8 2. 4
L IN E 3 6 2. 8
Shunt/Filter
6.13 -6 .8 0 0. 02 4
BUS3214 .6 0 125 .00 -119.12 50. 00 -4 1.39 0.3 62 0. 33 9
-9 6.13 -2 3.20 0. 26 3
LINE23 33.9
LOAD3
LI N E 24 2 6 .3
0. 93 136 .8 7
8 5 .0 0 9 4 .5 8 5 .3 0 6
-8 5 .0 0 -8 5 .1 5 0 .3 1 8
9 1 .1 1 8 5 .3 7 0 .3 3 0
0 .9 5 1 3 6 .9 7
B U S 82 1 8 . 2 1
- 6 . 11 -0 .2 2 0 .0 1 6
0 .8 5 1 3 1 .1 6
B U S 71 9 4 . 7 4
T98 84.5 LI N E7 8 34. 4
- 8 8 .9 6 - 7 4 .3 5 0 .3 4 4
LI N E 67 48. 1
0 .0 0 0 .0 0 0 .0 0 0
1 3 4 .0 9 1 14 . 2 9 0 .4 6 9
-1 4 0 .0 0 - 1 1 6 .0 2 0 .4 8 3
B U S 62 1 7 . 1 2
0 .9 4 1 3 7 . 3 85 .9 1 1 .7 3 0 .0 1 6
1 4 0 .0 0 1 3 9 .2 0 6 .1 7 8
1 4 0 .0 0 1 3 9 .2 0 6 .1 7 8
1 .0 2 - 7 .4 3
B U S 51 8 .4 5
~ SG
G5 102..
T56 96.3
120 .92 50. 85 0.3 34
21 7. 43 0.95 13 7. 71
90. 00 30. 00 0.2 52
BUS4
LOAD4
97 .9 7 27 .2 1 0. 25 9
BUS2
-2 18 .8 8 - 78 .06 0.5 91
T12 9 4 .2
226 .9 0 0.99 142 .9 4
218 .88 110.02 8.2 42
BUS1
17 .16 1. 04 0. 00
218 .88 110.02 8.2 42
SG ~ Load Flow Balanced Nodes
G1 81.7
Branches
Line-Line Voltage, MagnitudeActive [kV] Power [MW] Voltage, Magnitude [p.u.] Reactive Power [Mvar] Voltage, Angle [deg] Current, Magnitude [kA]
labratory power system analysis 1 Project: load flow Graphic: Grid my master : dr.Eidiani Undergraduate: amir hossein Sattari Date: 1/31/2016 Undergraduate : 9424044189 Annex: step 1
PowerFactory 15.1.7
LOAD3
- 95.46 - 22.31 0.257
LINE23 32.1
LINE2 4 2 5.7
125 .0 0 - 119.49 50.00 -26.87 0.353 0.321
SG ~
G9 86.0
8 5 .0 0 7 0 .0 3 4 .5 9 5
1 .0 2 - 9 .7 5
B U S 91 3 .8 4
5.4 6 - 7.69 0.025
BUS3220 .4 4 0.96 137 .0 8
0 .9 6 1 3 7 .2 9
8 5 .0 0 7 0 .0 3 4 .5 9 5
9 0 .4 4 6 2 .5 0 0 .2 8 7 -5 .4 4 0 .4 6 0 .0 1 4
-5 .51 -23.13 0.062
B U S 82 2 1 . 5 1
L IN E4 8 2 .5
Shunt/Filter
L IN E3 6 6 .2
-8 5 .0 0 -6 2 .9 6 0 .2 7 6
T98 73.2 LINE7 8 2 9.8
- 8 8 .8 2 - 5 6 .4 4 0 .2 9 8
-1 3 1 .1 8 - 1 1 3 .5 6 0 .4 9 1 0 .0 0 0 .0 0 0 .0 0 0
0 .8 9 1 3 1 .6 9
B U S 72 0 3 . 8 6
L INE67 49 .1
1 3 4 .3 5 1 3 2 .5 0 0 .4 7 7
-1 4 0 .0 0 -1 4 8 .7 9 0 .5 1 6
B U S 62 2 8 . 3 9
0 .9 9 1 3 7 . 2 45 .6 5 1 6 .2 9 0 .0 4 4
1 4 0 .0 0 1 7 9 .6 5 7 .1 2 7
1 4 0 .0 0 1 7 9 .6 5 7 .1 2 7
1 .0 2 - 7 .4 3
B U S 51 8 .4 5
~ SG
G5 1 18 . .
T56 111 .1
L O AD 7
2 2 0 .0 0 1 7 0 .0 0 0 .7 8 7
. ﮐﯿﻠﻮ وﻟﺖ رﺳﯿﺪه اﺳﺖ228,39 ﺟﺒﺮان ﻣﯽ ﺷﻮد و ﻣﺸﺎﻫﺪه ﻣﯽ ﮔﺮدد ﮐﻪ وﻟﺘﺎژ آن ﺑﻪ6 اﻓﺖ وﻟﺘﺎژ ﺑﺎس-2
12 1.11 34 .54 0.317
90. 00 30. 00 0.2 49
220 .35 0.9 6 137 .96
BUS4
LOAD4
97.22 25.75 0.253
BUS2229 .43
-2 18.33 -6 0.29 0. 57 0
T1 2 90.8
1.00 143 .04
21 8.33 89 .9 9 7. 94 5
BUS117 .1 6 1.04 0.00
21 8.33 89 .9 9 7. 94 5
SG ~ G1 78.7
Load Flow Balanced Nodes Branches Line-Line Voltage, MagnitudeActive [kV] Power [MW] Voltage, Magnitude [p.u.] Voltage, Angle [deg]
Reactive Power [Mvar] Current, Magnitude [kA]
PowerFactory 15.1.7
labratory power system analysis 1 Project: load flow Graphic: Grid my master : dr.Eidiani Undergraduate: amir hossein Sattari Date: 1/31/2016 Undergraduate : 9424044189 Annex: step 1
LINE67 49.1
9
BUS7
1
Shunt/Filter
LINE36 6.2
BUS6
BUS5
18.45 1.02 -7.43
228.39 0.99 137.24
5.65 16.29 0.044
4
203.86
0.00 0.00 0.000
134.35 132.50 0.477
-140.00 -148.79 0.516
140.00 179.65 7.127
140.00 179.65 7.127
~ SG
T56 111.1
G5 118..
-131.18 -113.56 0.491
. ﺑﺮ روي ﺗﺮاﻧﺲ ﻗﺎﺑﻞ ﻣﺸﺎﻫﺪه ﻣﯽ ﺑﺎﺷﺪ4 ﺗﭗ-3
. ﺗﭗ ﺗﺮاﻧﺲ اﻓﺰاﯾﺶ ﻣﯽ ﯾﺎﺑﺪ، 7 ﻣﺸﺎﻫﺪه ﻣﯽ ﮔﺮدد ﮐﻪ ﺑﺎ اﻓﺰاﯾﺶ ﺗﻮان راﮐﺘﯿﻮ ﺑﺎر-4
LINE36 6.9
BUS6
BUS5
18.45 1.02 -7.45
230.14 1.00 137.07
5.02 19.28 0.050
6
134.98 162.11 0.529
-140.00 -181.39 0.575
140.00 222.50 8.226
140.00 222.50 8.226
~ SG
G5 136..
T56 128.2
Station Control ﮐﻨﺘﺮل وﻟﺘﺎژ ﺑﺎس ﺑﺎ اﺳﺘﻔﺎده از-4-3 station ﻣﺸﺎﻫﺪه ﮔﺮدﯾﺪ ﺑﺎ اﺿﺎﻓﻪ ﻧﻤﻮدن. وﻟﺘﺎژ ﺑﺎس ﻫﻔﺖ اﻓﺰاﯾﺶ ﯾﺎﻓﺘﻪ اﺳﺖ و اﻓﺖ وﻟﺘﺎژ آن ﺑﺮﻃﺮف ﮔﺮدﯾﺪ-1
85.00 -0.89 3.547
G9 66.4
SG ~
0
85.00 -0.89 3.547 4.96 -9.34 0.027
-122.56 28.93 0.303
-94.96 -20.66 0.245
LOAD3
LINE23 30.7
124.04 -23.20 0.307
90.00 30.00 0.239
13.84 1.02 -9.26
BUS9 229.34 1.00 138.51
BUS4
LOAD4
96.55 22.74 0.241
-220.59 0.45 0.536
237.58 1.03 143.21
0
T12 85.4
BUS2
BUS8
LINE48 2.7
-2.44 -78.93 0.190
LINE24 24.5
125.00 50.00 0.324
-85.00 5.10 0.213 231.03 1.00 137.91
-4.93 1.49 0.013
BUS7
266.48 1.16 136.54
4.08 77.55 0.168
1
Shunt/Filter
LINE36 19.0
BUS6 239.76 1.04 137.48
89.93 -6.59 0.225
230.00 1.00 132.71
0.00 0.00 0.000
0 23.95 1.33 -10.21
BUS5
BUS3
T98 56.5 LINE78 22.5
-88.98 5.69 0.224
LINE67 61.2 135.92 236.74 0.591
-140.00 -314.28 0.745
140.00 369.40 9.525
140.00 369.40 9.525
G5 205..
T56 148.5
~ SG
-131.02 -205.69 0.612
220.00 200.00 0.746
LOAD7
DIgSILENT
. وﻟﺘﺎژ ﯾﮏ ﭘﺮﯾﻮﻧﯿﺖ ﮔﺮدﯾﺪcontrol
220.59 25.81 7.472
BUS1
17.16 1.04 0.00
220.59 25.81 7.472
SG ~ G1 74.0
Load Flow Balanced Nodes
Branches
labratory power system analysis 1
Line-Line Voltage, Magnitude [kV] Active Power [MW] Voltage, Magnitude [p.u.] Voltage, Angle [deg]
Reactive Power [Mvar] Current, Magnitude [kA]
PowerFactory 15.1.7
my master : dr.Eidiani Undergraduate: amir hossein Sattari Undergraduate : 9424044189
Project: load flow Graphic: Grid Date: 1/31/2016 Annex: step 1
.( دﭼﺎر اﺿﺎﻓﻪ وﻟﺘﺎژ ﮔﺮدﯾﺪه اﻧﺪ )ﻗﺮﻣﺰ رﻧﮓ ﺷﺪه اﻧﺪ5 و6 ﻣﻄﺎﺑﻖ ﺷﮑﻞ ﺑﺎﻻ ﺑﺎس ﻫﺎي-2 10
-5-3ﺗﻌﯿﯿﻦ ﻓﯿﺪر در اﺑﺘﺪا station controlرا از ﺑﺎس ﻫﻔﺖ ﺑﻪ ﺑﺎس 6ﻣﻨﺘﻘﻞ ﻣﯽ ﮐﻨﯿﻢ .ﺳﭙﺲ ﻓﯿﺪر را ﺗﻌﺮﯾﻒ ﻣﯽ ﮐﻨﯿﻢ . ﻣﺸﺎﻫﺪه ﻣﯽ ﮐﻨﯿﻢ ﺗﻮان ﺣﻘﯿﻘﯽ ﻣﮑﺎﻧﯽ ﮐﻪ ﻓﯿﺪر را ﺗﻌﺮﯾﻒ ﮐﺮده اﯾﻢ 50ﻣﮕﺎوات ﺷﺪه اﺳﺖ.
-49.67 -30.04 0.148
LINE23 14.8
225.88 0.98 144.91
89.20 35.68 0.246
BUS3
LOAD3
50.00 26.54 0.141
-89.48 -48.23 0.252
232.59 1.01 147.19
BUS2
ﻫﻤﭽﻨﯿﻦ ﺑﺎ اﻧﺘﺨﺎب ﺧﻂ voltage profile ،23را ﺑﻪ ﺷﮑﻞ زﯾﺮ رﺳﻢ ﻣﯿﮑﻨﯿﻢ . DIgSILENT
1.10
6.000 km 1.040 p.u.
2.000 km 1.065 p.u.
4.000 km 1.024 p.u.
][p.u.
1.06
0.040 km 1.011 p.u.
1.02
4.983 km 0.983 p.u.
0.98
1.982 km 1.000 p.u.
4.007 km 0.979 p.u.
1.025 km 0.983 p.u.
0.94
3.003 km 0.919 p.u.
0.90 ][km
6.25
5.00
2.50
3.75
0.00
1.25
BUS1
BUS4
BUS9
BUS7
BUS5
BUS3
BUS2
Voltage, Magnitude Date: 1/31/2016
Voltage Profile-BUS2_LINE23
Annex: /3
-1ﻣﺸﺎﻫﺪه ﻣﯽ ﺷﻮد ﮐﻪ ﺑﺎس 7دﭼﺎر اﻓﺖ وﻟﺘﺎژ ﻣﯽ ﮔﺮدد .ﻫﻤﭽﻨﯿﻦ ﺑﺎس 5دﭼﺎر اﺿﺎﻓﻪ وﻟﺘﺎژ و ژﻧﺮاﺗﻮر 5و ﺗﺮاﻧﺴﻔﻮرﻣﺎﺗﻮر T56دﭼﺎر اﺿﺎﻓﻪ ﺑﺎر ﮔﺮدﯾﺪه اﻧﺪ .
11
LOAD7
157. 00 142. 72 0.580 -9 8.1 8 -9 2.7 3 0.36 9 89 .20 35 .68 0.2 46
LOAD3
SG ~
BUS9
13.8 4 1.0 2 0.9 9
G9 74.4
85. 00 42. 88 3.9 72
0
BUS8
-39 .12 -26 .04 0.1 20
LINE23 14.8
50 .00 26 .54 0.1 41
64. 23 21. 41 0.1 73
225 .97 0.98 145 .34
BUS4
LOAD4
39. 48 21. 69 0.112
-89 .48 -48 .23 0.2 52
232 .59 1.0 1 147 .19
0
T12 40.2
BUS2
85. 00 42. 88 3.9 72
-85 .00 -37 .59 0.2 38 225 .15 0.9 8 148 .08
25. 39 -11.0 2 0.0 71
LINE48 7.1
-49 .67 -30 .04 0.1 48
-25 .11 4.6 3 0.0 65
LINE24 12.0
22 5.8 8 0.9 8 14 4.9 1
59.6 1 48.6 2 0.19 7
-5 8.8 2 -4 9.9 9 0.211
0.00 0.00 0.0 00
211.3 4 0.92 144. 65
BUS7
LINE36 10.2
BUS6
BUS5
19.1 9 1.0 7 3.3 0
230 .00 1.0 0 148 .59
40. 05 0.4 7 0.1 01
1
Shunt/Filter
-39 .53 -5 .65 0.1 02
BUS3
T98 63.3 LINE78 21.1
LINE67 36.9 99. 95 99. 46 0.3 54
-140 .00 -99 .92 0.4 32
140 .00 118.4 1 5.5 17
0
140 .00 118. 41 5.51 7
~ SG
G5 95.5
T56 86.0
89 .48 54 .05 3.5 17
BUS1
17. 16 1.04 0.00
89 .48 54 .05 3.5 17
SG ~ G1 34.8
Load Flow Balanced Nodes
Branches
Line-Line Voltage, Magnitude [kV]
Active Power [MW]
Voltage, Magnitude [p.u.] Voltage, Angle [deg]
Reactive Power [Mvar] Current, Magnitude [kA]
labratory power system analysis 1
PowerFactory 15.1.7
Project: load flow Graphic: Grid
my master : dr.Eidiani Undergraduate: amir hossein Sattari Undergraduate : 9424044189
Date: Annex:
1/31/2016 step 1
ﻓﺼﻞ ﭼﻬﺎرم – ﻣﺤﺎﺳﺒﺎت اﺗﺼﺎل ﮐﻮﺗﺎه . اﺗﺼﺎل ﮐﻮﺗﺎه ﻣﺪت ﻣﯽ ﮐﻨﯿﻢIEC ﺗﻤﺎم ﺑﺎس ﻫﺎ را ﺑﻪ روش
DIgSILENT
. ﺑﻪ ﺷﮑﻞ زﯾﺮ ﻣﯽ ﺑﺎﺷﺪIkss دﯾﺎﮔﺮام ﺟﺮﯾﺎن اﺗﺼﺎل ﮐﻮﺗﺎه 100.00
80.00
60.00
40.00
20.00
BU S1
BU S2
BU S7
BU S3
BU S4
BU S9
BU S8
BU S6
BU S5
0.00
Initial Short-Circuit Current in kA Bar-Diagram(2)
Date: 1/31/2016 Annex: /4
12
DIgSILENT
. ﺑﺼﻮرت زﯾﺮ ﻣﯽ ﺑﺎﺷﺪSkss ﺗﻮان اﺗﺼﺎل ﮐﻮﺗﺎه 2500.00
2000.00
1500.00
1000.00
500.00
BU S1
BU S2
BU S7
BU S3
BU S4
BU S9
BU S8
BU S6
BU S5
0.00
Initial Short-Circuit Power in MVA Bar-Diagram(3)
Date: 1/31/2016 Annex: /5
DIgSILENT
.ﭘﯿﮏ ﺟﺮﯾﺎن اﺗﺼﺎل ﮐﻮﺗﺎه ﻧﯿﺰ ﺑﺼﻮرت زﯾﺮ ﻣﯽ ﺑﺎﺷﺪ 200.00
160.00
120.00
80.00
40.00
BU S1
BU S2
BU S7
BU S3
BU S4
BU S9
BU S8
BU S6
BU S5
0.00
Peak Short-Circuit Current in kA Bar-Diagram(4)
Date: 1/31/2016 Annex: /6
13
DigSILENT رﺳﻢ ﻣﻨﺤﻨﯽ ﻫﺎي دﯾﻨﺎﻣﯿﮑﯽ در-5
DIgSILENT
. ﺷﺒﯿﻪ ﺳﺎزي را ﻣﻄﺎﺑﻖ دﺳﺘﻮراﻟﻌﻤﻞ اﻧﺠﺎم دادﯾﻢ ﺑﻪ ﺷﮑﻞ زﯾﺮ ﻣﯽ رﺳﯿﻢ 50.00
37.50
25.00
12.50
0.00
-12.50 -0.1000
1.9183
3.9367
5.9550
7.9733
[s]
9.9917
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 Project
Date: 2/1/2016 Annex: /4
DIgSILENT
ﺗﻐﯿﯿﺮ زﻣﺎن ﻗﻄﻊ اﺗﺼﺎل ﮐﻮﺗﺎه ﺑﺮاي ﺗﻌﯿﯿﻦ زﻣﺎن ﻗﻄﻊ ﺑﺤﺮاﻧﯽ-ب 160.00
120.00
80.00
40.00
0.00
-40.00 -0.1000
1.9183
3.9367
5.9550
7.9734
[s]
9.9917
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 Project
Date: 2/1/2016 Annex: /4
14
ﺗﻐﯿﯿﺮ زﻣﺎن ﻗﻄﻊ اﺗﺼﺎل ﮐﻮﺗﺎه ﺑﺮاي ﻧﺎﭘﺎﯾﺪاري-ج
DIgSILENT
. ﺛﺎﻧﯿﻪ ﻣﯿﺒﯿﻨﯿﻢ ﮐﻪ ﺷﺒﮑﻪ ﻧﺎﭘﺎﯾﺪار ﻣﯽ ﺷﻮد0,4300652 در اﯾﻦ ﻗﺴﻤﺖ ﺑﺎ ﻗﺮار دادن زﻣﺎن در 160.00
120.00
80.00
40.00
0.00
-40.00 -0.1000
1.9183
3.9367
5.9550
7.9734
[s]
9.9917
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 Project
Date: 2/1/2016 Annex: /4
15
در ﭘﺎﯾﺪاري ﮔﺬراPSS ﮔﺎورﻧﺮ و، اﺿﺎﻓﻪ ﮐﺮدن و ﺑﺮرﺳﯽ اﺛﺮ اﮐﺴﺎﯾﺘﺮ-ﻓﺼﻞ ﺷﺸﻢ ﺑﻪ ﻋﻨﻮان ﮐﻨﺘﺮل ﮐﻨﻨﺪهAVR اﺿﺎﻓﻪ ﮐﺮدن، ﺑﺎ اﺿﺎﻓﻪ ﮐﺮدن ﮔﺎورﻧﺮ و ﺗﻮرﺑﯿﻦ ﺑﻪ ﻋﻨﻮان ﮐﻨﺘﺮل ﮐﻨﻨﺪه ﻓﺮﮐﺎﻧﺲ 0,4300652 ﺑﻪ ﻋﻨﻮان ﭘﺎﯾﺪارﺳﺎز ﺳﯿﺴﺘﻢ ﻗﺪرت ﻣﺸﺎﻫﺪه ﮐﺮدﯾﻢ ﺷﺒﯿﻪ ﺳﺎزي در زﻣﺎنPSS وﻟﺘﺎژ و اﺿﺎﻓﻪ ﮐﺮدن DIgSILENT
. ﺷﮑﻞ زﯾﺮ ﮔﻮﯾﺎ ﺧﻮاﻫﺪ ﺑﻮد. ﭘﺎﯾﺪار ﮔﺮدﯾﺪه اﺳﺖ، ﮐﻪ ﻗﺒﻼ ﻧﺎﭘﺎﯾﺪار ﮔﺸﺘﻪ ﺑﻮد 160.00
120.00
80.00
40.00
0.00
-40.00 -0.1000
1.9183
3.9367
5.9550
7.9734
[s]
9.9917
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 Project
Date: 2/1/2016 Annex: /4
1 4 9 .7 1 3 6 .1 0 .5 6 6 -1 0 7 .7 - 7 9 .8 0 .3 7 5 Short-Circuit Loc.. 0.000
0.0 0.0 0.000
LOAD3
-27.6 -28.5 0.103
LINE23 23.9
L IN E 2 4 1 0 .3
-84.7 -33.9 0.239
SG ~
1 .0 1 0 .8
B U S 91 3 .6 222.3 0.97 144.2
84.7 33.9 0.239
G 9 7 0 .8
7 7 .8 4 6 .4 3 .8 3 3
0
7 7 .8 4 6 .4 3 .8 3 3
- 7 7 .8 - 4 1 .4 0 .2 3 0
4 2 .7 5 4 .2 0 .1 8 0 -34.6 7.8 0.092
BUS3220.1 0.96 141.3
0 .9 6 1 4 8 .1
3 5 .2 -1 2 .7 0 .0 9 8
L IN E 4 8 9 .8
L IN E 3 6 0 .0
Shunt/Filter
B U S 82 2 1 . 4
0 .9 7 1 5 0 .4 0 .0 0 .0 0 .0 0 0
B U S 62 2 3 . 5
1
T98 61.1
L IN E 7 8 1 9 .6
0 .9 0 1 4 5 .7
B U S 72 0 6 . 3
0 .0 0 .0 0 .0 0 0
-4 2 .0 -5 6 .2 0 .1 9 6
L IN E 6 7 3 7 .5 1 0 9 .5 8 7 .6 0 .3 6 2
- 1 0 9 .5 - 8 7 .6 0 .3 6 2
1 0 9 .5 1 0 0 .6 4 .6 2 8 0
1 0 9 .5 1 0 0 .6 4 .6 2 8
1 .0 3 4 .3
B U S 51 8 .5
~ SG
G 5 7 7 .4
T56 72.1
LO AD7
. دﭼﺎر اﻓﺖ وﻟﺘﺎژ ﮔﺮدﯾﺪه اﺳﺖ7 ﻫﻤﭽﻨﯿﻦ ﺷﮑﻞ ﺧﺮوﺟﯽ ﺷﺒﮑﻪ ﻣﺎﻧﻨﺪ زﯾﺮ اﺳﺖ ﮐﻪ ﻣﺸﺎﻫﺪه ﻣﯽ ﺷﻮد ﻓﻘﻂ ﺑﺎس
85.6 35.4 0.233
BUS4
62.2 20.7 0.170
LOAD4
27.8 23.8 0.092
BUS2229.1 T12 5 1 .4
1.00 145.4
-113.5 -59.2 0 0.322 113.5 68.7 4.495
BUS117.0 1.03 -0.9
113.5 68.7 4.495
SG ~ G1 44.2
RMS-Simulation,balanced 09:992 s Nodes Branches Line-Line Voltage, Magnitude Active[kV] Power [MW ]
labratory power system analysisProject: 1 load flow
Voltage, Magnitude [p.u.]Reactive Power [Mvar] Voltage, Angle [deg]
Current, Magnitude [kA]
PowerFactory 15.1.7
16
Graphic: Grid my master : dr.Eidiani Undergraduate: amir hossein Sattari Date: 1/31/2016 Undergraduate : 9424044189 Annex: step 1
ﻗﻄﻊ و اﺗﺼﺎل ﮐﻮﺗﺎه ﻣﻮﺗﻮر آﺳﻨﮑﺮون، ﺗﺤﻠﯿﻞ راه اﻧﺪازي، ﻓﺼﻞ ﻫﻔﺘﻢ –درس ﺗﺌﻮري ﺟﺎﻣﻊ ﻣﺎﺷﯿﻦ ﺧﺎزن را ﻣﺠﺪدا وارد ﻣﺪار ﻣﯽ ﮐﻨﯿﻢ، از آﻧﺠﺎ ﮐﻪ ﻣﻮﺗﻮر آﺳﻨﮑﺮون ﺗﻮان ﻣﻮﻫﻮﻣﯽ ﻣﺼﺮف ﻣﯽ ﮐﻨﺪ ﭘﺲ در اﯾﻦ ﺑﺨﺶ
-39.71 -4.97 0.102
-49.67 -30.78 0.149
LOAD3
-38.83 -22.62 0.114
LINE23 14.9
L IN E 2 4 11 .4
89.38 35.75 0.246
SG ~
G9 6 9 .0
8 5 .0 0 2 3 .8 2 3 .6 8 3 1 .0 2 0 .8 8
B U S 91 3 . 8 4
-25.52 1.17 0.065
BUS3226.13 0.98 144.94
8 5 .0 0 2 3 .8 2 3 .6 8 3
- 8 5 .0 0 - 1 9 .2 8 0 .2 2 1
0
5 9.21 2 7.03 0 .1 6 5
0 .9 9 14 8.01
2 5 .7 9 -7 .7 5 0 .0 6 8
L IN E 4 8 6 .8
L IN E 3 6 1 0 .2
Shunt/Filter
B U S 82 2 7 . 7 1
0 .9 5 14 4.61
B U S 72 1 9 . 1 0
1 .0 0 14 8.64 4 0 .2 3 -0 .2 1 0 .1 0 1
B U S 62 3 0 . 0 0
1
T98 58.7
L IN E 7 8 1 7 .5
- 5 8 .6 6 - 3 0 .8 5 0 .1 7 5
L IN E 6 7 2 9 .4
0 .0 0 - 6 0 .3 3 0 .1 5 9
9 9 .7 7 5 2 .8 3 0 .2 8 3
14 0.00 6 6 .6 0 4 .7 9 7 0
1 4 0 .0 0 6 6.60 4 .7 9 7
1 .0 4 3 .4 8
B U S 51 8 . 6 6
~ SG
G5 8 0 .7
- 1 4 0 .0 0 - 5 2 .6 2 0 .3 7 5
T56 74.8
-9 8.64 -5 1.83 0.29 4
1 5 7.30 1 4 3.00 0.56 0
LO AD7
: ﺷﮑﻞ زﯾﺮ ﻗﺎﺑﻞ اﺳﺘﺨﺮاج ﺧﻮاﻫﺪ ﺷﺪ.
50.00 27.30 0.141
64.35 21.45 0.172
227.14 0.99 145.35
BUS4
LOAD4
39.16 18.05 0.107
BUS2232.98 T12 3 9 .5
1.01 147.21
-89.16 -45.350 0.248 89.16 50.96 3.455
BUS117.16 1.04 0.00
89.16 50.96 3.455
SG ~ G1 34.2
Load Flow Balanced Nodes
Branches
labratory power system analysis Project: 1 load flow
Line-Line Voltage, Magnitude Active[kV] Power [MW] Voltage, Magnitude [p.u.]Reactive Power [Mvar] Voltage, Angle [deg]
PowerFactory 15.1.7
Current, Magnitude [kA]
Graphic: Grid my master : dr.Eidiani Undergraduate: amir hossein Sattari Date: 1/31/2016 Undergraduate : 9424044189 Annex: step 1
ﯾﮏ ﺑﺎس و ﯾﮏ، ﮐﻪ ﯾﮏ ﻣﻮﺗﻮر آﺳﻨﮑﺮون. ﺳﭙﺲ ﻣﻄﺎﺑﻖ ﺑﺎ دﺳﺘﻮرات دﺳﺘﻮراﻟﻌﻤﻞ ﺷﮑﻞ زﯾﺮ را اﯾﺠﺎد ﻣﯿﮑﻨﯿﻢ
LIN E 67 Line Ty..
LO A D 7 General..
. ﺗﺮاﻧﺴﻔﻮرﻣﺎﺗﻮر اﺿﺎﻓﻪ ﮔﺮدﯾﺪه اﺳﺖ
1
G9 G9
B US 7
SG ~
0
L IN E 7 8 Line Ty..
T98 2-Wi..
0
G5 G5
~ SG
T56 2-Wi..
0
AM ~
T98(.. 2-Wi..
BUS3
Asynchron.. 9 0 0 k W /6 ...
B US 9
B US 8
LIN E 48 Line Ty..
LIN E 36 Line Ty..
B US 6
B US 5
Shunt/Filter
L IN E 2 4 Line Ty..
BUS9(1..
BUS4
LINE23 Line Ty..
LOAD4 General..
LOAD3 General..
T12 2 -W i..
BUS2 0
BUS1
SG ~ G1 G1
labratory power system analysis 1
PowerFactory 15.1.7
my master : dr.Eidiani Undergraduate: amir hossein Sattari Undergraduate : 9424044189
Project: load flow Graphic: Grid Date: Annex:
1/31/2016 step 1
. ﻟﻐﺰش و ﺳﺮﻋﺖ را ﻣﻮرد اﻧﺪازه ﮔﯿﺮي ﻗﺮار ﻣﯽ دﻫﯿﻢ، ﮔﺸﺘﺎور ﻣﮑﺎﻧﯿﮑﯽ، ﺳﭙﺲ ﻣﺘﻐﯿﺮﻫﺎي ﮔﺸﺘﺎور اﻟﮑﺘﺮﯾﮑﯽ . ﺳﭙﺲ ﺷﺒﯿﻪ ﺳﺎزي را ﺗﮑﻤﯿﻞ ﮐﺮده و ﺧﺮوﺟﯽ زﯾﺮ را ﺧﻮاﻫﯿﻢ داﺷﺖ
17
0.04
0.90
0.00
0.60
-0.04
0.30
-0.08
0.00
-0.12
-0.30 -0.1000
2.3183
4.7367
7.1550
9.5733
[s]
DIgSILENT
1.20
-0.16 -0.1000
11.992
Asynchronous Machine: Slip in -
0.08
0.40
0.06
0.30
0.04
0.20
0.02
0.10
-0.00
0.00
-0.02 -0.1000
2.3183
4.7367
2.3183
4.7367
7.1550
9.5733
[s]
11.992
7.1550
9.5733
[s]
11.992
Asynchronous Machine: Electrical Torque in p.u.
7.1550
9.5733
[s]
-0.10 -0.1000
11.992
Asynchronous Machine: Mechanical Torque in p.u.
2.3183
4.7367
Asynchronous Machine: Speed in p.u. Project(1)
Date: 2/1/2016 Annex: /5
ﮔﺸﺘﺎور ﻣﮑﺎﻧﯿﮑﯽ ﺑﺎ رﻧﮓ آﺑﯽ و، ﻟﻐﺰش ﺑﺎ رﻧﮓ ﻗﺮﻣﺰ، ﺑﻪ اﯾﻦ ﺻﻮرت ﮐﻪ ﻣﻨﺤﻨﯽ ﮔﺸﺘﺎور اﻟﮑﺘﺮﯾﮑﯽ ﺑﺎ رﻧﮓ ﺳﺒﺰ . ﺳﺮﻋﺖ ﺑﺎ رﻧﮓ ﺧﺎﮐﺴﺘﺮي ﻧﻤﺎﯾﺶ داده ﺷﺪه اﺳﺖ
DIgSILENT
. ﻫﻤﭽﻨﯿﻦ ﻣﻨﺤﻨﯽ ﮔﺸﺘﺎور – ﺳﺮﻋﺖ ﺑﻪ ﺷﮑﻞ زﯾﺮ ﺧﻮاﻫﺪ ﺑﻮد 0.04
[p.u.]
0.00
-0.04
-0.08
-0.12
-0.16 -0.10
0.00
0.10
0.20
0.30
[p.u.]
0.40
Asynchronous Machine: Speed in p.u. / Electrical Torque in p.u.
Project(2)
Date: 2/1/2016 Annex: /6
18
DIgSILENT
. زاوﯾﻪ ژﻧﺮاﺗﻮر ﺗﻐﯿﯿﺮ ﻣﯽ ﮐﻨﺪ ﮐﻪ ﻣﻄﺎﺑﻖ ﺷﮑﻞ زﯾﺮ ﻣﯽ ﺑﺎﺷﺪ، ﻣﺸﺎﻫﺪه ﻣﯽ ﺷﻮد ﮐﻪ ﭘﺲ از ورود ﻣﺎﺷﯿﻦ آﺳﻨﮑﺮون 160.00
120.00
80.00
40.00
0.00
-40.00 -0.1000
2.3183
4.7367
7.1550
9.5733
[s]
11.992
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 Project
Date: 2/1/2016 Annex: /4
را ﺑﺮ ورودPSS ﻓﻌﺎل ﻣﯽ ﻧﻤﺎﯾﯿﻢ ﺗﺎ اﺛﺮ، را ﮐﻪ ﻗﺒﻼ ﻏﯿﺮ ﻓﻌﺎل ﮐﺮده ﺑﻮدﯾﻢ5 ژﻧﺮاﺗﻮرComposite Model ﺣﺎل . ﺷﮑﻞ زﯾﺮ را در ﺧﺮوﺟﯽ ﺧﻮاﻫﯿﻢ داﺷﺖ. و ﺧﺮوج ﻣﺎﺷﯿﻦ آﺳﻨﮑﺮون و اﺗﺼﺎل ﮐﻮﺗﺎه آن ﺑﺮرﺳﯽ ﻧﻤﺎﯾﯿﻢ
19
0.04
0.90
0.00
0.60
-0.04
0.30
-0.08
0.00
-0.12
-0.30 -0.1000
2.3183
4.7367
7.1550
9.5733
[s]
11.992
-0.16 -0.1000
Asynchronous Machine: Slip in -
0.40
0.06
0.30
0.04
0.20
0.02
0.10
-0.00
0.00
2.3183
2.3183
4.7367
7.1550
9.5733
[s]
11.992
9.5733
[s]
11.992
Asynchronous Machine: Electrical Torque in p.u.
0.08
-0.02 -0.1000
DIgSILENT
1.20
4.7367
7.1550
9.5733
[s]
11.992
-0.10 -0.1000
Asynchronous Machine: Mechanical Torque in p.u.
2.3183
4.7367
7.1550
Asynchronous Machine: Speed in p.u. Project(1)
Date: 2/1/2016 Annex: /5
DIgSILENT
. ﻣﻨﺤﻨﯽ ﮔﺸﺘﺎور ﺳﺮﻋﺖ در اﯾﻦ ﺣﺎﻟﺖ ﻣﻄﺎﺑﻖ ﺷﮑﻞ زﯾﺮ ﺧﻮاﻫﺪ ﺑﻮد 0.04
[p.u.]
0.00
-0.04
-0.08
-0.12
-0.16 -0.10
0.00
0.10
0.20
0.30
[p.u.]
0.40
Asynchronous Machine: Speed in p.u. / Electrical Torque in p.u.
Project(2) Date: 2/1/2016 Annex: /6
20
DIgSILENT
: و در اﻧﺘﻬﺎ زاوﯾﻪ ژﻧﺮاﺗﻮر ﺑﻪ ﺷﮑﻞ زﯾﺮ ﺧﻮاﻫﺪ ﺑﻮد 160.00
120.00
80.00
40.00
0.00
-40.00 -0.1000
2.3183
4.7367
7.1550
9.5733
[s]
11.992
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 Project
Date: 2/1/2016 Annex: /4
21
ﻓﺼﻞ ﻫﺸﺘﻢ – ﺗﺤﻠﯿﻞ ﻫﺎرﻣﻮﻧﯿﮑﯽ
125.00 -54.38 50.00 -40.36 0.350 0.176
LOAD3
SG ~
3.1 3
B U S 1913. 0. 824
G 9 6 6 .9
8 5.0 0 1 0.1 5 3 .5 7 2
85 .00 10 .15 3.5 72
-8 5 .00 -5.8 8 0.2 14
32 .91 5 .52 0.0 84 -51.02 -3.41 0.132
BUS3 221.78 -38.98 90.00 -26.59 30.00 0.122 0.244
LINE23 17.6
L IN E 2 4 1 2 .2
0.96 144.51
1 50 .28
52 .0 9 0 .36 0.1 3 1
L IN E 4 8 1 3 .2
-70.62 -9.64 0.186
B U S 2812. 90 .05 5
1 00 .00 3 5 .0 0 0 .27 0 - 3 2 .7 7 - 1 3 .1 1 0 .0 90 0.9 8 1 48 .41
B U S 272 6 . 4 5
T98 56.9
L IN E 7 8 9 .0
L IN E 6 7 1 8 .0
- 6 7 .2 3 - 2 1 .8 9 0 .1 80
-1 4 0.0 0 -2 7 .27 0.3 56
67 .65 16 .63 0.1 74
L IN E 3 6 1 8 .6
B U S 263 0 . 9 9
1.0 0 1 5 1 . 1732 . 3 5 10 .6 4 0.1 8 3
1 4 0.0 0 39 .88 4.5 55
1 4 0.0 0 39 .88 4.5 55
1.0 2 6.0 1
B U S 158 . 4 5
G 5
7 5 .8 ~ SG
T56 71.0
LO A D 7
. را ﻣﻄﺎﺑﻖ ﺷﮑﻞ زﯾﺮ ﻓﺮاﺧﻮاﻧﯽ ﻣﯿﻨﻤﺎﯾﯿﻢAMIRSATTARI9410STEP1 اﺑﺘﺪا ﺷﺒﮑﻪ
54.85 38.20 0.167
224.07 0.97 145.15
BUS4
LOAD4
39.35 22.39 0.113
BUS2 230.88 T12 4 4 .6
1.00 147.02
-94.20 -60.59 0.280 94.20 67.76 3.904
BUS1 17.16 1.04 0.00
94.20 67.76 3.904
SG ~ G1 46.9
Load Flow Balanced Nodes Branches Line-Line Voltage, Magnitude Active Power [kV] [MW]
Project: Graphic: Grid
Voltage, Magnitude [p.u.] Reactive Power [Mvar]
Date: PowerFactory 15.1.7
Voltage, Angle [deg] Current, Magnitude [kA]
2/1/2016
Annex:
، ﺳﭙﺲ ﻣﻘﺪار ﻫﺎرﻣﻮﻧﯿﮏ ﻫﺎي ﭘﻨﺠﻢ. را ﺑﻪ ﯾﮏ ﺑﺎر ﺗﻮﻟﯿﺪ ﮐﻨﻨﺪه ﻫﺎرﻣﻮﻧﯿﮏ ﺗﺒﺪﯾﻞ ﻣﯽ ﮐﻨﯿﻢ4 ﺳﭙﺲ ﺑﺎر ﺷﻤﺎره DIgSILENT
Load7 132 0.148 -51.19
176 0.189 -56.00
122 0.144 -36.87
244 0.254 88.07
68.83 100.0 1.18
G ~
G9
3572 3 .7 7 4 8 5 .0 0 1 0 0 .0 1 .1 0
Bus4
L in e 2 4
L in e 2 3
350 0.350 125.00
3572 3 .7 7 4 8 5 .0 0
214 0 .2 2 6 -8 5 .0 0 1 0 0 .0 1 .1 3
B u s 8 5 3 .8 3 L in e 4 8
L in e 3 6
1 0 0 .0 1 .1 2
B u s 6 5 0 .3 9
186 0.198 -69.00
Bus3
73.33 100.0 1.20
B u s 93 8 .9 6
90 0 .1 1 4 - 3 1 .7 7
84 0 .1 3 3 3 2 .0 9
T98
131 0 .1 5 8 5 2 .9 1
356 0 .3 6 8 -1 4 0 . 0 0
1 0 0 .0 1 .1 6
Line78
B u s 76 2 .9 8
Line67
183 0 .2 0 3 7 1 .2 2
4555 4 .7 0 2 1 4 0 .0 0 1 0 0 .0 1 .0 7
B u s 53 0 .8 6
~ G
G5
4555 4 .7 0 2 1 4 0 .0 0
T56
180 0 .1 9 4 - 6 8 .2 3
174 0 .2 1 0 6 8 .7 8
270 0 .2 7 0 1 0 0 .0 0
. ﻫﻔﺪﻫﻢ و ﻧﻮزدﻫﻢ را ﺑﻪ درﺻﺪ وارد ﻣﯽ ﻧﻤﺎﯾﯿﻢ و ﭘﺨﺶ ﺑﺎر ﻫﺎرﻣﻮﻧﯿﮑﯽ ﻣﯿﮕﯿﺮﯾﻢ، ﺳﯿﺰدﻫﻢ، ﯾﺎزدﻫﻢ، ﻫﻔﺘﻢ
Load3
Load4 167 0.204 56.64
113 0.161 37.56
Bus2
49.36 100.0 1.12
T1 2
280 0.303 -94.20
3904 4.219 94.20
Bus1
26.41 100.0 1.08
Harmonic; U-I Distribution; Output Frequency=50.00 Hz Nodes Branches Total Harmonic Distortion Current, [%] Magnitude [A] Harmonic Distortion [%] Current, RMS-Value [kA] RMS-Value of VoltageTotal [p.u.]Active Power [MW]
3904 4.219 94.20
Laboratory Power System Analysis Project: 1 Load Flow G ~ G1
PowerFactory 15.1.7
Graphic: Grid My Master:Dr eidiani Undergraduate:Navid Aghli Date: 26/10/2010 Number of Undergraduate:38600185 Annex: Step 1
22
ﺳﭙﺲ اﻗﺪام ﺑﻪ ﻧﻤﺎﯾﺶ اﻃﻼﻋﺎت ﻫﺎرﻣﻮﻧﯿﮑﯽ ﺑﺎس ﻫﺎ ﻣﯽ ﮐﻨﯿﻢ ﺑﻪ اﯾﻦ ﺻﻮرت ﮐﻪ ﻫﻤﻪ ﺑﺎس ﻫﺎرا اﻧﺘﺨﺎب ﻣﯽ ﻧﻤﺎﯾﯿﻢ و ﺑﺮ روي ﯾﮑﯽ ﮐﻠﯿﮏ راﺳﺖ ﻣﯽ ﻧﻤﺎﯾﯿﻢ ﺑﺎ اﻧﺘﺨﺎب BAR DIAGRAM ، SHOWرا اﻧﺘﺨﺎب ﻣﯽ ﻧﻤﺎﯾﯿﻢ و ﮔﺰﯾﻨﻪ THDرا اﻧﺘﺨﺎب ﻣﯽ ﻧﻤﺎﯾﯿﻢ .ﺧﺮوﺟﯽ زﯾﺮ را ﺧﻮاﻫﯿﻢ داﺷﺖ . DIgSILENT
100.00
80.00
60.00
40.00
20.00
0.00 Bu s7
Bu s6
Bu s5
Bu s4
Bu s3
Bu s2
Bu s1
Bu s9
Bu s8
Total Harmonic Distortion in % Date: 26/10/2010 Annex: question /1
)Answer The Question number 4 of the (questions 1-3
Bar-Diagram
My Master:Dr eidiani
Undergraduate:Navid Aghli
ﻣﺸﺎﻫﺪه ﻣﯽ ﮐﻨﯿﻢ ﺑﺎس 3ﺑﯿﺸﺘﺮﯾﻦ ﻣﻘﺪار ﻫﺎرﻣﻮﻧﯿﮏ را داراﺳﺖ . ﻫﻤﭽﻨﯿﻦ ﻣﺸﺨﺼﻪ HDﺗﻤﺎم ﺗﺮﻣﯿﻨﺎل ﻫﺎ ﺑﺼﻮرت ﺷﮑﻞ ﺻﻔﺤﻪ ﺑﻌﺪ ﻣﯽ ﺑﺎﺷﺪ .
4-8رﺳﻢ ﻧﻤﻮدار ﭘﯿﻮﺳﺘﻪ اﻣﭙﺪاﻧﺲ ﻓﺮﮐﺎﻧﺴﯽ ﭘﺲ از اﻧﺠﺎم ﻣﺮاﺣﻞ ﻣﻮرد اﺷﺎره در دﺳﺘﻮراﻟﻌﻤﻞ ،ﺧﺮوﺟﯽ ﺻﻔﺤﻪ ﺑﻌﺪ را ﺧﻮاﻫﯿﻢ داﺷﺖ .
23
DIgSILENT
125.00
100.00
75.00
50.00
25.00
0.00 1.00 Bus8: Bus9: Bus1: Bus2: Bus3: Bus4: Bus5: Bus6: Bus7:
5.00 Harmonic Harmonic Harmonic Harmonic Harmonic Harmonic Harmonic Harmonic Harmonic
7.00
11.0
13.0
17.0
19.0
Distortion in % Distortion in % Distortion in % Distortion in % Distortion in % Distortion in % Distortion in % Distortion in % Distortion in %
Answer The Question number 4 of the (questions 1-3) My Master:Dr eidiani
Distortion Undergraduate:Navid Aghli
Date: 26/10/2010 Annex: question /2
رﺳﻢ ﻧﻤﻮدار ﭘﯿﻮﺳﺘﻪ اﻣﭙﺪاﻧﺲ ﻓﺮﮐﺎﻧﺴﯽ-8-4 ﺑﺮاي ﺗﻌﯿﯿﻦ ﻣﻬﻢ ﺗﺮﯾﻦ ﻫﺎرﻣﻮﻧﯿﮏ در ﯾﮏ ﺑﺎس ﺑﺎﯾﺪ اﻣﭙﺪاﻧﺲ ﺗﻮﻧﻦ دﯾﺪه ﺷﺪه از ﻫﺮ ﺑﺎس را در ازاي ﺗﻤﺎم ﻓﺮﮐﺎﻧﺲ DIgSILENT
. ﺗﺸﺪﯾﺪ اﺗﻔﺎق ﻣﯽ اﻓﺘﺪ، در ﻓﺮﮐﺎﻧﺴﯽ ﮐﻪ ﺑﯿﺸﺘﺮﯾﻦ ﻣﻘﺪار اﻣﭙﺪاﻧﺲ ﺑﻮﺟﻮد ﻣﯽ آﯾﺪ. ﻫﺎ رﺳﻢ ﻧﻤﻮد 8.00E+4
6.00E+4
4.00E+4
2.00E+4
0.00E+0
- 2 .00 E + 4 0.2000
4.1600
8.1200
12.080
16.040
[-]
20.000
Bus4: Network Impedance, Magnitude in Ohm
Answer The Question number 4 of the (questions 1-3) My Master:Dr eidiani
Project Undergraduate:Navid Aghli
24
Date: 26/10/2010 Annex: question /3
در ﺷﮑﻞ ﺑﺎﻻ در در ﻣﻘﺪار ﻣﺮﺗﺒﻪ ﻫﺎرﻣﻮﻧﯿﮑﯽ ، 6,272اﻣﭙﺪاﻧﺲ ﺗﻮﻧﻦ ﺑﻪ ﺣﺪاﮐﺜﺮ ﻣﻘﺪار ﺧﻮد ﻣﯽ رﺳﺪ .ﯾﻌﻨﯽ در اﯾﻦ ﻣﺮﺗﺒﻪ ﻫﺎرﻣﻮﻧﯿﮑﯽ ﺷﺒﮑﻪ ﺗﺸﺪﯾﺪ ﻣﯽ ﺷﻮد .ﺑﺮاي دﯾﺪن اﺛﺮ ﺗﺸﺪﯾﺪ در ﻫﻤﯿﻦ ﻣﺮﺗﺒﻪ ﻫﺎرﻣﻮﻧﯿﮑﯽ ،ﻣﻘﺪار ﺑﺴﯿﺎر ﮐﻤﯽ ﻫﺎرﻣﻮﻧﯿﮏ ﺗﻮﻟﯿﺪ ﻣﯽ ﮐﻨﯿﻢ .ﺑﺮاي اﯾﻦ ﻣﻨﻈﻮر ﺑﺮ روي ﺑﺎر 4دﺑﻞ ﮐﻠﯿﮏ ﻣﯽ ﮐﻨﯿﻢ و ﺷﺒﮑﻪ را ﻧﺎ ﻣﺘﻘﺎرن ﻣﯿﻨﻤﺎﯾﯿﻢ . ﺳﭙﺲ ﺑﺎ ﮔﺮﻓﺘﻦ ﭘﺨﺶ ﺑﺎر THDﺗﺮﻣﯿﻨﺎل ﻫﺎ را ﻣﺸﺎﻫﺪه ﻣﯽ ﻧﻤﺎﯾﯿﻢ . DIgSILENT
200.00
160.00
120.00
80.00
40.00
0.00 19.0
17.0
13.0
7.00
11.0
6.27
1.00
5.00 Distortion in % Distortion in % Distortion in % Distortion in % Distortion in % Distortion in % Distortion in % Distortion in % Distortion in %
Distortion Date: 26/10/2010 Annex: question /2
Harmonic Harmonic Harmonic Harmonic Harmonic Harmonic Harmonic Harmonic Harmonic
Bus8: Bus9: Bus1: Bus2: Bus3: Bus4: Bus5: Bus6: Bus7:
)Answer The Question number 4 of the (questions 1-3 My Master:Dr eidiani
Undergraduate:Navid Aghli
اﺛﺮ ﺗﺸﺪﯾﺪ در ﺷﮑﻞ ﺑﺎﻻ ﻗﺎﺑﻞ ﻣﺸﺎﻫﺪه ﻣﯽ ﺑﺎﺷﺪ .ﺣﺎل اﺛﺮ اﺿﺎﻓﻪ ﺷﺪن ﺧﺎزن را ﺑﺮ ﻓﺮﮐﺎﻧﺲ ﺗﺸﺪﯾﺪ ﺑﺮرﺳﯽ ﻣﯽ ﮐﻨﯿﻢ .ﺣﺎل ﻣﺎﻧﻨﺪ ﺑﺨﺶ ﻗﺒﻞ اﺳﮑﻦ اﻣﭙﺪاﻧﺲ ﻓﺮﮐﺎﻧﺴﯽ ﻣﯿﮕﯿﺮﯾﻢ ﮐﻪ ﺷﮑﻞ ﺻﻔﺤﻪ ي ﺑﻌﺪ ﻗﺎﺑﻞ ﻣﻼﺣﻈﻪ ﻣﯽ ﺑﺎﺷﺪ .
25
DIgSILENT
8.00E+4
6.00E+4
4.00E+4
2.00E+4
0.00E+0
-2.00E+4 0.2000
4.1600
8.1200
12.080
16.040
[-]
20.000
Bus4: Network Impedance, Magnitude in Ohm
Answer The Question number 4 of the (questions 1-3) My Master:Dr eidiani
Project Undergraduate:Navid Aghli
26
Date: 26/10/2010 Annex: question /3
ﺳﺎﺧﺖ ﺷﺒﮑﻪ ﺑﺮاي ﺟﺎﮔﺬاري ﺑﻬﯿﻨﻪ ﺧﺎزن-ﻓﺼﻞ ﻧﻬﻢ ﺳﭙﺲ ﺑﺮاي ﻣﻄﻤﺌﻦ ﺷﺪن از اﯾﻨﮑﻪ ﻓﯿﺪر ﺑﺮاي ﮐﻞ ﺷﺒﮑﻪ ﺗﻌﺮﯾﻒ. ﯾﮏ ﻓﯿﺪر ﺗﻌﺮﯾﻒ ﻣﯽ ﮐﻨﯿﻢ23 اﺑﺘﺪا ﺑﺮ روي ﺧﻂ
32.9 5.5 0.084
Load7 Line78 9.0
G ~
G9 66.9
85.0 10.1 3.572
B us9
229.5 1.00 150.3
13.8 1.02 3.1
52.1 0.4 0.131
B us8 125.0 50.0 0.350
-51.0 -3.4 0.132
-54.4 -40.4 0.176
-39.0 -26.6 0.122
Load3
224.1 0.97 145.2
Bus4
Load4 54.9 38.2 0.167
39.4 22.4 0.113
230.9 1.00 147.0
-94.2 -60.6 0.280
T12 44.6
Bus2
90.0 30.0 0.244
Line24 12.2
221.8 0.96 144.5
-70.6 -9.6 0.186
Line23 17.6
Bus3
Line48 13.2
Line36 18.6
B us6
B us5
231.0 1.00 151.1
18.4 1.02 6.0
72.3 10.6 0.183
85.0 10.1 3.572
-85.0 -5.9 0.214
226.4 0.98 148.4
T98 56.9
B us7
-140.0 -27.3 0.356
140.0 39.9 4.555
140.0 39.9 4.555
~ G
G5 75.8
T56 71.0
-32.8 -13.1 0.090
67.7 16.6 0.174
Line67 18.0
-67.2 -21.9 0.180
100.0 35.0 0.270
DIgSILENT
. ﮔﺮدﯾﺪه اﺳﺖ ﺧﺮوﺟﯽ زﯾﺮ را ﻣﯽ ﮔﯿﺮﯾﻢ
94.2 67.8 3.904
Bus1 Load Flow Balanced Nodes
94.2 67.8 3.904
Branches
Line-Line Voltage, Magnitude Active [kV] Power [MW] Voltage, Magnitude [p.u.] Voltage, Angle [deg]
17.2 1.04 0.0
Reactive Power [Mvar] Current, Magnitude [kA]
Laboratory Power System Analysis 1 G ~ G1 46.9
PowerFactory 15.1.7
Project: Load Flow
Graphic: Grid My Master:Dr eidiani Undergraduate:Amir Hossein Sattarii Date: 2/2/2016 Number of Undergraduate:9424044189 Annex:
ﺳﭙﺲ ﺑﺎرﻫﺎ را اﻓﺰاﯾﺶ ﻣﯽ. از آﻧﺠﺎ ﮐﻪ ﮐﻞ ﺷﮑﻞ رﻧﮕﯽ ﺷﺪه اﺳﺖ ﻟﺬا ﻓﯿﺪر ﺑﺮاي ﮐﻞ ﻣﺠﻤﻮﻋﻪ ﺗﻌﺮﯾﻒ ﺷﺪه اﺳﺖ دﭼﺎر اﺿﺎﻓﻪ ﺑﺎر ﮔﺮدﯾﺪه12 و ﺗﺮاﻧﺴﻔﻮرﻣﺎﺗﻮر1 و5 ﻣﺸﺎﻫﺪه ﻣﯽ ﮔﺮدد ژﻧﺮاﺗﻮر. دﻫﯿﻢ ﺗﺎ ﺷﺒﮑﻪ دﭼﺎر اﺿﺎﻓﻪ ﺑﺎر ﮔﺮدد . ﺷﮑﻞ ﺻﻔﺤﻪ ي ﺑﻌﺪ ﮔﻮﯾﺎ ﺧﻮاﻫﺪ ﺑﻮد. دﭼﺎر اﻓﺖ وﻟﺘﺎژ ﺷﺪه اﻧﺪ3 و4 ،7 ﻫﻤﭽﻨﯿﻦ ﺑﺎس ﻫﺎي. اﻧﺪ
27
DIgSILENT 68.9 23.3 0.186
G ~
G9 74.1
Bus9
225.2 0.98 137.6
13.8 1.02 -9.5
16.1 13.6 0.054
Bus8 150.0 60.0 0.432
-15.9 -19.9 0.068
-123.5 -35.7 0.344
-110.1 -22.1 0.299
Load3
216.9 0.94 136.3
Bus4
Load4 125.4 45.6 0.339
112.5 29.1 0.295
227.0 0.99 142.3
-237.9 -74.7 0.634
T12 101.0
Bus2
126.0 42.0 0.354
Line24 29.9
215.8 0.94 136.0
-26.5 -24.3 0.096
Line23 34.4
Bus3
Line48 6.8
Line36 9.6
Bus6
Bus5
226.3 0.98 138.3
18.4 1.02 -6.8
26.9 19.1 0.084
85.0 42.2 3.959
-85.0 -36.9 0.238
217.3 0.94 133.5
T98 63.1 85.0 42.2 3.959
180.0 63.0 0.507
Load7 Line78 19.4
Bus7
-140.0 -58.9 0.388
140.0 73.8 4.952
140.0 73.8 4.952
~ G
G5 82.4
-68.2 -25.8 0.194
-111.8 -37.2 0.313
113.1 39.8 0.306
Line67 31.3
T56 77.2
237.9 111. 4 8.837
Bus1 Load Flow Balanced Nodes
237.9 111. 4 8.837
Branches
Line-Line Voltage, Magnitude [kV] Active Power [MW] Voltage, Magnitude [p.u.] Voltage, Angle [deg]
17.2 1.04 0.0
Reactive Power [Mvar] Current, Magnitude [kA]
Laboratory Power System Analysis 1 G ~ G1 106..
PowerFactory 15.1.7
My Master:Dr eidiani Undergraduate:Amir Hossein Sattarii Number of Undergraduate:9424044189
Project: Load Flow Graphic: Grid Date:
2/2/2016
Annex:
. ﻣﮕﺎ وات ﻣﯽ ﺑﺎﺷﺪ6,86 ﻣﻘﺪار ﺗﻠﻔﺎت ﻣﻄﺎﺑﻖ ﺷﮑﻞ زﯾﺮ
ﻋﻤﻠﯿﺎت ﺧﺎزن ﮔﺬاري را اﻧﺠﺎم ﻣﯽ دﻫﯿﻢ ﮐﻪ ﻣﺸﺎﻫﺪه ﻣﯽ ﺷﻮد ﺷﺒﮑﻪ ﭘﺲ از. ﺷﺒﮑﻪ ﺑﺮاي ﺧﺎزن ﮔﺬاري آﻣﺎده اﺳﺖ . ﻧﺼﺐ ﺧﺎزن ﺑﻬﺒﻮد ﯾﺎﻓﺘﻪ اﺳﺖ ﮐﻪ ﺷﮑﻞ ﮔﺮاﻓﯿﮑﯽ ﺻﻔﺤﻪ ﺑﻌﺪ ﮔﻮﯾﺎ ﺧﻮاﻫﺪ ﺑﻮد
28
DIgSILENT
Load7
1 8 0 .0 63.0 0 .4 8 8
6 8 .3 1 4 .3 0 .1 7 4
- 6 7 .7 - 1 8 .1 0 .1 7 9
G ~
G9
1.02 -8.0
B u s 91 3 . 8
1 .0 1 1 3 9 .2
B u s 82 3 1 . 4 L in e 4 8
-123.9 27.3 0.303
-109.5 0.5 0.269
L in e 2 4
150.0 60.0 0.386
8 5 .0 - 3 .7 3 .5 5 0
- 8 5 .0 7.9 0 .2 1 3 16.7 - 1 7 .2 0 .0 6 0
L in e 3 6
-16.5 9.8 0.047
L in e 2 3
1 .0 2 1 3 9 .8
-26.1 23.0 0.083
125.4 -21.6 0.307
111.4 3.3 0.269
Bus3241.5 1.05 137.1
8 5 .0 - 3 .7 3 .5 5 0
- 1 12 .3 - 3 5 .3 0 .3 0 1
0 .9 8 135.3
-140.0 - 7 .1 0 .3 4 6
T98
B u s 62 3 3 . 9
1.02 -5.4
B u s 51 8 . 4
26.5 - 2 9 .4 0 .0 9 8
1 4 0 .0 1 9 .0 4 .4 2 1
~ G
G5
1 4 0 .0 1 9 .0 4 .4 2 1
Line78
B u s 72 2 5 . 7
1 13 . 5 3 6 .5 0 .2 9 4
Line67
T56
235.1 1.02 137.3
126.0 42.0 0.326
Load3
Bus4
Load4
Bus2239.6 1.04 142.8
T12
-236.8 18.3 0.572
236.8 11.6 7.977
Bus1
17.2 1.04 0.0
Optimal Capacitor Placement
236.8 11.6 7.977
Laboratory Power System Analysis Project: 1 Load Flow Graphic: Grid My Master:Dr eidiani Undergraduate:Amir Hossein Sattarii Date: 2/2/2016 PowerFactory 15.1.7 Number of Undergraduate:9424044189 Annex:
G ~ G1
ﮐﺎﻫﺶ ﺗﻠﻔﺎت ﺑﻪ دﻟﯿﻞ ﺣﻀﻮر ﺧﺎزن. ﺑﺎ اﺳﺘﻔﺎده از ﺧﻼﺻﻪ اﻃﻼﻋﺎت ﻣﻘﺪار ﺗﻠﻔﺎت را ﻣﺠﺪدا ﻣﺤﺎﺳﺒﻪ ﻣﯽ ﻧﻤﺎﯾﯿﻢ . ﻣﮕﺎوات ﮐﺎﻫﺶ ﻣﯽ ﯾﺎﺑﺪ5,81 واﺿﺢ اﺳﺖ ﺑﺼﻮرﺗﯿﮑﻪ ﮐﻞ ﺗﻠﻔﺎت ﺑﻪ ﻣﻘﺪار ﻣﺤﻞ ﻫﺎي ﻗﺮار ﮔﺮﻓﺘﻦ ﺧﺎزن ﻫﺎرا آﺷﮑﺎرﺳﺎزي ﻣﯿﻨﻤﺎﯾﯿﻢ ﮐﻪ، ﺳﭙﺲ ﺑﺎ اﺳﺘﻔﺎده از راﻫﻨﻤﺎﯾﯽ ﻫﺎي دﺳﺘﻮراﻟﻌﻤﻞ DIgSILENT 6 8 .3 1 4 .3 0 .1 7 4
Load7 -16.5 9.8 0.047
G ~
G 9
8 5 .0 - 3 .7 3 .5 5 0 1 .0 2 -8 .0
8 5 .0 - 3 .7 3 .5 5 0
0.0 -52.3 0.128
126.0 42.0 0.326
235.1 Bus4 1.02 137.3
L in e 2 4
L in e 2 3
-109.5 0.5 0.269
B u s 91 3 . 8
1 .0 1 - 0 .10 3 9 . 2 - 5 .1 0 .0 1 3
-26.1 23.0 0.083
Shunt/Filter 3
Bus3
241.5 1.05 137.1 150.0 -0.0 -123.9 60.0 -110.2 27.3 0.386 0.264 0.303
S h u n t / F ilte r 1
- 8 5 .0 7 .9 0 .2 1 3
T98
B u s 82 3 1 . 4 L in e 4 8
L in e 3 6
1 .0 2 1 3 9 .8
S h u n t/ F ilte r 2
Line78
B u s 62 3 3 . 9
1 .0 2 -5 .4
B u s 51 8 . 4
2 6 .5 - 2 9 .4 0 .0 9 8
-1 4 0 .0 - 7 .1 0 .3 4 6
1 4 0 .0 1 9 .0 4 .4 2 1
1 4 0 .0 1 9 .0 4 .4 2 1
~ G
G 5
T56
1 6 .7 - 1 7 .2 0 .0 6 0
0 .9 8 0 . 01 3 5 . 3 - 9 .6 0 .0 2 5
B u s 72 2 5 . 7
Line67
- 6 7 .7 - 1 8 .1 0 .1 7 9
- 11 2 .3 - 3 5 .3 0 .3 0 1
11 3 .5 3 6 .5 0 .2 9 4
1 8 0 .0 6 3 .0 0 .4 8 8
.ﻣﻄﺎﺑﻖ ﺷﮑﻞ زﯾﺮ ﺧﻮاﻫﺪ ﺑﻮد
Load3 Shunt/Filter 4
Load4
125.4 -21.6 0.307
111.4 3.3 0.269
Bus2
239.6 1.04 142.8
T12
-236.8 18.3 0.572
236.8 11.6 7.977
Bus1
17.2 1.04 0.0
Optimal Capacitor Placement
236.8 11.6 7.977
Laboratory Power System Analysis Project:1 Load Flow G ~ G1
Graphic: Grid My Master:Dr eidiani Undergraduate:Amir Hossein Date: Sattarii 2/2/2016 PowerFactory 15.1.7 Number of Undergraduate:9424044189 Annex:
29
ﻓﺼﻞ ﯾﺎزدﻫﻢ– ﭘﺨﺶ ﺑﺎر ﺑﻬﯿﻨﻪ ﺷﺒﮑﻪ را ﺑﺎرﮔﺰاري ﻣﯿﮑﻨﯿﻢ و ﭘﺨﺶ ﺑﺎر ﻣﻌﻤﻮﻟﯽ ﻣﯿﮕﯿﺮﯾﻢ .ﺷﮑﻞ زﯾﺮ را ﺧﻮاﻫﯿﻢ داﺷﺖ . DIgSILENT G Slack
~ G
69.412.. -20.43.. 72.358 %
Load G2
G ~
70.000.. 40.000.. 11.000.. 61.882.. 62.852 %
-59.000 MW 21.882 Mvar 33.028 %
)Terminal(2
18.50 kW 4.97 %
110.0000 1.0000 -4.5944
59.655 MW -19.919 Mvar 33.028 %
654.52 kW 33.03 %
1081.74 kW 37.98 %
69.412 MW -20.435 Mvar 37.978 %
110.0000 1.0000 0.0000
Terminal
-8.658 MW 3.817 Mvar 4.966 %
30.333.. 33.038.. 64.072 %
-1.675.. -52.11.. 68.430 %
Load Trf
5
-30.30.. -30.91.. 64.072 %
30.306.. 30.919.. 22.599 %
G ~ G1
2.050 .. 54.705.. 68.430 %
110.6096 1.0055 -4.9330
)Terminal(4 2.050 .. 54.705.. 54.744 %
20.0000 1.0000 -3.3670
)Terminal(3
306.43 kW 22.60 %
G ~ )G2(1
-30.00.. -30.00.. 22.599 %
30.000.. 30.000..
2-Winding..
-4
20.000 MW -15.256 Mvar 25.154 %
110.0000 1.0000 -3.0624
)Terminal(1
108.3899 0.9854 -5.5065
)Terminal(5
Load Flow Balanced
General Load
Project: Graphic: Grid 2/3/2016
Date: Annex:
My Master : Dr.Eidiani undergraduate : Amir Hossein Sattari no of undergraduate: 9424044189
PowerFactory 15.1.7
Branches ]Active Power [MW
Nodes ]Line-Line Voltage, Magnitude [kV
]Reactive Power [Mvar ]Loading [%
]Voltage, Magnitude [p.u. ]Voltage, Angle [deg
ﺑﺎ ﮐﻠﯿﮏ ﮐﺮدن ﺑﺮ روي اﯾﮑﻮن Output Calculation Analysisﻣﻘﺪار ﺗﻠﻔﺎت 2,46ﻣﮕﺎوات ﻣﯽ ﺑﺎﺷﺪ . در اداﻣﻪ ﻣﺤﺪودﻫﺦ ﻣﺠﺎز وﻟﺘﺎژ را ﺑﺮاي ﺗﺮﻣﯿﻨﺎل ﻫﺎ ﻣﻌﯿﻦ ﻣﯽ ﻧﻤﺎﯾﯿﻢ .ﺑﺮاي ﺧﻂ ﻫﺎ ﻧﯿﺰ ﻣﺤﺪوده ﻣﺠﺎز ﺑﺎرﮔﺬاري را ﺗﻌﺮﯾﻒ ﻣﯽ ﮐﻨﯿﻢ .ﻣﺤﺪوده ﺑﺎرﮔﺬاري ﻣﺠﺎز ﺗﺮاﻧﺲ را ﻧﯿﺰ ﺗﻌﯿﯿﻦ ﻣﯽ ﻧﻤﺎﯾﯿﻢ .ﺳﭙﺲ ﺗﺎﺑﻊ ﻫﺰﯾﻨﻪ و ﻣﺤﺪودﯾﺖ ﻫﺎي واﺣﺪ ﺗﻮﻟﯿﺪي را ﻣﺸﺨﺺ ﻣﯽ ﮐﻨﯿﻢ .ﭘﺨﺶ ﺑﺎر ﻣﯿﮕﯿﺮﯾﻢ و ﻣﺸﺎﻫﺪه ﻣﯽ ﮐﻨﯿﻢ ﻫﺰﯾﻨﻪ ﮐﻞ ﺗﻮﻟﯿﺪ 53,649دﻻر ﺑﺮ ﺳﺎﻋﺖ ﻣﯽ ﺑﺎﺷﺪ .ﺳﭙﺲ ﺑﻪ ﻗﺴﻤﺖ ﭘﺨﺶ ﺑﺎر ﺑﻬﯿﻨﻪ ﻣﯽ روﯾﻢ و ﻫﺰﯾﻨﻪ ﺗﻮﻟﯿﺪ ،ﻣﻘﺪار ﺗﻮﻟﯿﺪ و ﺗﻠﻔﺎت را ﻣﻘﺎﯾﺴﻪ ﻣﯽ ﮐﻨﯿﻢ .ﺳﭙﺲ ﻫﺰﯾﻨﻪ ﮐﻞ ﺗﻮﻟﯿﺪ را ﻣﺠﺪدا ﻣﺤﺎﺳﺒﻪ ﻣﯽ ﮐﻨﯿﻢ و ﻣﺸﺨﺺ ﻣﯽ ﺷﻮد 34,8288دﻻر ﺑﺮ ﺳﺎﻋﺖ ﻣﯽ ﺑﺎﺷﺪ .ﺳﭙﺲ ﻣﺠﺪدا ﭘﺨﺶ ﺑﺎر ﻣﯽ ﮔﯿﺮﯾﻢ و ﻣﺸﺨﺺ ﻣﯽ ﺷﻮد ﺗﻠﻔﺎت 2,38ﻣﮕﺎوات ﻣﯽ ﺑﺎﺷﺪ .
30
: ﭘﺎﺳﺦ ﺳﻮاﻻت دﻻر ﺑﺮ ﺳﺎﻋﺖ ﮐﺎﻫﺶ ﯾﺎﻓﺘﻪ اﺳﺖ18,8202 ﻣﺸﺎﻫﺪه ﻣﯽ ﺷﻮد ﮐﻪ ﭘﺲ از ﭘﺨﺶ ﺑﺎر ﺑﻬﯿﻨﻪ ﻫﺰﯾﻨﻪ ﺗﻮﻟﯿﺪ ﺑﻪ ﻣﻘﺪار-1 ﻫﻤﺎﻧﻄﻮر ﮐﻪ در ﺷﮑﻞ زﯾﺮ ﻗﺎﺑﻞ ﻣﺸﺎﻫﺪه ﻣﯽ ﺑﺎﺷﺪ. ﻣﮕﺎوات ﮐﺎﻫﺶ ﯾﺎﻓﺘﻪ اﺳﺖ0,08 ﻫﻤﭽﻨﯿﻦ ﺗﻠﻔﺎت ﺑﻪ ﻣﻘﺪار.
DIgSILENT
. ﺷﺒﮑﻪ دﭼﺎر اﻓﺰاﯾﺶ ﯾﺎ ﮐﺎﻫﺶ وﻟﺘﺎژ و اﺿﺎﻓﻪ ﺑﺎر ﻧﺸﺪه اﺳﺖ
G Slack
~ G
Load G2
Terminal(2)
18.50 kW 4.97 %
110.0000 1.0000 -4.5944
G ~
70.000.. 40.000..
654.52 kW 33.03 %
11.000.. 61.882.. 62.852 %
69.412 MW -20.435 Mvar 37.978 %
-59.000 MW 21.882 Mvar 33.028 %
110.0000 1.0000 0.0000
59.655 MW -19.919 Mvar 33.028 %
Terminal
1081.74 kW 37.98 %
69.412.. -20.43.. 72.358 %
-8.658 MW 3.817 Mvar 4.966 %
20.000 MW -15.256 Mvar 25.154 %
-1.675.. -52.11.. 68.430 %
G ~ G1
30.333.. 33.038.. 64.072 %
Load Trf
110.0000 1.0000 -3.0624
2-Winding..
Terminal(1)
5
2.050 .. 54.705.. 68.430 %
20.0000 1.0000 -3.3670
-30.30.. -30.91.. 64.072 %
Terminal(4) 2.050 .. 54.705.. 54.744 %
110.6096 1.0055 -4.9330
G ~ G2(1)
-30.00.. -30.00.. 22.599 %
Terminal(5)
Load Flow Balanced
30.306.. 30.919.. 22.599 %
306.43 kW 22.60 %
Terminal(3)
-4
108.3899 0.9854 -5.5065
30.000.. 30.000..
General Load
Nodes Line-Line Voltage, Magnitude [kV]
Branches Active Power [MW]
Voltage, Magnitude [p.u.] Voltage, Angle [deg]
Reactive Power [Mvar] Loading [%]
My master : Dr.Eidiani Undergraduate : Amir Hossein Sattari no of undergraduate : 9424044189 PowerFactory 15.1.7
Project: Graphic: Grid Date:
2/3/2016
Annex:
ﻣﺸﺎﻫﺪه ﻣﯽ ﮐﻨﯿﻢ ﻫﺰﯾﻨﻪ ﮐﻞ اﻓﺰاﯾﺶ. ﻣﺠﺪدا ﭘﺨﺶ ﺑﺎر ﺑﻬﯿﻨﻪ ﻣﯽ ﮔﯿﺮﯾﻢ و ﺣﺪاﻗﻞ ﺗﻠﻔﺎت را اﻧﺘﺨﺎب ﻣﯽ ﮐﻨﯿﻢ-2 ﻣﮕﺎوات رﺳﯿﺪه اﺳﺖ0,33 ﻫﻤﭽﻨﯿﻦ ﺗﻠﻔﺎت ﺑﻪ ﻣﻘﺪار. دﻻر ﺑﺮ ﺳﺎﻋﺖ ﮔﺮدﯾﺪه اﺳﺖ93,040375 ﯾﺎﻓﺘﻪ و ﻣﻌﺎدل . ﻣﮕﺎوات ﮐﺎﻫﺶ ﯾﺎﻓﺘﻪ اﺳﺖ2,05 ﮐﻪ ﻧﺴﺒﺖ ﺑﻪ ﺣﺎﻟﺖ ﻗﺒﻞ
31
References:
[1] Mostafa Eidiani, Mohammad Hassan Modir Shanechi, "CTS COMPLEX TRANSIENT STABILITY THE NEW METHOD FOR DIRECT ANALYSIS OF TRANSIENT STABILITY", 12th Interna onal Power System Conference, PSC, 4-6 Nov. pp. 13-18, 1997 [2] Mostafa Eidiani, Mohammad Hassan Modir Shanechi, " POMP, point of maximum poten al energy, the new method for direct analysis of transient stability", 6th Iranian Conference on Electrical Engineering, Vol.5, pp. 23-27, May 1998 [3] Mostafa Eidiani, Mohammad Hassan Modir Shanechi, "Power system voltage stability assessment using energy method", 13th Interna onal Power System Conference (PSC. 98), pp. 772-777, Nov. 1998. [4] Mostafa Eidiani, Mohammad Hassan Modir Shanechi, Ebrahim Vaahedi, " Rapid and accurate method to determine the ATC with regard to voltage stability", Bargh Journal (Journal of NRI), pp. 56-68, No. 35, 2002. [5] Mostafa Eidiani, Mohammad Hassan Modir Shanechi, Ebrahim Vaahedi, "FCTTC determina on with regard to voltage stability and transient stability energy method", Icee_2002, 10th Iranian Conference on Electrical Engineering, At Tabriz, Iran, pp: 86-94, DOI: 10.13140/2.1.4770.1288. [6] Mostafa Eidiani, Mohammad Hassan Modir Shanechi, Ebrahim Vaahedi, "A quick method for calculation ATC with considering transient stability and voltage stability", 18th Interna onal Power System Conference, PSC, 4-6 Nov. 2004, DOI: 10.13140/2.1.1624.4000 [7] Mostafa Eidiani, Mohammad Hassan Modir Shanechi, Ebrahim Vaahedi, "ASSESSMENT OF ATC USING SIMULTANEOUS VOLTAGE AND TRANSIENT STABILITY", Journal of Advanced Materials in Engineering Esteghlal 2(23):11-24 · March 2005. [8] Mostafa Eidiani, Mohammad Hassan Modir Shanechi, "FAD-ATC: a new method for computing dynamic ATC", International Journal of Electrical Power & Energy Systems 28(2):109-118 · February 2006, DOI: 10.1016/j.ijepes.2005.11.004 [9] Mostafa Eidiani, Mohammad Hassan Modir Shanechi, Ebrahim Vaahedi, "Fast and Accurate Method for compu ng FCTTC", , PowerCon 2002, Power System Technology, Proceedings. PowerCon 2002. Interna onal Conference on, Volume: 2, Vol. 2, pp. 1213-1219, Oct. 13-17, Kunming, China, 2002. , DOI: 10.1109/ICPST.2002.1047595 [10] Mostafa Eidiani, "Atc evaluation by CTSA and POMP, two new methods for direct analysis of transient stability", Transmission and Distribu on Conference and Exhibi on 2002: Asia Pacific. IEEE/PES, Volume: 3, pp. 1524-1529, DOI: 10.1109/TDC.2002.1176824 [11] Mostafa Eidiani, Mohammad Hassan Modir Shanechi, Kazem Ameli, Saeid Ahmadi, "Voltage Stability Assessment with Expanded NRS", 14th Iranian Conference on Electrical Engineering, ICEE2006.
[12] Mostafa Eidiani, Hashem Mortazavi, "Assessment of Voltage Stability and Sta c ATC with NewtonRaphson-Seydel and General Minimal Residual", PSC 2008, 23 rd Interna onal Power System Conference, DOI: 10.13140/RG.2.1.2934.2160 [13] Mostafa Eidiani, "The Op mal Loca ng of Power Controller in Transmission Line With Considera on of Optimal Power Flow", Journal of Electrical Engineering · January 2009 [14] Hossein Zeynal, Alimorad Khajeh Zadeh, Khalid Mohamed Nor, Mostafa Eidiani, "Loca onal Marginal Price (LMP) Assessment Using Hybrid Active and Reactive Cost Minimization", International Review of Electrical Engineering 5(5):2413-2418 · September 2010 [15] Mostafa Eidiani, Dariush Yazdanpanah, "Minimum distance, a quick and simple method of determining the sta c ATC", Journal of Electrical Engineering 11(2):16 · October 2011 [16] Mohammad Ebrahimean Baydokhty, Mostafa Eidiani, Mahdi Ghamati, Mohsen Ebrahimean , "Transient Stability Improvement via Combined Method", Journal of Electrical Engineering 5(No. 4) · January 2011 [17] Mostafa Eidiani, " A New Method for Assessment of Voltage Stability in Transmission and Distribu on Networks ", Interna onal Review of Electrical Engineering 5(1) · January 2011 [18] Mostafa Eidiani, Mohammad Ebrahimean Baydokhty, Mahdi Ghama , Hossein Zeynal, " Transient Stability Improvement Using an Efficient Generator Tripping Scheme ", Canadian Journal of Electrical and Computer Engineering 2(No. 7):313-319 · January 2011 [19] Mostafa Eidiani, Natan Asghari, Hossein Zeynal, " Dynamic Response Improvement of DFIG Driven by Wind Turbines Using a Novel Algorithm ", International Review of Electrical Engineering 4(No.5):700706 · January 2011 [20] Mohammad Ebrahimean Baydokhty, Mostafa Eidiani, Hossein Zeynal, Hossein Torkamani, Hashem Mortazavi, "Efficient Generator Tripping Approach with Minimum Generation Curtailment based on Fuzzy System Rotor Angle Predic on", Przeglad Elektrotechniczny 88(9a):266-271 · January 2012, [21] Mostafa Eidiani, Kazem Ameli, Dariush Yazdanpanah, "EVALUATING THE IMPACTS OF LARGE WIND FARMS◌َ APPROVED ON KHORASAN NETWORK STABILITY AND RELIABILITY", 28th Interna onal Power System Conference, PSC, 4-6 Nov. 2013, DOI: 10.13140/2.1.4082.0003 [22] Mostafa Eidiani, Dariush Yazdanpanah, Mehdi Oloomi, "Available transfer capability determina on in Khorasan network considering all the static and dynamic constraints", DOI: 10.13140/2.1.4606.2883, 28th Interna onal Power System Conference, PSC, 4-6 Nov. 2013. [23] Mostafa Eidiani, Hosein Zeynal, "New approach using structure-based modeling for simulation of real power/frequency dynamics in deregulated power systems", Turkish Journal of Electrical Engineering and Computer Sciences · February 2013, DOI: 10.3906/elk-1208-90
[24] Mostafa Eidiani, Ahmad Bani Hashemi, "The use of variable frequency transformers in electric power transmission networks", ICEE 2009. [25]Mostafa Eidiani, Dariush Yazdanpanah, Seyyed Mohsen Sadr, " ATC calculation in Khorasan network with 575 MW wind farm in Khaf", PSC 2015, Interna onal Power System Conference, 23-25 Nov, Tehran, Iran, DOI: 10.13140/RG.2.1.3638.7280 [26] Mostafa Eidiani, "agenda of the Laboratory of DIgSILENT 14.1.3 (Persian/Farsi)", Technical report, DOI: 10.13140/2.1.3129.5368, [27] Mostafa Eidiani, "Book-Power System Analysis- Dr Eidiani 1393", Book, DOI: 10.13140/2.1.4966.7366 [28] Mostafa Eidiani, "Power System Analysis II (Dr. Eidiani)", Book, DOI: 10.13140/2.1.3557.7127, [29] Mostafa Eidiani, "Build a wind farm in DIgSILENT (persian-farsi)", research, DOI: 10.13140/RG.2.1.3460.6242, [30] Hossein Zeynal, Shiva Mansorzade, Hurieh Talebi, Majid Saeedi, Mostafa Eidiani, "The amount and type of substa on automa on systems", DOI: 10.13140/RG.2.1.4878.9849, [31] Mohammad Ali Jafari Tazeh Jani, Mostafa Eidiani, "Best ways to reduce consumption (persian Farsi)", DOI: 10.13140/RG.2.1.2822.6007, January 2011, [32] Mostafa Eidiani, Saeed Rezaee, Ali Sarkardeh, "Analyzes the asymmetric network by DIgSILENT Persian farsi", DOI: 10.13140/RG.2.1.4995.5285, January 2010, [33] Ehsan Khani, Mostafa Eidiani, "Reactive control-By Digsilent Persian Farsi", DOI: 10.13140/RG.2.1.4002.2487, January 2009, [34] Mostafa Eidiani, Ahmad Bani Hashemi, Mohammad Sadegh Alizadeh, Reza Jalaeidan, "Dynamic Stability Analysis by DIgSILENT Persian Farsi ", DOI: 10.13140/RG.2.1.4387.4641, January 2009, [35] Reza Saljoghi, Mostafa Eidiani, " Optimal Capacitor Placement by DIgSILENT Persian Farsi", DOI: 10.13140/RG.2.1.4526.5366, January 2008, [36] Reza Sokhandan, Mostafa Eidiani, "Modeling and Evaluation of Protective Relays by DIgSILENT persian farsi", DOI: 10.13140/RG.2.1.4954.7602, January 2015, [37] Mahboobeh Ghasemi, Mostafa Eidiani, "What's going On ResearchGATE", DOI: 10.13140/2.1.3351.7125, [38] Mostafa Eidiani, " What's Researchgate (Persian Farsi)" , DOI: 10.13140/RG.2.1.1220.8086, 2015-1109, [39] Mostafa Eidiani, " Persian-Farsi-khorasan Institute of Higher Education-2015-1394", DOI: 10.13140/RG.2.1.4438.1601, 2015-05-10,
[40] Mostafa Eidiani, " Persian-Why choose Khorasan Institute of Higher Education for your Postgraduate Study", DOI: 10.13140/RG.2.1.3044.2400, 2015-05-14, [41] Mostafa Eidiani, "Presenta ons-Tips-Farsi-1", DOI: 10.13140/2.1.3295.5689, January 2015, [42] Mostafa Eidiani, "Seminar-Virayesh-Farsi-2", DOI: 10.13140/2.1.1460.5605, January 2014, [43] Mostafa Eidiani, "3-Seminar-GooGle-1", DOI: 10.13140/2.1.2509.1361, January 2014, [44] Mostafa Eidiani, "1-Seminar-Virayesh-Farsi Persian", DOI: 10.13140/RG.2.1.1077.8969, January 2014, [45] Hosin Hosinpoor, Mostafa Eidiani, "reac ve power compensa on power system-persian-farsi", DOI: 10.13140/RG.2.1.4479.6241, January 2015, [46] Saeed Noori, Mostafa Eidiani, "Unit Commitment.persian farsi", DOI: 10.13140/RG.2.1.3693.1924, January 2015, [47] Hamid Eslahi, Mostafa Eidiani, "Automa on feeders effect in increasing the reliability of the distribu on network Persian Farsi", DOI: 10.13140/RG.2.1.4872.8404, January 2015, [48] Hamid Esmaeily, Mostafa Eidiani, "Assessing the applica on of facts equipments Persian Farsi", DOI: 10.13140/RG.2.1.2513.5443, January 2015, [49] Hassan Fakhrtaha, Mostafa Eidiani, "Harmonic analysis in power system- Persian-Farsi", DOI: 10.13140/RG.2.1.4266.6328, January 2015, [50] Saeed Dashtban, Mostafa Eidiani," Emissions in the restructured power systems -Persian-Farsi", DOI: 10.13140/RG.2.1.1713.8007, TECHNICAL REPORT · JANUARY 2015, [51] Toktam Jamshidpanah , Mostafa Ediani, " Image Processing and its Applica ons Persian Farsi-web", DOI: 10.13140/RG.2.1.3208.8402 , TECHNICAL REPORT · JANUARY 2015, [52] Mohammad Nikkhou , Mostafa Eidiani, " Mohammad Nikkhou - Microgrid Reliability -Persian-Farsi", DOI: 10.13140/RG.2.1.2602.6326 , TECHNICAL REPORT · JANUARY 2015, [53] Reza Sokhandan, Mostafa Eidiani, "Modeling and Evalua on of Protec ve Relays by DIgSILENT persian farsi", TECHNICAL REPORT · JANUARY 2015, DOI: 10.13140/RG.2.1.4954.7602 , [54] Mohammad Reza Norouzi, Mostafa Eidiani, "The bidding problem for hydropower producers", Technical Report · January 2015, DOI: 10.13140/RG.2.1.3960.4564, [55] Habib Khani, Mostafa Eidiani, "Habib Khani-A Review On Automation of High Voltage SubstationsPersian Farsi", Technical Report · January 2015, DOI: 10.13140/RG.2.1.1961.6086, [56] Morteza Seddighighachkanloo, Mostafa Eidiani, "Evalua on of reliability in the presence of small wind power plants in a microgrid-persian farsi", Technical Report · January 2015, DOI: 10.13140/RG.2.1.2719.3681,
[57] Armin Arasteh, Mostafa Eidiani, " Armin Arasteh-Identification with iris eye -Persian-Farsi-web", Technical Report · January 2015, DOI: 10.13140/RG.2.1.1582.4728, [58] Ali Gharaee, Mostafa Eidiani, "Smart sensor technology-Persian-Farsi-web", Technical Report · January 2015, DOI: 10.13140/RG.2.1.1343.1122, [59] mohamad hossein Hosseinipoya, Mostafa Eidiani, "Types of Op cal Fiber &comparison themPersian-Farsi", Technical Report · January 2015, DOI: 10.13140/RG.2.1.5162.1200, [60] Mohsen Fahmide, Mostafa Eidiani, "Bidding Of VPP-Persian Farsi", Technical Report · January 2015, DOI: 10.13140/RG.2.1.4965.5125, [61] Majid Basafa, Mostafa Eidiani, "Majid Basafa-SCADA network strategy-Persian-Farsi", Technical Report · January 2015, DOI: 10.13140/RG.2.1.2937.9926, [62] Mohammad Behboodi, Mostafa Eidiani, "Mohammad Behboodi demand side management-PersianFarsi", Technical Report · January 2015, DOI: 10.13140/RG.2.1.5125.2561, [63] Amir Abbas Talebi, Mostafa Eidiani, "Amir Abbas Talebi-The role of electric vehicles In the power system-Persian-Farsi-web", Technical Report · January 2015, DOI: 10.13140/RG.2.1.2302.8561, [64] Yaser Gohary, Mostafa Eidiani, "Yaser Gohary-The effect of distributed generation on distribution network reliability-Persian-Farsi", Technical Report · January 2015, DOI: 10.13140/RG.2.1.4248.4564, [65] Mehdi Hemma fard, Mostafa Eidiani, "Mehdi Hemma fard-Removal of Ocular Artifacts from Electro Encephalogram by Adaptive Filters-persian", Technical Report · January 2015, DOI: 10.13140/RG.2.1.2413.4481, [66] Parisa Teymori, Mostafa Eidiani, "Parisa teymori - Beamforming with LMS algorithm -Persian-Farsiweb", Technical Report · January 2015, DOI: 10.13140/RG.2.1.3986.3125, [67] Elnaz Nema , Mostafa Eidiani, "Elnaz Nema -Electrical Installations in High Rise Buildings-Persian Farsi", Technical Report · January 2015, DOI: 10.13140/RG.2.1.1165.1922, [68] Younes Fathabadi, Mostafa Eidiani, "Younes Fathabadi-Fault current limiting-Persian-Farsi", Technical Report · January 2015, DOI: 10.13140/RG.2.1.4597.6402, [69] Mohammad Motevalli, Mostafa Eidiani, "Mohammad Motevalli- design appropriate signal to control the chaos at the heart of the system-Persian-Farsi", Technical Report · January 2015, DOI: 10.13140/RG.2.1.4046.7286, [70] Ali Alizadeh, Mostafa Eidiani, " Ali Alizadeh - A variety of load models in power system - Persian-Farsiweb", Technical Report · January 2015, DOI: 10.13140/RG.2.1.4097.4166, [71] Mohammad Kargar , Mostafa Eidiani, "Mohammad Kargar - PMU- Persian Farsi", Technical Report · January 2015, DOI: 10.13140/RG.2.1.3204.4888,
[72] mostafa mashmool, Mostafa Eidiani, "mostafa mashmool - Cooling systems of power plants -PersianFarsi-web", Technical Report · January 2015, DOI: 10.13140/RG.2.1.2467.2088, [73] Mohammad ali Jafari, Mostafa Eidiani, " smart sweeper robot", Research Proposal · January 2015, DOI: 10.13140/RG.2.1.3222.1520, [74] Mostafa Eidiani, "Transient stability analysis a generator connected to infinite bus with uncertainty in the power generation", Conference Paper · January 2000, DOI: 10.13140/2.1.1362.2562, Conference: ISCEE, Iranian Student Conference on Electrical Engineering, 3th, 2000, At Tehran, [75] Mostafa Eidiani, Hasan Shanechi, Habib Rajabi Mashhadi, Ali Deihimi, "Improvement of power system dynamic stability using SMES", Conference Paper · January 1999, DOI: 10.13140/2.1.4507.9840, Conference: PSC 1999, At Tehran Iran, [76] Mostafa Eidiani, Hasan Shanechi, " Using energy func on to detect voltage collapse", Conference Paper · January 1999, DOI: 10.13140/2.1.1886.5441, Conference: PSC 1999, At Tehran, Iran, [77] Mostafa Eidiani, " Maximizing public welfare instead of Minimizing costs - Persian Farsi", Conference Paper · January 2015, DOI: 10.13140/RG.2.1.3454.3440, Conference: Conference: ISCEE, Iranian Student Conference on Electrical Engineering, 2Sc, 1999, At Tehran, [78] Mostafa Eidiani, "Review of transient stability direct method-Persian Farsi", Conference Paper · January 2015, DOI: 10.13140/RG.2.1.4502.9205, Conference: Conference: ISCEE, Iranian Student Conference on Electrical Engineering, First, At Tehran, At Tehran, [79] Mostafa Eidiani, "Power system transient stability analysis for uncertain structure-Persian Farsi", Conference Paper · January 2015, DOI: 10.13140/RG.2.1.1226.1203, Conference: Conference: ISCEE, Iranian Student Conference on Electrical Engineering, First, At Tehran, At Tehran, [80] Mostafa Eidiani, Hasan Shanechi, " Op mal e line planning between two interconnected systems (Khorasan and Systan) using optimum failure probability", Conference Paper · January 2000, DOI: 10.13140/2.1.3459.4084, Conference: PSC, At Tehran, Iran, [81] Mostafa Eidiani, Dariush Yazdanpanah, " Improve the performance of power systems interconnected using variable frequency transformers-Persian Farsi", Conference Paper · January 2009, DOI: 10.13140/2.1.4835.6641, Conference: PSC 2009, At Tehran, Iran, Volume: 09-F-PTL-0117, [82] Mostafa Eidiani, Hashem Mortazavi, "The economic dispatch of power system controllers with asymmetric power transmission lines", Conference Paper · January 2009, DOI: 10.13140/2.1.2738.5129, Conference: PSC 2009, At Tehran, Iran, Volume: 09-F-PSS-0132, [83] Yaser Ashkhanei, Mostafa Eidiani, Mojtaba Khederzadeh, "Improve voltage stability in a weak grid with wind power plant equipment FACTS", Conference Paper · January 2009, DOI: 10.13140/2.1.1689.9365, Conference: PSC 2009, At Tehran, Iran, Volume: 09-F-PSS-0107,
[84] Mostafa Eidiani, Hasan Shanechi, Ebrahim Vaahedi, "FCTTC determina on with regard to voltage stability and transient stability energy method-Persian Farsi", Dataset · September 2014, DOI: 10.13140/2.1.1722.7044, [85] Mostafa Eidiani, Hasan Shanechi, Ebrahim Vaahedi, " A quick method for calcula on ATC with considering transient stability and voltage stability-Persian Farsi", Dataset · September 2014, DOI: 10.13140/2.1.4344.1443, [86] Mostafa Eidiani, ME Baydokhty, M Ghamat, H Zeynal, H Mortazavi, " Transient stability enhancement via hybrid technical approach", Conference Paper · January 2011, DOI: 10.1109/SCOReD.2011.6148768, Conference: Research and Development (SCOReD), 2011 IEEE Student Conference on, [87] Mostafa Eidiani, Natan Asghari Shahdehi, Hossein Zeynal, "Improving dynamic response of wind turbine driven DFIG with novel approach", Conference Paper · January 2011, DOI: 10.1109/SCOReD.2011.6148770, Conference: Research and Development (SCOReD), 2011 IEEE Student Conference on, [88] Hossein Zeynal, Mostafa Eidiani, Dariush Yazdanpanah, "Intelligent Control Systems for Futuris c Smart Grid Initiatives in Electric Utilities", Conference Paper · January 2013, DOI: 10.1109/AIMS.2013.65, Conference: First International Conference on Artificial Intelligence, Modelling & Simulation (AIMS), Volume: pp:315-319, [89] Hossein Zeynal, Mostafa Eidiani, Dariush Yazdanpanah, " Intelligent Substa on Automa on Systems for Robust Operation of Smart Grids", Conference Paper · August 2014, DOI: 10.13140/2.1.3819.8567, Conference: IEEE Innovative Smart Grid Technologies (ISGT Asia) Conference- Asia, At Kuala Lumpur, Malaysia, May 20-23, 2014, Volume: pp:862-866 [90] Hossein Zeynal, Mostafa Eidiani, " Hydrothermal Scheduling Flexibility Enhancement with PumpedStorage Units", Conference Paper · June 2014, DOI: 10.13140/2.1.4868.4322, Conference: 22nd Iranian Conference on Electrical Engineering (ICEE 2014), At Tehran, Iran, [91] Hossein Zeynal, Yap Jiazhen, Brian Azzopardi, Mostafa Eidiani, " Impact of Electric Vehicle’s Integration Into the Economic VAr Dispatch Algorithm", Conference Paper · July 2014, DOI: 10.1109/ISGTAsia.2014.6873892, Conference: Innova ve Smart Grid Technologies-Asia (ISGT Asia), 2014 IEEE, At Kuala Lumpur, Malaysia, May 20-23, 2014, Volume: pp:856-861 [92] Hossein Zeynal, Lim Xiao Hui, Yap Jiazhen, Mostafa Eidiani, Brian Azzopardi, " Improving Lagrangian Relaxation Unit Commitment with Cuckoo Search Algorithm", Conference Paper · December 2014, DOI: 10.1109/PECON.2014.7062417, Conference: PECON 2014, 2014 IEEE Interna onal Power and Energy Conference, At Malaysia, Kuching, Volume: Page(s): 77 - 82, [93] Mostafa Eidiani, Hossein Zeynal, " Exact and efficient approach in static assessment of Available Transfer Capability (ATC)", Conference Paper · January 2010, DOI: 10.1109/PECON.2010.5697580, Conference: Power and Energy (PECon), 2010 IEEE Interna onal Conference on,
[94] Mostafa Eidiani, Mohammad hassan Modir Shanechi, Kazem Ameli, Saied Ahmadi, " Analysis of Methods of Short Circuit Limita on in Khorasan's Region (1385, 1390) Considering Reliability", Conference Paper · January 2006, DOI: 10.13140/2.1.1100.1121, Conference: 21th Interna onal Power System Conference (PSC 2006), At Tehran, Iran, Volume: 98-F-PSS-171, [95] Mostafa Eidiani, M. Hasan Modir Shanechi, Ebrahim Vaahedi,·" Assessment of ATC Using Voltage and Transient Stability, Simultaneously", Journal of Computational Methods in Sciences and Engineering 2(23):11-24 · March 2005, [96] Mostafa Eidiani, " A review of the concepts of network losses", Article · January 2010, [97] Mohammad Ebrahimean Baydokhty, Mostafa Eidiani, Hossein Torkaman " Transient Stability Prediction by Fuzzy System for to Be Minimum and Recognition of Necessity of Implementing Generator Tripping ", Conference Paper · July 2012, DOI: 10.13140/2.1.5130.5760, Conference: 4th Iranian Conference on Electrical and Electronic Engineering, ICEEE2012, Volume: pp. 629-635, 28-30 Aug. 2012, [98] Mostafa Eidiani, " Restructuring of the power system for the privatization of the electricity industry", DOI: 10.13140/RG.2.1.1576.3285, Conference: ISCEE, Iranian Student Conference on Electrical Engineering, 3th, At Tehran, At Tehran, [99] Atefe Nemani, Mostafa Eidiani, " Linearly Constrained minimum variance Beamforming- Persian Farsi", Technical Report · January 2015, DOI: 10.13140/RG.2.1.1314.1845, [100] Akram Mahoodi, Mostafa Eidiani, " Akram Mahoodi-Distribution system load forcasting using neural network-persian-farsi", Technical Report · January 2015, DOI: 10.13140/RG.2.1.1715.5927, [101] Shima Bashiri Rezaei, Mostafa Eidiani, " Shima Bashiri Rezaei - Recognition of facial expressions Persian Farsi", Technical Report · January 2015, DOI: 10.13140/RG.2.1.3537.2881, [102] Mahdieh Akbari, Elahe Haeri, Mostafa Eidiani, "Clearing Price Predic on using neural network Persian-Farsi", Technical Report · January 2015, DOI: 10.13140/RG.2.1.3324.2968, [103] Mostafa Eidiani, Mahboobeh Ghasemi, "seminar in researchGate (Persian Farsi) at khorasan institute of higher edcation", Technical Report · January 2016, DOI: 10.13140/RG.2.1.3262.2165, [104] Meghdad Khaleghi, Mostafa Eidiani, "Meghdad Khaleghi-Breaker impact on the reliability of the distribution network-persian farsi", Technical Report · December 2015, DOI: 10.13140/RG.2.1.4443.9120, [105] Mostafa Eidiani, " An overview of energy strategies in the diagnosis of transient stability by the example of the closest unstable equilibrium point-persian", Technical Report · December 2015, DOI: 10.13140/RG.2.1.1928.9684, [106] Mostafa Eidiani, " Dynamic studies with DIgSILENT Power Factory- part1", Technical Report·March 2016, DOI: 10.13140/RG.2.1.3740.9365
[107] Mostafa Eidiani, " Supplementary resource for Using energy function to detect voltage collapse", Dataset·December 2015, https://www.researchgate.net/publication/288003801_Supplementary_resource_for_Using_energy_functio n_to_detect_voltage_collapse [108] Mostafa Eidiani, " Dynamic studies with DIgSILENT Power Factory- part2", Technical Report·February 2016, DOI: 10.13140/RG.2.1.1381.6404. [109] Mostafa Eidiani, " Op mal capacitor placement in distribu on network Bojnourd using DIgSILENTpart3", Technical Report·May 2015, DOI: 10.13140/RG.2.1.3597.5765 [110] Mostafa Eidiani, " Optimal capacitor placement in distribution network Bojnourd using DIgSILENTpart2", Technical Report·April 2015, DOI: 10.13140/RG.2.1.4908.2969 [111] Mostafa Eidiani, " Optimal capacitor placement in distribution network Bojnourd using DIgSILENTpart1", Technical Report·March 2015, DOI: 10.13140/RG.2.1.4384.0080 [112] Mostafa Eidiani, " Probabilis c Power Flow in distribu on and transmission network with uncertainty as Hermann-beta", Conference Paper·January 2008, DOI: 10.13140/RG.2.1.2942.2161 [113] Mostafa Eidiani, " Power industry prospects and new strategies for taking advantage of the industry", Conference Paper·January 2011, DOI: 10.13140/RG.2.1.2680.0722 [114] Mostafa Eidiani, " supplementary resource for An overview of energy strategies in the diagnosis of transient stability by the example of the closest unstable equilibrium point-Persian", Dataset·January 2016, https://www.researchgate.net/publication/287988505_supplementary_resource_for_An_overview_of_ener gy_strategies_in_the_diagnosis_of_transient_stability_by_the_example_of_the_closest_unstable_equilibri um_point-Persian?ev=prf_pub
