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Voltage stability index code

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weldon
weldon el 10 de En. de 2018
Comentada: musa inanc el 11 de Dic. de 2023
Hi, I am doing a project which require calculation of fast voltage stability index(FVSI). Please assist on how to come up with matlab code to calculate this index in power system
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Ezechukwu Ani
Ezechukwu Ani el 7 de Jun. de 2023
Sir, Could you help me with FVSI code My email is ezeani201@gmail.com I await your response, sir Thank you Nelson
musa inanc
musa inanc el 11 de Dic. de 2023
Sir, i need the FVSI code too for my research work, thanks. musainanc48@gmail.com

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Respuestas (4)

pranay dattani
pranay dattani el 7 de Mzo. de 2021
i try to calculate the Line Stability Index, voltage Stability Index, linr stability factor
clc; clear all; close all; format compact;
Vs=0.9526+j*0.55; % Sending End Voltage in pu
Vsm=abs(Vs); % Magnitude of Sending End Voltage
Vsa=angle(Vs); % Angle of Sending End Voltage
Vr=1.00+j*0; % Receiving End Voltage in pu
Vrm=abs(Vr); % Magnitude of Receiving End Voltage
Vra=angle(Vr); % Angle of Receiving End Voltage
Delta=Vsa-Vra;
R=0.1; % Line Resistance
X=1; % Line Reactance
Z=R+j*X; % Line Impedance
Zm=abs(Z);
Theta=angle(Z);
Pr=1.2; % Receiving End Active Power
Qr=0.5; % Receiving End Reactive Power
Sr=Pr+j*Qr; % Receiving End Apprant Power
fprintf('Line Stability Index \n')
Lmn=(4*X*Qr)/((Vsm*sin(Theta-Delta))^2) % Line Stability Index
fprintf('Fast Voltage Stability Index \n')
FVSI=(4*(Zm^2)*Qr)/((Vsm^2)*X) % Fast Voltage Stability Index
fprintf('Line Stability Factor \n')
LQP=4*(X/(Vsm^2))*(Qr+(((Pr^2)*X)/(Vsm^2))) % Line Stability Factor
% Line is assumed to be lossless. So,Here the sending end power is equal
% To Reaceiving End Power
  2 comentarios
Samson Ademola
Samson Ademola el 15 de Ag. de 2021
Please how can I input multiple values of R and X to calculate and give answers once instead of changing the values when getting the value of FVS and Lmn. Thanks
oukennou aziz
oukennou aziz el 18 de Nov. de 2022
You can put them in the vector

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Aneel Kumar
Aneel Kumar el 6 de En. de 2023
How to calculate voltage deviation of any standard IEEE Bus system by Matlab coding
Habib
Habib el 7 de Jul. de 2023
https://www.mathworks.com/matlabcentral/fileexchange/132088-fast-voltage-stability-index-fvsi
  1 comentario
Ezechukwu Ani
Ezechukwu Ani el 8 de Jul. de 2023
Thank you sir, I have downloaded it,let me run it sir. I am also looking fuzzy logic code for integration of FACTS devices in 39 bus transmission system. I will be glad if you can help. Thank you once again.

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Hafizur Rahman
Hafizur Rahman el 30 de Ag. de 2023
% FVSI Calculation from load flow
% Author: Hafizur Rahman
% Date: 7/08/2023
% E-mail: 123ahmedhafiz@gmail.com
% N° From To R (pu) X (pu) 1/2B line line Limits
% line bus bus (pu) code
line_data=[ 1 1 2 0.01938 0.05917 0.0264 0 200
2 1 5 0.05403 0.22304 0.0246 0 100
3 2 3 0.04699 0.19797 0.0219 0 100
4 2 4 0.05811 0.17632 0.017 0 100
5 2 5 0.05695 0.17388 0.0173 0 100
6 3 4 0.06701 0.17103 0.0064 0 50
7 4 5 0.01335 0.04211 0 0 100
8 4 7 0 0.20912 0 0.978 50
9 4 9 0 0.55618 0 0.969 50
10 5 6 0 0.25202 0 0.932 100
11 6 11 0.09498 0.1989 0 0 50
12 6 12 0.12291 0.25581 0 0 20
13 6 13 0.06615 0.13027 0 0 50
14 7 8 0 0.17615 0 1 50
15 7 9 0 0.11001 0 1 50
16 9 10 0.03181 0.0845 0 0 20
17 9 14 0.12711 0.27038 0 0 20
18 10 11 0.08205 0.19207 0 0 20
19 12 13 0.22092 0.19988 0 0 20
20 13 14 0.17093 0.34802 0 0 20];
% N° bus Type Voltage Angle Load MW Load Mvar Gen MW Gen Mvar Gen Qmin Gen Qmax Cond. Suscep.
bus_data=[
1.0000 1.0000 1.0600 0 0 0 0 0 0 0 0 0
2.0000 2.0000 1.0450 0 21.7000 12.7000 40.0000 0 -40.0000 50.0000 0 0
3.0000 2.0000 1.0100 0 94.2000 19.0000 0 0 0 40.0000 0 0
4.0000 0 1.0000 0 47.8000 -3.9000 0 0 0 0 0 0
5.0000 0 1.0000 0 7.6000 1.6000 0 0 0 0 0 0
6.0000 2.0000 1.0700 0 11.2000 7.5000 0 0 -6.0000 24.0000 0 0
7.0000 0 1.0000 0 0 0 0 0 0 0 0 0
8.0000 2.0000 1.0900 0 0 0 0 0 -6.0000 24.0000 0 0
9.0000 0 1.0000 0 29.5000 16.6000 0 0 0 0 0 0.1900
10.0000 0 1.0000 0 9.0000 5.8000 0 0 0 0 0 0
11.0000 0 1.0000 0 3.5000 1.8000 0 0 0 0 0 0
12.0000 0 1.0000 0 6.1000 1.6000 0 0 0 0 0 0
13.0000 0 1.0000 0 13.5000 5.8000 0 0 0 0 0 0
14.0000 0 1.0000 0 14.9000 5.0000 0 0 0 0 0 0];
vb=100e3; % Base Voltage
sb=100e6; % Base VA
zb=(vb^2)/sb; % Base Impedance
% Add Line 2 to 3 Colome Data
data=[line_data(:,2:3), line_data(:,4:5)*zb];
% Calculate Impedance
data(:,3)=sqrt(data(:,3).^2+data(:,4).^2);
for i = 1:length(data)
% Add Voltage and Reactive power
data(i,5:6)=[100*bus_data(data(i,1),3) bus_data(data(i,2),6)]
end
disp(' From Bus To Bus Impedance Reactance Voltage Reactive Power');
disp(' (Z) (X) (KV) (MVAR)');
disp(data)
data(:,7)=(4*(data(:,3).^2).*data(:,6))./(data(:,4).*data(:,5).^2);
fvsi_val=data;
disp(' From Bus To Bus Impedance Reactance Voltage Reactive FVSI');
disp(' (Z) (X) (KV) Power(MVAR)');
disp(fvsi_val);
  1 comentario
sujono cipto sutarno
sujono cipto sutarno el 3 de Oct. de 2023
Apologies in advance.
I observed that impedance and reactance values are still in p.u, while voltage values are in kV, reactive power in MVAR.
Is that really the case? Thank you very much for sharing your knowledge.

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