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-rw-r--r-- | 3872/CH12/EX12.4/Ex12_4.sce | 31 |
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diff --git a/3872/CH12/EX12.4/Ex12_4.JPG b/3872/CH12/EX12.4/Ex12_4.JPG Binary files differnew file mode 100644 index 000000000..d4245e76a --- /dev/null +++ b/3872/CH12/EX12.4/Ex12_4.JPG diff --git a/3872/CH12/EX12.4/Ex12_4.sce b/3872/CH12/EX12.4/Ex12_4.sce new file mode 100644 index 000000000..602114e9e --- /dev/null +++ b/3872/CH12/EX12.4/Ex12_4.sce @@ -0,0 +1,31 @@ +//Book - Power System: Analysis & Design 5th Edition
+//Authors - J. Duncan Glover, Mulukutla S. Sarma, and Thomas J. Overbye
+//Chapter - 12 ; Example 12.4
+//Scilab Version - 6.0.0 ; OS - Windows
+
+clc;
+clear;
+funcprot(0);
+f=60; //Frequency in Hertz
+G=[1000 750 500]; //Rating of unit 1,2 &3 respectively in MVA
+R=0.05; //Regulation constant of each unit in pu
+delP=200; //Load increment in MW
+SBnew=1000; //New MVA base of the entire system
+
+Rnew=R*(SBnew./G); //Regulation of each generators with common base
+beta=sum(1 ./Rnew); //area frequency response characteristic, beta
+
+printf('The area frequency response characteristic beta is %.2f per unit\n',beta)
+
+delPpu=delP/SBnew; //Load increment in per unit
+delFpu=(-1/beta)*delPpu //Frequency drop in per unit
+delF=delFpu*f; //Frequency drop in Hertz
+
+printf('The steady-state frequency drop is %.4f Hz\n',abs(delF))
+
+delPm=delFpu*(-1 ./Rnew);
+delPmact=SBnew*delPm;
+
+printf('The increase in turbine mechanical power output of unit1=%.4f pu = %.4f MW\n',delPm(1),delPmact(1))
+printf('The increase in turbine mechanical power output of unit2=%.4f pu = %.4f MW\n',delPm(2),delPmact(2))
+printf('The increase in turbine mechanical power output of unit3=%.4f pu = %.4f MW',delPm(3),delPmact(3))
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