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diff --git a/3472/CH28/EX28.1/Example28_1.sce b/3472/CH28/EX28.1/Example28_1.sce new file mode 100644 index 000000000..c1459da0e --- /dev/null +++ b/3472/CH28/EX28.1/Example28_1.sce @@ -0,0 +1,36 @@ +// A Texbook on POWER SYSTEM ENGINEERING
+// A.Chakrabarti, M.L.Soni, P.V.Gupta, U.S.Bhatnagar
+// DHANPAT RAI & Co.
+// SECOND EDITION
+
+// PART III : SWITCHGEAR AND PROTECTION
+// CHAPTER 2: FAULT LIMITING REACTORS
+
+// EXAMPLE : 2.1 :
+// Page number 479-480
+clear ; clc ; close ; // Clear the work space and console
+
+// Given data
+kVA_A = 2500.0 // Rating of alternator A(kVA)
+x_A = 8.0 // Reactance of alternator A(%)
+kVA_B = 5000.0 // Rating of alternator B(kVA)
+x_B = 6.0 // Reactance of alternator B(%)
+kVA_CB = 150000.0 // Rating of circuit breaker(kVA)
+kVA_T = 10000.0 // Rating of transformer(kVA)
+x_T = 7.5 // Reactance of transformer(%)
+V = 3300.0 // System voltage(V)
+
+// Calculations
+kVA_base = 10000.0 // Base kVA
+X_A = kVA_base/kVA_A*x_A // Reactance of generator A(%)
+X_B = kVA_base/kVA_B*x_B // Reactance of generator B(%)
+X_eq = X_A*X_B/(X_A+X_B) // Combined reactance of A & B(%)
+kVA_SC_G = kVA_base/X_eq*100 // Short-circuit kVA due to generators(kVA)
+kVA_SC_T = kVA_base/x_T*100 // Short-circuit kVA due to grid supply(kVA)
+X = (kVA_base*100/(kVA_CB-kVA_SC_G))-x_T // Reactance necessary to protect switchgear(%)
+I_fl = kVA_base*1000/(3**0.5*V) // Full load current corresponding to 10000 kVA(A)
+X_phase = X*V/(3**0.5*I_fl*100) // Actual value of reactance per phase(ohm)
+
+// Results
+disp("PART III - EXAMPLE : 2.1 : SOLUTION :-")
+printf("\nReactance necessary to protect the switchgear = %.3f ohm/phase", X_phase)
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