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Diffstat (limited to '3472/CH25/EX25.4')
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diff --git a/3472/CH25/EX25.4/Example25_4.sce b/3472/CH25/EX25.4/Example25_4.sce new file mode 100644 index 000000000..59b45f361 --- /dev/null +++ b/3472/CH25/EX25.4/Example25_4.sce @@ -0,0 +1,37 @@ +// A Texbook on POWER SYSTEM ENGINEERING
+// A.Chakrabarti, M.L.Soni, P.V.Gupta, U.S.Bhatnagar
+// DHANPAT RAI & Co.
+// SECOND EDITION
+
+// PART II : TRANSMISSION AND DISTRIBUTION
+// CHAPTER 18: POWER DISTRIBUTION SYSTEMS
+
+// EXAMPLE : 18.4 :
+// Page number 439
+clear ; clc ; close ; // Clear the work space and console
+
+// Given data
+l = 450.0 // Length of wire(m)
+V_A = 250.0 // Voltage at end A(V)
+V_B = 250.0 // Voltage at end A(V)
+r = 0.05 // Conductor resistance(ohm/km)
+i = 1.5 // Load(A/m)
+I_C = 20.0 // Current at C(A)
+l_C = 60.0 // Distance to C from A(m)
+I_D = 40.0 // Current at D(A)
+l_D = 100.0 // Distance to D from A(m)
+l_E = 200.0 // Distance to E from A(m)
+
+// Calculations
+x = poly(0,"x") // Current to point D from end A(A)
+AD = (I_C+x)*r*l_C+x*r*(l_D-l_C) // Drop in length AD
+BD = (i*r*V_A**2/2)+(I_D-x)*r*(450-l_D) // Drop in length BD
+x_sol = roots(AD-BD) // Current(A)
+I_F = x_sol-I_D // Current supplied to load from end A(A)
+l_F = l_E+(I_F/i) // Point of minimum potential at F from A(m)
+V_F = V_B-(375.0-I_F)*(250-(l_F-200))*r/1000 // Potential at F from end B(V)
+
+// Results
+disp("PART II - EXAMPLE : 18.4 : SOLUTION :-")
+printf("\nPoint of minimum potential occurs at F from A = %.2f metres", l_F)
+printf("\nPotential at point F = %.2f V", V_F)
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