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diff --git a/3472/CH9/EX9.19/Example9_19.sce b/3472/CH9/EX9.19/Example9_19.sce new file mode 100644 index 000000000..964a14077 --- /dev/null +++ b/3472/CH9/EX9.19/Example9_19.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 II : TRANSMISSION AND DISTRIBUTION
+// CHAPTER 2: CONSTANTS OF OVERHEAD TRANSMISSION LINES
+
+// EXAMPLE : 2.19 :
+// Page number 115
+clear ; clc ; close ; // Clear the work space and console
+
+// Given data
+d = 2.6 // Outside diameter of conductor(cm)
+D_RY = 8.0 // Spacing between conductor R & Y(m)
+D_YB = 8.0 // Spacing between conductor Y & B(m)
+D_RB = 16.0 // Spacing between conductor R & B(m)
+h = 13.0 // Height of conductor from ground(m)
+
+// Calculations
+r = d/2 // Radius of conductor(m)
+e = 1.0/(36*%pi)*10**-9 // Constant ε_0
+h_12 = (D_RY**2+(2*h)**2)**(1.0/2) // Height of conductor 1 & 2(m)
+h_23 = h_12 // Height of conductor 2 & 3(m)
+h_31 = (D_RB**2+(2*h)**2)**(1.0/2) // Height of conductor 3 & 1(m)
+h_1 = 2*h // Height of transposed conductor 1(m)
+h_2 = 2*h // Height of transposed conductor 2(m)
+h_3 = 2*h // Height of transposed conductor 3(m)
+D_eq = (D_RY*D_YB*D_RB)**(1.0/3) // Equivalent distance(m)
+h_123 = (h_12*h_23*h_31)**(1.0/3) // Height(m)
+h_1_2_3 = (h_1*h_2*h_3)**(1.0/3) // Height(m)
+C_n = 2*%pi*e/(log(D_eq*100/r)-log(h_123/h_1_2_3))*1000.0 // Capacitance of conductor A(F/km)
+
+// Results
+disp("PART II - EXAMPLE : 2.19 : SOLUTION :-")
+printf("\nCapacitance per phase to neutral of a line, C_n = %.1e F/km", C_n)
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