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+// 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 1: SYMMETRICAL SHORT CIRCUIT CAPACITY CALCULATIONS

+

+// EXAMPLE : 1.8 :

+// Page number 472

+clear ; clc ; close ; // Clear the work space and console

+

+// Given data

+X_d_st = 0.2       // Sub-transient reactance(p.u)

+X_d_t = 0.4        // Transient reactance(p.u)

+X_d = 1.0          // Direct axis reactance(p.u)

+I_pu = 1.0         // Load current(p.u)

+PF = 0.80          // Lagging power factor

+

+// Calculations

+V = 1.0                     // Terminal voltage(p.u)

+sin_phi = (1-PF**2)**0.5

+I = I_pu*(PF-%i*sin_phi)    // Load current(p.u)

+E_st = V+%i*I*X_d_st        // Voltage behind sub-transient reactance(p.u)

+E_t = V+%i*I*X_d_t          // Voltage behind transient reactance(p.u)

+E = V+%i*I*X_d              // Voltage behind direct axis reactance(p.u)

+

+// Results

+disp("PART III - EXAMPLE : 1.8 : SOLUTION :-")

+printf("\nVoltage behind sub-transient reactance = %.2f∠%.2f° p.u", abs(E_st),phasemag(E_st))

+printf("\nVoltage behind transient reactance = %.2f∠%.2f° p.u", abs(E_t),phasemag(E_t))

+printf("\nVoltage behind direct axis reactance, E = %.2f∠%.2f° p.u", abs(E),phasemag(E))