From 7f60ea012dd2524dae921a2a35adbf7ef21f2bb6 Mon Sep 17 00:00:00 2001 From: prashantsinalkar Date: Tue, 10 Oct 2017 12:27:19 +0530 Subject: initial commit / add all books --- 3802/CH12/EX12.10/Ex12_10.jpg | Bin 0 -> 33172 bytes 3802/CH12/EX12.10/Ex12_10.sce | 62 ++++++++++++++++++++++++++++++++++++++++++ 2 files changed, 62 insertions(+) create mode 100644 3802/CH12/EX12.10/Ex12_10.jpg create mode 100644 3802/CH12/EX12.10/Ex12_10.sce (limited to '3802/CH12/EX12.10') diff --git a/3802/CH12/EX12.10/Ex12_10.jpg b/3802/CH12/EX12.10/Ex12_10.jpg new file mode 100644 index 000000000..a7a9c9627 Binary files /dev/null and b/3802/CH12/EX12.10/Ex12_10.jpg differ diff --git a/3802/CH12/EX12.10/Ex12_10.sce b/3802/CH12/EX12.10/Ex12_10.sce new file mode 100644 index 000000000..4396af82b --- /dev/null +++ b/3802/CH12/EX12.10/Ex12_10.sce @@ -0,0 +1,62 @@ +//Book Name:Fundamentals of Electrical Engineering +//Author:Rajendra Prasad +//Publisher: PHI Learning Private Limited +//Edition:Third ,2014 + +//Ex12_10.sce + +clc; +clear; +Z_R=complex(8,6); +Z_Y=complex(8,-6); +Z_B=complex(5,0); +Z_N=complex(0.5,1); +Y_R=1/Z_R; +Y_Y=1/Z_Y; +Y_B=1/Z_B; +Y_N=1/Z_N; +E_R=220; +E_Y=220; +E_B=220; +theta1=0; +theta2=-120; +theta3=120; +V_R=complex(E_R*cosd(theta1),E_R*sind(theta1)); +V_Y=complex(E_Y*cosd(theta2),E_Y*sind(theta2)); +V_B=complex(E_B*cosd(theta3),E_B*sind(theta3)); +V_NN_dash=((V_R*Y_R)+(V_Y*Y_Y)+(V_B*Y_B))/(Y_R+Y_Y+Y_B+Y_N); + +V_R_dash=V_R-V_NN_dash; +V_Y_dash=V_Y-V_NN_dash; +V_B_dash=V_B-V_NN_dash; +V_R_dash_mag=sqrt(real(V_R_dash)^2+imag(V_R_dash)^2); +V_Y_dash_mag=sqrt(real(V_Y_dash)^2+imag(V_Y_dash)^2); +V_B_dash_mag=sqrt(real(V_B_dash)^2+imag(V_B_dash)^2); +V_R_dash_angle=atand(imag(V_R_dash)/real(V_R_dash)); +V_Y_dash_angle=atand(imag(V_Y_dash)/real(V_Y_dash))+180; +V_B_dash_angle=atand(imag(V_B_dash)/real(V_B_dash))+180; +printf("\n Load phase voltages: Magnitude\tAngle(deg)") +printf("\n For R phase\t%3.2f\t%0.3f",V_R_dash_mag,V_R_dash_angle) +printf("\n For Y phase\t%3.2f\t%3.2f",V_Y_dash_mag,V_Y_dash_angle) +printf("\n For B phase\t%3.2f\t%3.2f",V_B_dash_mag,V_B_dash_angle) +//For V_NN_dash value , the answer given in the book is wrong.So load phase voltage vary from the book answer. +//Also V_R_dash angle is not 0.168. It is negative angle that is -0.193 +I_R=V_R_dash*Y_R; +I_Y=V_Y_dash*Y_Y; +I_B=V_B_dash*Y_B; +I_N=V_NN_dash*Y_N; +I_R_mag=sqrt(real(I_R)^2+imag(I_R)^2); +I_Y_mag=sqrt(real(I_Y)^2+imag(I_Y)^2); +I_B_mag=sqrt(real(I_B)^2+imag(I_B)^2); +I_N_mag=sqrt(real(I_N)^2+imag(I_N)^2); +I_R_angle=atand(imag(I_R)/real(I_R)); +I_Y_angle=atand(imag(I_Y)/real(I_Y))+360; +I_B_angle=atand(imag(I_B)/real(I_B))+180; +I_N_angle=atand(imag(I_N)/real(I_N))+180; +printf("\n\n Load phase current: Magnitude\tAngle(deg)") +printf("\n For R phase\t%3.2f\t%0.3f",I_R_mag,I_R_angle) +printf("\n For Y phase\t%3.2f\t%3.2f",I_Y_mag,I_Y_angle) +printf("\n For B phase\t%3.2f\t%3.2f",I_B_mag,I_B_angle) +printf("\n For Neutral\t%3.2f\t%3.2f",I_N_mag,I_N_angle) + + -- cgit