1 files changed, 26 insertions, 0 deletions

diff --git a/3760/CH5/EX5.41/Ex5_41.sce b/3760/CH5/EX5.41/Ex5_41.sce
new file mode 100644
index 000000000..8c342dd70
--- /dev/null
+++ b/3760/CH5/EX5.41/Ex5_41.sce
@@ -0,0 +1,26 @@
+clc;

+n=1490; // speed of machine in rpm

+p=4; // number of poles

+f=50; // frequency 

+v=11000; // rated voltage of machine

+p=20*10^6; // rated power of machine

+v1=30; 

+v2=25; // per phase voltage for phase A of machine

+i1=10;

+i2=6.5; // per phase current for phase A of machine

+ns=(120*f)/p; // synchronous speed of machine

+xd=v1/i2; // d-axis synchronous reactance

+xq=v2/i1; // q-axis synchronous reactance

+disp('case a');

+ia=p/(sqrt(3)*v); // armature current

+vt=v/sqrt(3); // per phase armature voltage

+Ef=vt+ia*xq*%i;

+de=atand(imag(Ef),real(Ef)); // load angle

+id=ia*sind(de); // d-axis current

+Ef1=abs(Ef)+id*(xd-xq); 

+printf('Per phase excitation value is %f V\n',ceil(Ef1));

+printf('Line value of excitation EMf is %f V\n ',ceil(sqrt(3)*Ef1));

+disp('case 2');

+pr=(vt^2*(xd-xq)*sind(2*de))/(2*xd*xq);

+printf('Reluctance power developed by machine is %f KW per phase\n',pr/1000);

+printf('Total reluctance power developed by machine is %f KW',(3*pr)/1000);