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author | prashantsinalkar | 2017-10-10 12:27:19 +0530 |
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committer | prashantsinalkar | 2017-10-10 12:27:19 +0530 |
commit | 7f60ea012dd2524dae921a2a35adbf7ef21f2bb6 (patch) | |
tree | dbb9e3ddb5fc829e7c5c7e6be99b2c4ba356132c /1445/CH10/EX10.3/ch10_ex_3.sce | |
parent | b1f5c3f8d6671b4331cef1dcebdf63b7a43a3a2b (diff) | |
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diff --git a/1445/CH10/EX10.3/ch10_ex_3.sce b/1445/CH10/EX10.3/ch10_ex_3.sce new file mode 100644 index 000000000..11806edbe --- /dev/null +++ b/1445/CH10/EX10.3/ch10_ex_3.sce @@ -0,0 +1,57 @@ +//CHAPTER 10- THREE-PHASE INDUCTION MACHINES +//Example 3 + +disp("CHAPTER 10"); +disp("EXAMPLE 3"); + +//VARIABLE INITIALIZATION +N_r=1140; //full load speed in rpm +f=60; //in Hz + +//SOLUTION + +//solution (i) +P=(120*f)/N_r; +P=round(P); +disp(sprintf("(i) The number of poles is %d",P)); + +//solution (ii) +N_s=(120*f)/P; +s=(N_s-N_r)/N_s; +disp(sprintf("(ii) The slip at full load is %d %%",s*100)); + +//solution (iii) +f_r=s*f; +disp(sprintf("(iii) The frequency of the rotor voltge is %d Hz",f_r)); + +//solution (iv) +N1=(120*f_r)/P; //speed of rotor field w.r.t stator +N1=round(N1); +disp(sprintf("(iv) The speed of rotor field w.r.t rotor is %d rpm",N1)); + +//solution (v) +N2=N_r+N1; //speed of stator field w.r.t stator field +N3=N_s-N2; //speed of rotor field w.r.t stator field +disp(sprintf("(v) The speed of rotor field w.r.t stator field is %d rpm",N3)); +disp("Hence, the rotor field is stationary w.r.t stator field"); + +//solution (vi) +ratio=10/100; //10% slip +N_r=N_s*(1-ratio); +N_r=round(N_r); +disp(sprintf("(vi) The speed of rotor at 10%% slip is %d rpm",N_r)); +s1=(N_s-N_r)/N_s; +fr=s1*f; +disp(sprintf(" The rotor frequency at this speed is %f Hz",fr)); + +//solution (vii) +v=230; +ratio1=1/0.5; +E_rotor=v*(1/ratio1); +E_rotor_dash=ratio*E_rotor; +disp(sprintf("(vii) The rotor induced emf is %f V",E_rotor_dash)); + +//END + + + |