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Question 10.9: A 3-phase, 4-pole, 50Hz slip-ring induction motor is rotatin...

A 3-phase, 4-pole, 50Hz slip-ring induction motor is rotating at a speed of 1440 rpm at full-load. Its rotor resistance is 0.25 ohm per phase. What external resistance should be added in the rotor circuit to reduce the speed to 1320 rpm, the torque is to be kept the same.

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Here, R_{2} = 0.25  ohm ; f = 50  Hz ; P = 4 ; N_{1} = 1440  rpm ; N_{2} = 1320  rpm

Torque developed, T = \frac{S E_{2S} R_{2}}{\left[R_{2}^{2} + \left(S X_{2S}\right)^{2} \right] } = \frac{S E_{2S} R_{2}}{R_{2}^{2}} \\[0.5cm] \hspace{30 pt} \hspace{30 pt} \hspace{30 pt} \hspace{30 pt} \hspace{30 pt} \left(Rejecting  S  X_{2S,}  not  given\right)

T = \frac{K S }{R_{2}} \hspace{30 pt} \hspace{30 pt} \hspace{30 pt} \hspace{30 pt} \left(Where  K  is  a  constant\right)

 

In first case, T_{1} = \frac{K S_{1} }{R_{2}}          …(i)

In second case, T_{2} = \frac{K S_{2} }{\left(R_{2} + r\right) }          …(ii)

N_{S} = \frac{120 f}{P } = \frac{120 \times 50}{4} = 1500  rpm

 

S_{1} = \frac{1500 – 1440 }{1500 } = 0.04 ; S_{2} = \frac{1500 – 1320}{1500} =0.12

 

Since T_{1} = T_{2} equating equation (i) and (ii), we get,

\frac{S_{1}}{R_{2}} = \frac{S_{2}}{R_{2} + r}  or  R_{2} + r= \frac{S_{2}}{S_{1}} \times R_{z}

 

\therefore r = \frac{0.12}{0.04} \times 0.25 – 0.25 = \mathbf{0.5  ohm}

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