An 18.65 KW,4-pole,50HZ, 3 phase induction motor has friction and windage losses of 2.5 percent of the output. The full load slip is 4% compute for full load (a) the rotor Cu loss (b) the rotor input (c) the shaft torque (d) the gross electromagnetic torque.
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Given
P = 18650 W
F = 50 Hz
Poles P = 4
Friction and windage loss = 2.5 % = 18650 X 0.025 = 466 KW
Slip s = 4 % = 0.04
To find
a) Rotor copper loss
b) Rotor input
c) Shaft torque
d) Gross electromagnetic torque
Solution
Losses = 466 KW
So total output PT = 18650 + 466 = 19116 KW
a) Rotor copper loss / Rotor total output = s / (1-s)
Rotor copper loss / 19116 = 0.04 / (1 – 0.04)
Rotor copper loss = 796.6 W
b) Rotor input = Rotor total output + Rotor copper loss
= 19116 + 796.6
Rotor input = 19912.6 W
c) Ns = 120 f / P
= (120 x 50) / 4
= 1500 rpm
Speed N = ( 1 – slip ) x Ns
= (1 – 0.04) X 1500
= 1440 rpm
Shaft torque TSH = (9.55 x P) / N
= (9.55 x 18650) / 1440
= 123.7 Nm
d) Gross torque TTOTAL = (9.55 x PT) / N
= (9.55 x 19116) / 1440
= 126.8 Nm
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