Induction Motor MCQs Part 18
Contents
- 1 A wound rotor motor is used in practical applications that require
- 2 A high starting torque can be obtained in 3 phase induction motor by doing which of following
- 3 The number of rotor slots in a squirrel cage motor are __________ rotor slots
- 4 A 3-phase induction motor is connected to a normal supply voltage. EMF induced between slip rings
- 5 A 3-phase, 50 Hz, 8 pole induction motor running with a slip of 4% is taking 20 kW
A wound rotor motor is used in practical applications that require
A wound rotor motor is used in practical applications that require
- Less costly motor is not required
- High rotor resistance is required during
- High starting torque is required
- Speed control is required
Correct answer: 3. High starting torque is required
A high starting torque can be obtained in 3 phase induction motor by doing which of following
A high starting torque can be obtained in 3 phase induction motor by doing which of following:
- Decreasing rotor resistance
- Increasing rotor reactance
- Increasing rotor resistance
- None of these
Correct answer: 3. Increasing rotor resistance
The number of rotor slots in a squirrel cage motor are __________ rotor slots
The number of rotor slots in a squirrel cage motor are __________ rotor slots
- More than
- Less than
- Either of above
- None of above
Correct answer: 3. Either of above
A 3-phase induction motor is connected to a normal supply voltage. EMF induced between slip rings
A 3-phase induction motor is connected to a normal supply voltage. EMF induced between slip rings at standstill is 50. The resistance and standstill reactance per phase are 0.7 Ω and 3.5 Ω respectively. The rotor (star-connected) is joined to a star connected resistance of 4 Ω/phase. The rotor phase current at starting will be:
- 2.25 A
- 3.56 A
- 4.93 A
- 9.92 A
Correct answer: 3. 4.93 A
Solution:
At standstill, rotor EMF per phase (E2) = 50/√3 = 28.87 V
Rotor impedance/phase at standstill Z2 = √{4 + 0.7}² + 3.5² = 5.86 Ω
Rotor current/phase at starting (I2) = E2/Z2 = 28.87/5.86 = 4.93 A
A 3-phase, 50 Hz, 8 pole induction motor running with a slip of 4% is taking 20 kW
A 3-phase, 50 Hz, 8 pole induction motor running with a slip of 4% is taking 20 kW. Stator losses amount 0.5 kW. If mechanical torque lost in friction is 16 Nm, what is BHP:
- 23.45
- 48.54
- 69.64
- 99.56
Correct answer: 1. 23.45
Solution:
Stator output = Stator input – Stator losses = 20 – 0.5 = 19.5 kW
Stator output = Rotor input = 19.5 kW
———————-
Rotor Cu loss = s * Rotor input = 0.04 * 19.5 = 0.78 kW
Rotor output = 19.5 – 0.78 = 18.72 kW
———————-
Ns = 120 * f/P = 120 * 50/8 = 750 RPM
N = (1 – s) * Ns = (1 – 0.04) * 750 = 720 RPM
———————-
Total torque (T) = 9.55 * Rotor output/N
T = 9.55 * 18.72 * 1000 / 720 = 248 Nm
———————-
Tsh = T – T (lost) = 248 – 16 = 232 Nm
———————-
BHP = 2π N Tsh / 60*746 = 2π * 720 * 232 / 60 * 746 = 23.45