Problem 1: A 800 V, 4 pole, 3 phase, and 50 Hz star connected induction motor...

Problem 4: A 6 pole, three phase, 50 Hz induction motor has rotor resistance of 0.075...

Problem 4: A 6 pole, three phase, 50 Hz induction motor has rotor resistance of 0.075 ohm and standstill reactance of 0.125 ohm per phase. On full load it is running at a speed of 240 r.p.m. The rotor induced e.m.f per phase at standstill is observed to be 16 V. Calculate; Starting torque, Full load torque Maximum torque Speed at max torque Problem 5: The following data refers to a 10-pole, 200 V, 50 Hz, 3 phase induction motor?

Problem 3: A 3-phase, 4 pole, 50 Hz induction motor is supplied by 200 V supply....

Problem 3: A 3-phase, 4 pole, 50 Hz induction motor is supplied by 200 V supply. Its full load slip is 2%. At full load, stator copper losses are same as rotor copper losses. Stator iron losses are 50% more than stator copper losses. Mechanical losses are one third of no load losses. Full load output is 50 H.P. Calculate the efficiency on full load.

Calculate full load torque developed by an 8 pole, 50 Hz, 3 phase IM Motor operating...

Calculate full load torque developed by an 8 pole, 50 Hz, 3 phase IM Motor operating with 4 % slip on full load. Motor develops Max. Torque at a speed of 700rpm. The rotor resistance of motor is 0.5 ohm per phase. Standstill rotor emf is 120v per phase.

The parameters of a 3-phase, 4-pole, 50 Hz, Y-connected, wound-rotor induction motor are listed below. These...

The parameters of a 3-phase, 4-pole, 50 Hz, Y-connected, wound-rotor induction motor are listed below. These are the default values of the "Asynchronous Machine" model in MATLAB Simulink. r1=0.5968 Ω; r2=0.6258 Ω; L1=0.0003495 H; L2=0.005473 H; Lm=0.0354 H; Stator line voltage = 400 V rms. The motor for rotor speeds nm= 0 to 1500 rpm. X1= 0.1097 ohm, X2= 1.719 ohm , Xm= 11.12 ohm, RTH = 0.5853 , XTH = 0.1395 and VTH = 230.82 V. Suppose the motor...

A 100 KW (OUT PUT), 3300V, 50 Hz, 3-Phase star connected induction motor has a synchronous...

A 100 KW (OUT PUT), 3300V, 50 Hz, 3-Phase star connected induction motor has a synchronous speed of 500 rpm. The full load slip is 1.8%and full load power factor 0.85. Stator copper loss=2440W. Iron loss=3500W. Rotational losses= 1200W. calculate : The rotor copper loss The line current The full load motor efficiency.

A 230 volt, 60 Hz, 4 pole star connected, three phase induction motor operates at a...

A 230 volt, 60 Hz, 4 pole star connected, three phase induction motor operates at a full load speed of 1710 rpm. The power developed at this speed is 2 horse power. If the supply voltage fluctuates ±10%, determine the torque range of the motor.

The parameters of a 3-phase, 4-pole, 50 Hz, Y-connected, wound-rotor induction motor are listed below. These...

The parameters of a 3-phase, 4-pole, 50 Hz, Y-connected, wound-rotor induction motor are listed below. These are the default values of the “Asynchronous Machine” model in MATLAB Simulink. r1=0.5968 ?; r2=0.6258 ?; L1=0.0003495 H; L2=0.005473 H; Lm=0.0354 H; Stator line voltage = 400 V rms. The motor for rotor speeds nm= 0 to 1500 rpm. X1= 0.1097 ohm, X2= 1.719 ohm , Xm= 11.12 ohm, RTH = 0.5853 , XTH = 0.1395 and VTH = 230.82 V. Suppose the motor...

A 208 V 10 Hp four pole 60 Hz Y connected induction motor has a full...

A 208 V 10 Hp four pole 60 Hz Y connected induction motor has a full load slip of 5%. What is the output power of this motor in kW? If friction and windage loss is 350 watts, what is the gross mechanical output at full load? What is the gross torque of this motor at full load? What is the rotor cupper loss at full load? If the efficiency of this motor is 90% at full load what is...

Q4) A three-phase, 104 kW, 3300 V, 50 Hz, Y-connected induction motor delivers full output power...

Q4) A three-phase, 104 kW, 3300 V, 50 Hz, Y-connected induction motor delivers full output power to a load connected to its shaft. The full-load slip is 0.02 and full-load power factor is 0.85 lagging. If the stator copper loss is 2400 W, the stator core loss is 3500 W, and the friction and windage loss is 1200 W. Calculate: (i) The developed mechanical power. (ii) The air gap power. (iii) The rotor copper loss. (iv) The efficiency of the...

Q1. A 440 V, 60 Hz, six-pole, 3 phase induction motor is taking 50 kVA at...

Q1. A 440 V, 60 Hz, six-pole, 3 phase induction motor is taking 50 kVA at 0.8 power factor and is running at a slip of 2.5 percent. The stator copper losses are 0.5 kW and rotational losses are 2.5 kW. i) The rotor copper losses ii) The shaft hp iii) The efficiency iv) The shaft torque