An Ind. Motor with Pr and Ps zero has R2 = 1_Ohm, X2 = 4_Ohm, P
= 4, f = 60_Hz, and V1 = 127_V find the maximum torque speed
(approximate)
A) 742.5_rpm
B) 1.35_Krpm
C) 1.552_Krpm
D) 1.957_Krpm
1. A 15 hp, 4 pole, 208 V, 60 Hz, Y-connected, three-phase squirrel cage induction motor has the following parameters in Ω/phase referred to the stator: R,-0.220, Xi = 0.430, X,-15.0, R2 0.130 and X2-0.430. Mechanical and core losses amount to 300 W and 200 W respectively for rated voltage. (a) The motor is fed with a 60 Hz, 208 V voltage. It runs with a slip of 4.5 %. Find the speed, shaft torque and power, efficiency and power...
A 3 phase, 460V, 60Hz, 6-pole induction motor has the following equivalent circuit parameters per phase: R1 = 0.2 ohms R2 = 0.28 ohms X1 = X2 = 1.055 ohms Xm = 33.9 ohms The no load losses, comprising friction, windage, and iron losses equal 26W. The motor is coupled to a load and connected to a 460V supply, and the rotor speed is found to be 1156 RPM. For this motor connected to a 460V supply calculate the following:...
how do we calculate ii and iii) - induction motor (25 marks) QUESTION 3 A three-phase, 400 V, 50 Hz, 4-pole, 1370 rpm, star connected, squirrei-cage induction motor has the following parameters: R, 20, R2- 3 Q, X1-X2- 3.5 and Xm=40 .Motor is controlled by a voltage source inverter at constant V/f ratio. By using IEEE equivalent circuit; Calculate the starting torque and starting current at 10 Hz To- If the torque-speed to be a straight line calculate the slip...
. A 460-V 460-V, 25-hp, 60-Hz, six-pole, Y-connected induction motor has the following impedanc ohms per phase referred to the stator circuit. Ri= 0.212 R2 = 0.282 X1 = 1.055 12 X2 = 1.055 22 XM = 33.9 W The total rotational losses are 1100 W and are assumed to be constant. The core loss is lumped with the rotational losses. For a rotor slip of 4% at the rated voltage and rated frequency, a) The input power b) Peony...
Problem # 2: Induction Motor Analysis Using The Thevenin Theorem [37 points] A three-phase, two pole, 25hp, 460V (line-line), 60Hz, wye-connected, squirrel-cage induction motor has the following per-phase parameters: Ri 0.53 Ohm X2 0.80 Ohm Xi 1.80 Ohms R2 0.30 Ohm Re- 400 Ohms Xm 25.0 Ohms You cannot use any approximate circ uit or any approximation in the calculations. (1) Determine the parameters of the Thevenin equivalent circuit. Draw the equivalent circuit with the appropriate parameter values indicated on...
A three-phase, 2.2 kV, 60 Hz, Y-connected induction motor has the following parameters: R1 = 0.2 Ω R2` = 0.4 Ω X1 + X2` = 1.5 Ω The motor’s full load speed is 580 rpm. Ignore the rotational losses and calculate: a. Full load torque b. Output power rating c. Starting current d. Starting torque No poles were provided A three-phase, 2.2 kV, 60 Hz, Y-connected induction motor has the following parameters: The motor's full load speed is 580 rpm....
A 3 phase, 4 pole, 60 Hz., AC Induction Motor has a rated Torque of 150 Nm. with the phase voltage of 254v. Its parameters are: R1 = 0.20 Ohms, R2’ = 0.32 Ohms and X = 0.50 Ohms. Find its approximate slip at the rated load and speed.
4. A 110-volt, 4-pole single phase induction motor with rl-1.3, r2-3, xl-2.5, x2-2, and xm-50, operates at full load slip of 3%. Find the full load torque, power facor and ficiency 20 points 4. A 110-volt, 4-pole single phase induction motor with rl-1.3, r2-3, xl-2.5, x2-2, and xm-50, operates at full load slip of 3%. Find the full load torque, power facor and ficiency 20 points
A three-phase, 2.2 kV, 60 Hz, Y-connected induction motor has the following parameters: R1 = 0.2 Ω R2` = 0.4 Ω X1 + X2` = 1.5 Ω The motor’s full load speed is 580 rpm. Ignore the rotational losses and calculate: a. Full load torque b. Output power rating c. Starting current d. Starting torque
d) Find the voltage regulation and officiency tof all the cases in part part (c) above. (e) above. 2. (25) A three-phase, 12 HP, 220 V, 60 Hz, Y connected induction motor is running at 1728 rpm while delivering rated torque. The induction motor has the following equivalent circuit model parameters: R1-0.1 Ω, X1-040 R2-0.16Ω, X2 1Ω, and XM Ignore core losses. 20 Ω Find: (Hint: Reasonable engineering approximations are encouraged.) a) The shaft torque. b) The motor efficiency. Hint:...