A large 3-phase, 4160 V, 60 Hz, squirrel-cage induction motor draws a current of 400 Aand the total active power of 2500 kW when operating at full-load. The correspondingspeed is accurately measured and is found to be 1178 r/min. The stator is connected inwye and the resistance between two stator terminals is 0.15 0. The total iron losses are26.5 kW and the windage and friction losses are 15 kW. Calculate the following:The power factor at full-loadThe active power supplied to the rotorThe total I²R losses in the rotorThe load mechanical power [kW], torque [kN.m], and efficiency [%]a.b.C.d.

A large 3-phase, wye-connected, squirrel-cage induction motor operating at full-load. The following…

Answered: A large 3-phase, 4160 V, 60 Hz,…

Introductory Circuit Analysis (13th Edition)

13th Edition

ISBN:9780133923605

Author:Robert L. Boylestad

Publisher:Robert L. Boylestad

Chapter1: Introduction

Section: Chapter Questions

Problem 1P: Visit your local library (at school or home) and describe the extent to which it provides literature...

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Similar questions

A 6 pole DC lap wound generator has 41 armature conductors with flux per pole is 23 mWb and the e.m.f generated is 80 V, then the speed of the machine is O 0.74 rps O 84.84 rps O 7.43 rps 84.84 rps
Here it is the equivalent circuit of and induction motor and it is per phase circuit my question is name for me the variable for example R1 is the winding resistance and so an the all variable and please show me a pic of the real machine with the variable for example for R1 happens because of the winding i need to see the winding in the real machine, please help me to understand well
In a three-phase induction motor the maximum torque occurs at 20% slip and the equivalent resistance of the secondary is 0.04Ω per phase. Find the equivalent load resistance and the load voltage and the load current. Output power is 20 kW.
Electrical Engineering - Convargion Please solve the question quickly
Question -9b
1. An induction motor is operating near its synchronous speed. It is supplied from a 50Hz 400V (1-1) source and it has 2 poles, RR = 0.52. If the load torque is TL = 63 10-3 w² (w in rad/s), calculate speed and torque. rad Wα = 104.1 S Tm = 682.34Nm
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