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Electrical Machines (EELE 3351)

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Presentation on theme: "Electrical Machines (EELE 3351)"— Presentation transcript:

1 Electrical Machines (EELE 3351)

2 Assad Abu-Jasser, PhD Electric Power Engineering The Islamic University of Gaza

3 Chapter 7 Induction Motors

4 Introduction

5 Motor Theory of Operation

6 Motor Animation

7 Induction Motor Construction
Wound Rotor Squirrel-Cage Rotor Squirrel-Cage Rotor Wound Rotor

8 Basic IM Concepts The Concept of Rotor Slip

9 Basic IM Concepts Electrical Frequency on the Rotor

10 Example 7.1 A 208-V, 10-hp, 4-pole, 60-Hz, Y-connected induction motor has a full-load slip of 5%. (a) what is the synchronous speed of this motor? (b) what is the rotor speed of this motor at rated load? (c) what is the rotor frequency of this motor at rated load? (d) what is the shaft torque of this motor at rated load?

11 The Equivalent Circuit of an IM Transformer Model

12 The Equivalent Circuit of an IM The Rotor Circuit Model

13 The Equivalent Circuit of an IM The Final Equivalent Circuit
Rotor Circuit Model

14 Power and Torque in IM Losses and Power-Flow Diagram

15 Example 7.2 A 480-V, 60-Hz, 50-hp, three-phase induction motor is drawing 60 A at 0.85 PF lagging. The stator copper losses are 2 kW, and the rotor copper losses are 700 W. The friction and windage losses are 600 W, the core losses are 1800 W, and the stray losses are negligible. Find the following quantities: (a) the air-gap power PAG (b) the power converted Pconv (c) the output power Pout (d) the motor efficiency

16 Power and Torque in IM

17 Separating RCL and Power Converted

18 Example 7.3 A 460-V, 25-hp, 60-Hz, 4-pole, Y-connected induction motor has the following impedances in ohms per phase referred to the stator circuit: R1=0.641 Ω R2=0.332 Ω X1=1.106 Ω X2=0.464 Ω XM=26.3 Ω The total rotational losses are 1100 W and are assumed to be constant. The core loss is lumped in with the rotational losses. For a rotor slip of 2.2 percent at the rated voltage and rated frequency, find the motor’s (a) speed, (b) stator current, (c) power factor, (d) Pconv and Pout, (e) induced and load torque, and (f) efficiency

19 IM Torque-Speed Characteristics Maximum (Pullout) Torque

20 Example 7.4 A two-pole, 50-Hz induction motor supplies 15-kW to a load at a speed of 2950 rpm. (a) what is the motor’s slip? (b) what is the induced torque in the motor under these conditions? (c) what will the operating speed of the motor be is its torque is doubled? (d) how much power will be supplied by the motor when the torque is doubled?

21 Example 7.5 A 460-V, 25-hp, 60-Hz, 4-pole, Y-connected induction motor has the following impedances in ohms per phase referred to the stator circuit: R1=0.641 Ω R2=0.332 Ω X1=1.106 Ω X2=0.464 Ω XM=26.3 Ω (a) What is the maximum torque? At what speed and slip does it occur? (b) what is the starting torque? (c) when the rotor resistance is doubled, what is the speed at which the maximum torque now occurs? What is the new starting torque? (d) calculate and plot the torque-speed characteristics of this motor both with the original rotor resistance and with the rotor resistance doubled.

22 Trends in Induction Motor Design

23 Induction Motor Ratings

24 End Of Chapter Seven


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