Conclusion: Three-phase Induction Motor Three-Phase Induction Motors used for the great majority of applications that call for motor with power ratings over 5 hp. They are used in its two types: Squirrel – cage rotor type , and Wound (or Slip-Ring) Rotor type for pumps, fans, compressors, and grinders and in many other industrial applications. In is called, as well as, as Asynchronous Motor or Rotating Transformer The equivalent circuits for both types are identical and it is similar to the transformer equivalent circuit, but the only difference is in the secondary side which should be closed. The speed of the motor can be controlled either by the supply voltage or by inserting external variable resistance in the rotor winding (Sure only in case of the second type). The most important characteristics of the motor is the Torque - Speed (slip) characteristics as shown in the figure 11/02/1437 Electrical Technology ELEC 201 1
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Conclusion: Three-phase Induction Motor Three-Phase Induction Motors used for the great majority of applications that call for motor with power ratings over 5 hp. They are used in its two types:
Squirrel – cage rotor type , and Wound (or Slip-Ring) Rotor type for pumps,
fans, compressors, and grinders and in many other industrial applications.
In is called, as well as, as Asynchronous Motor or Rotating Transformer
The equivalent circuits for both types are identical and it is similar to the transformer equivalent circuit, but the only difference is in the secondary side which should be closed.
The speed of the motor can be controlled either
by the supply voltage or by inserting external
variable resistance in the rotor winding
(Sure only in case of the second type).
The most important characteristics of the
motor is the Torque - Speed (slip)
characteristics as shown in the figure
11/02/1437 Electrical Technology ELEC 201 1
Example 17.3
A 220-V rms, 60-Hz three-phase wye-connected induction motor draws 31.87 A at a power factor of 75% lagging. For all three phases, the total copper losses are 400 W, and the total copper losses are 500 W. Find the air gap power, Pag , the developed power, Pdev, the output power, Pout and the efficiency η.
:Solution
Vs= Vp = Vline/ 3 = 127 V rms
Pinp = 3 Vs Is cos θ = 3 x 127 x 31.87 x 0.75 = 9107 W
From the power flow diagram, we know the following:
Pag = Pinp – PSCL
Thus Pag = 9107 – 400 = 8707 W
Pdev = Pag – PRCL = 8707 – 150 = 8557 W
Pout = Pdev – Prot = 8557 – 500 = 8057 W
Efficiency = Pout / Pinp x 100 %
η% = 8057 / 9107 x 100 = 94 % (Typical value for the IM)
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Drill Exercise
•D16.2. A three-phase, four-pole, 60-Hz cage rotor induction motor runs at 1746 rpm, drawing a rotor current I’r = 100 A. The rotational loss of the
machine is 4 kW. Find the developed power, rotor copper losses and ز
output power if R’r = 0.09 Ω.
Solution:
Synchronous speed ns = 120 x f / p = 120 x 60 / 4 = 1800 rpm
Pout = Pdev – Prot = 87300 – 4000 = 83300 W or 83.3 kW
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Synchronous Machines INTRODUCTION TO POLYPHASE SYNCHRONOUS MACHINES
Two types
1-Cylindirical rotor: High speed, fuel or gas fired power plants
To produce 50 Hz electricity
p=12, n=500 rpm
p=24, n=250 rpm
npnp
e120602
f
To produce 50 Hz electricity p=2, n=3000 rpm p=4, n=1500 rpm
2-Salient-pole rotor: Low speed, hydroelectric power plants
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INTRODUCTION TO POLYPHASE SYNCHRONOUS MACHINES
How does a synchronous generator work?
1- Apply DC current to rotor winding
(field winding)
2- Rotate the shaft (rotor) with constant
speed.
3- Rotor magnetic field will create flux
linkages in stator coils and as a result
voltage will be produced because of
Faraday’s Law
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INTRODUCTION TO POLYPHASE SYNCHRONOUS MACHINES
How is DC current applied to the rotor
1- Slip Rings
Note: Magnetic field of rotor can
also be produced by permanent
magnets for small machine applications
2- Brushless Excitation System: Excitation supplied from ac exciter and solid rectifiers. The
–alternator of the ac exciter and the rectification system are on the rotor. The current is supplied directly to the field-winding without the need to slip rings
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INTRODUCTION TO POLYPHASE SYNCHRONOUS MACHINES Synchronous generators work in