02-08-2011, 04:05 PM
Machines.ppt (Size: 12.74 MB / Downloads: 2,104)
Synchronous Machines
Synchronous generators or alternators are used to convert mechanical power derived from steam, gas, or hydraulic-turbine to ac electric power
Synchronous generators are the primary source of electrical energy we consume today
Large ac power networks rely almost exclusively on synchronous generators
Synchronous motors are built in large units compare to induction motors (Induction motors are cheaper for smaller ratings) and used for constant speed industrial drives
Construction
Various Types
Salient-Pole Synchronous Generator
Cylindrical-Rotor Synchronous Generator
Operation Principle
The rotor of the generator is driven by a prime-mover
A dc current is flowing in the rotor winding which produces a rotating magnetic field within the machine
The rotating magnetic field induces a three-phase voltage in the stator winding of the generator
Electrical Frequency
Generated Voltage
Equivalent Circuit_1
The internal voltage Ef produced in a machine is not usually the voltage that appears at the terminals of the generator.
The only time Ef is same as the output voltage of a phase is when there is no armature current flowing in the machine.
There are a number of factors that cause the difference between Ef and Vt:
The distortion of the air-gap magnetic field by the current flowing in the stator, called the armature reaction
The self-inductance of the armature coils.
The resistance of the armature coils.
The effect of salient-pole rotor shapes.