SUDHIR KUMAR SRIVASTAV
Additional General Manager-RAPDRP
NTPC LIMITED, NEW DELHI
Generator & Generator Protection
Generator:
Generator is a devise which converts mechanical energy into electrical energy.
• Mechanical energy is drawn by turbine.
• Electrical energy is sent out to user through transmission & distribution system.
• Generated voltage = 4.44 * flux * Frequency * No. of turns
Generator Components:
Stator: It is stationary part of Generator. It’s winding is connected to Power transformer to step up the voltage for transmission of generated power at high voltage. For a constant power output when voltage is increased, current is reduced (I=P/V), resulting less transmission losses (heat loss=I²R).
Rotor: It is coupled with turbine & rotates at turbine speed.
Excitation system: It is connected to rotor winding and generates rotating magnetic field at the speed of turbine. When this rotating magnetic field cuts stator winding, an E.M.F. is generated, resulting in output of electrical energy at a particular voltage.
Generated Voltage:
· Normally, Generated voltage in power plant is 15 KV to 25 KV, depending on the capacity.
· Limitation on high voltage generation is flux density & insulation thickness.
· Generator is directly connected to GT (To step up the voltage for transmission) and to UAT (To step down the voltage for unit auxiliary power consumption).
· Output power from Generator is stepped up to 400KV or 220 KV by Generator Transformer for transmitting the power to distribution utilities.
- Advantages of high voltage transmission:
o Flow of current is less, resulting reduction in cu loss (Heat loss).
o Less current requires less diameter of current carrying conductor, resulting less weight. Also supports (pole/towers) required for conductor will cost less.
- Unit Auxiliary Transformer (UAT) is directly connected to output of Generator & stepped down the voltage to 6.6 KV or 11 KV for running of unit auxiliary equipments.
- This 6.6 KV system is again stepped down to 0.4 KV for running of plant services equipments / lighting.
Generator Protection:
Task of protective system:
• Detects abnormal condition or defect.
• Alarm the operating staff.
• Unload and/or trip the machine.
Requirement of Protective device:
• Selectivity
• Safety against fault tripping
• Reliability
• Sensitivity
• Tripping Time
Type of Generator Protection:
1. Differential Protection:
• UAT Differential
• Overhead Line Differential
• GT differential
• Overall Differential
2. Stator Earth Fault Protection:
- Stator Earth Fault
- Stator Stand by Earth Fault
3. Rotor Earth Fault protection
4. Stator inter turn fault protection
5. Negative phase sequence protection
6. Generator back-up impedance protection
7. Loss of excitation protection
8. Pole slipping
9. Over voltage protection
10. Over fluxing protection
11. Low Forward Power Protection
12. Reverse Power Protection
13. Generator LBB protection
14. GT Protection:
i. Buchholz Protection
ii. PRV Protection
iii. WTI / OTI
15. UAT Protection
16. Bus Bar Protection
It is imperative need to install some protective system to protect the expensive elements of modern power system such as generators, transformers, station bus-bars, transmission lines etc. from different types of faults which are likely to occur sooner & later.
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