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Power Factor Correction Methods
- 1. POWER FACTOR INTRODUCTION AND ITS CORRECTION NAME-MANPREET SINGH ROLL NO.1411045
- 2. OUTLINE DEFINITION CAUSE OF LOW POWER FACTOR DISADVATNAGES OF LOW POWER FACTOR METHODS OF POWER FACTOR CORRECTIONS CASE – STUDY REFERECES
- 3. DEFINITION Power factor is the measure of how effectively your electrical equipment converts electric power- KVAs (supplied by your power utility) into useful power output-KWs. In technical terms, it is the ratio of Active Power (KW) to the Apparent Power (KVA) of an electrical installation. POWER FACTOR =Active power/Apparent power. Its values lies between 0 -1.
- 4. POWER FACTOR TRIANGLE • KW is Working Power (also called Actual Power or Active Power or Real Power). It is the power that actually powers the equipment and performs useful work. • KVA is Apparent Power. It is the “vectorial summation” of KVAR and KW. • KVAR is Reactive Power. It is the power that magnetic equipment (transformer, motor and relay) needs to produce the magnetizing flux.
- 5. CAUSES OF LOW POWER FACTOR Induction generators (wind mill generators) High intensity discharge (HID) light. Transformers-due to Magnetising currents. Distorted current waveform-rectifier variable speed drive, switched mode power supply, discharge lighting or other electronic load. High HARMONIC contents – electronic converters. Induction furnaces. Induction motors (60 % load is IM in homes and industries).
- 6. DISADVANTAGES OF LOW POWER FACTOR Reactive power (KVAR) required by inductive loads increases the amount of apparent power (KVA) in distribution system. This increase in reactive and apparent power results in a larger angle measured between KW and KVA. CURRENT =POWER/(VOLTAGE X POWER FACTOR). Due to higher current the economic cost of the equipment is increased. High current gives rise to high copper losses in the system cause reduction in the efficiency of system. Higher current produced a large voltage drop in the apparatus results in the poor voltage regulation.
- 7. NEED OF POWER FACTOR IMPROVEMENT Reduction in COPPER LOSSES, hence size of conductor. EFFICIENCY will improve. Cooling in equipments improves. LOWER the Utility bill. Voltage regulation improves. Increase System Capacity. Less total plant KVA for the same KW working power.
- 8. POWER FACTOR CORRECTION POWER FACTOR CORRECTION METHODS Static VAR Compensator(SVC) Fixed Capacitors( Shunt and series) Switch Capacitors Synchronous Condensers Static Synchronous Compensator(STATCOM) Modulated power filter capacitor compensator
- 9. STATIC VAR COMPENSATOR (SVC) The Static VAR Compensator (SVC) is a shunt device of the Flexible AC Transmission Systems (FACTS) family using power electronics to control power flow. Improves transient stability on power grids . It regulates voltage at its terminals by controlling the amount of reactive power injected into or absorbed from the power system. When system voltage is low, the SVC generates reactive power (SVC capacitive). When system voltage is high, it absorbs reactive power (SVC inductive).
- 10. Conti….. TCR: Thyristor Controlled Reactor. TSC: Thyristor Switched Capacitor.
- 11. FIXED CAPACITORS where the load does not change or where the capacitor is switched with the load, such as the load side of a Ideally suited for power factor correction in applications motor contactor. It is suitable for locations using induction motors, like food processing plants, or where small multiple loads require reactive power compensation. Each Fixed Capacitor Bank is designed for high reliability and long life. These products are designed for applications that do not contain harmonic generating .
- 12. Conti….
- 13. SWITCHED CAPACITOR It is suited for power factor correction in applications where plant loading is constantly changing, resulting in the need for varying amounts of reactive power. An advanced microprocessor-based reactive power controller measures plant power factor via a single remote current transformer
- 14. Conti…..
- 15. SHUNT COMPENSATION The device that is connected in parallel with the transmission line is called the shunt compensator. A shunt compensator is always connected in the middle of the transmission line. It can be provided by either a current source, voltage source or a capacitor. An ideal shunt compensator provides the reactive power to the system.
- 16. SYNCHRONOUS CONDENSER Synchronous condenser is a salient pole synchronous motor . Can be operate as lagging and leading load as well. Synchronous condenser stabilizes power system voltage by supplying reactive power to the power system . Use for power factor correction. It is more economical than capacitors
- 17. Conti….
- 18. CASE STUDY A Unit at IAL SANGRUR supplied with power from a utility through 1600 KVA ,11/.433kv transformer. The maximum demand of reactive power of this unit is 1250 KVA at power factor 0.75 . A 300 KVAR capacitor bank was installed at this unit to raise power factor. In this case study, the measurement of power factor (PF), active power (P), reactive power(Q),apparent power(S), and current (I) were illustrated for 12 hours(6:00- 18:00hours) in a day time before and after operating the Capacitor Bank in the unit.
- 19. CASE STUDY
- 20. Conti….
- 21. Conti….
- 22. CONCLUSION The average power factor was improved by 21% as it was 0.75 before and becoming 0.95 after PFC. The average loading on the transformer released by 26% as it was 372 KVA before PFC and became 296 KVA after PFC. Losses of the cable was reduced by 36% as average current was before 497 Amps and 395 Amp after PFC. The capacitor compensated by 61% of the consumed reactive power as the average was 245 KVAR before PFC and became 96 KVAR after PFC.
- 23. REFERENCES WIKIPEDIA .COM IEEE JOURNAL ON POWER FACTOR. V.K.MEHTA –INTRODUCTION TO POWER SYSTEM. IAL SANGRUR (GENERATING UNIT).
- 24. THANK YOU