Power Factor Correction

Power factor correction is the method to reduce the lagging power factor in inductive loads by fixing a high value capacitor across the phase and neutral close to the load. When the Voltage and Current are in phase with each other in an AC circuit, the energy from the source is fully converted into another form to drive the load and in this case power factor is in unity. When the power factor drops, the system becomes less efficient. As a rule a drop from unity to 0.9 in the power factor increases the current requirement to 15% or more.

A power factor of 0.7% increases the power requirement to around 40%. This is much severe in the case of inductive loads such as Motors, Refrigerators, Inverters etc. In these inductive loads, current “lags” the voltage leading to “lagging power factor”. But opposite condition occurs if current “leads” the voltage. This is called “leading power factor”. Power factor correction is the method to reduce the lagging power factor in inductive loads by fixing a high value capacitor across the phase and neutral close to the load. These capacitors have leading power factor so that it will neutralize the lagging power factor of the load. Power factor correction has the following advantages.

1. Load becomes more efficient
2. Prevents wastage of energy though heat
3. Maintains voltage stability

Over correction

It is important to note that, if the power factor capacitor ( PFC) is connected at the entry point of power supply, say after the meter or in the distribution point, there is chance of “Over correction” when a fraction of the full load is switched on. This over correction causes heavy surge current flows to the load during switching that may destroy the load. So the PFC must be connected close to the inductive load, so that power correction occurs only in that load.

PF correction Capacitor
Power capacitors are huge non polarized metal film electrolytic type capacitors.

These capacitors have self healing property. That is during momentary faults, small areas of the capacitor electrodes evaporate to restore its function again. There are two types of power factor correction capacitors.

1. Oil filled type in metal case and
2. Epoxy filled in plastic case

These PFCs can operate smoothly at a temperature as high as 70 degree. The PFCs have working voltage of 240 volt AC, 440 volt AC etc. Capacitance of PFC varies between 2 uF to 100 uF. The PFCs are also specified by its “Reacting power” KvAR.

PFC connection

Power factor capacitor is connected across the phase and neutral near the inductive load such as motor. Before connecting the PFC, make sure that the capacitor is sufficiently rated to the load capacity. It should be connected to the lines, only if the load is running and drawing current.
Note: Before connecting a Power factor capacitor, seek the opinion of an expert since the many parameters like voltage, current, load capacity etc are involved in power factor correction.


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2 thoughts on “Power Factor Correction

  1. D.Mohankumar 17 Jul 2010 / 2:35 am

    Some of the calculations are not included since the article becomes too big and complicated. If you have more details, kindly send me with your name and address, I will post the same in your name along with the article.It is better to type in word and send as attachment Thanks for the feed back

  2. Muhammad Waqar 16 Jul 2010 / 6:04 pm

    Well I think it is incomplete because there were not mentioned that what capacity of PFCs need to be used to move pf from 0.43 to 0.95 (~ideal). I think above calculation will be repeated with 0.95 (required) pf then calculated PFCs should be deducted from PFCs rating that calculated with 0.43 pf. My email ID is m.wrj@msn.com.
    This is my own opinion, if you have further information let me know.

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