Power Factor Questions in AC Circuits

In summary: When the current returns to distribution point.. different cables with be with different power factors.. so will there be any problem caused by that
  • #1
daredevil
12
0
In AC circuits, it seems that there is no energy used for capacitors and inductors.

I was wondering how is the energy used causing it to increase and decrease the power factor?. And also, why does the power provider have to supply power(apparent power) for something that is ultimately not even used

Thanks..
 
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  • #2
Apparent power is not supplied as real power by the generator. The reason the power company gets annoyed at (and charges you for) low power factor is that the capacity of generators and wires is based on amperage, not wattage.
 
  • #3
Thankss..

So, aren't there are generators made based on wattage??.. or can we ignore the apparent power and use a generator to supply for the real power only?

And also when the current returns to distribution point.. different cables with be with different power factors.. so will there be any problem caused by that
 
  • #4
Pwr comes to us in three phases, each 120 degrees out of phase with the next. We derive pwr by flowing current between the phases. If the phases change from their ideal 120 degrees, you still have full pwr flowing thru each phase, which is what we get charged for. But we now have slightly less voltage between the phases at each instant in time, so we get less usable pwr between the phases.

Correcting this phase shift normally means adding capacitors. But with expanded use of distributed generation; we can run the DG generators out of phase in the opposite direction to help correct the PF on the grid. This is how generator owners sell VARS to the power company.
 
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  • #5
daredevil said:
Thankss..

So, aren't there are generators made based on wattage??.. or can we ignore the apparent power and use a generator to supply for the real power only?
The real power is "real" in the sense that it directly relates to how much fuel the power plant burns. That's why it is the main component of a commercial bill. But how hot a wire or generator gets is a function of amperage, so the worse the power factor the higher the amperage so the larger the wires and generator need to be or the higher the losses will be.
 

1. What is power factor in an AC circuit?

Power factor is a measure of how efficiently an AC circuit uses electrical power. It is the ratio of the real power (measured in watts) to the apparent power (measured in volt-amperes) in the circuit. A power factor of 1 means that all the power supplied to the circuit is being used, while a power factor less than 1 indicates that there is reactive power present, which is not being used to do useful work.

2. How is power factor calculated?

Power factor is calculated by dividing the real power by the apparent power. This can be done using the formula PF = P / S, where PF is the power factor, P is the real power, and S is the apparent power. Alternatively, it can also be calculated using the cosine of the angle between the voltage and current in the circuit, known as the power factor angle.

3. What causes a low power factor in an AC circuit?

A low power factor in an AC circuit can be caused by the presence of reactive components such as inductors and capacitors. These components cause the current and voltage to be out of phase, leading to a lag in the power factor. Other factors that can contribute to a low power factor include the use of inefficient or oversized equipment, and unbalanced loads in the circuit.

4. Why is power factor important in AC circuits?

Power factor is important in AC circuits because it affects the efficiency of the circuit and the amount of power that can be delivered. A low power factor means that more current is needed to deliver the same amount of real power, which can lead to increased energy costs and stress on the electrical system. It is also important to maintain a high power factor to avoid penalties from utility companies.

5. How can power factor be improved in an AC circuit?

Power factor can be improved in an AC circuit by using power factor correction methods, such as adding capacitors to the circuit to offset the reactive power. This can be done through individual capacitor units or a centralized power factor correction system. Other methods include using more efficient equipment, balancing loads, and reducing the length of the circuit to decrease the effects of reactance.

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