What Capacitance is Needed for a 50 kW Load with a 60% Lagging Power Factor?

AI Thread Summary
The discussion focuses on calculating the capacitance needed to correct the power factor of a 50 kW load from 60% lagging to 90% lagging. The original poster provided a PDF with their question but was advised to include text for clarity. The key method involves equating the reactance from the capacitor and recognizing that while active power remains constant, reactive power changes with different power factors. The conversation emphasizes using the change in reactive power to determine the required capacitance. Overall, the thread provides guidance on how to approach the power factor correction calculation.
andyskin
Messages
5
Reaction score
2
Please can you have a look at the file at point me in the right direction if I'm wrong.

Thank you
 

Attachments

Physics news on Phys.org
Welcome to PF.

I moved your post to the homework help forum. Normally, we don't allow posts in the form of all pictures in a PDF file, but your pictures are easy to read. I hope you attract some hints from our helpers.

Next time, please type in the text parts of your question and use copy/paste or the ATTACH button to include pictures of the graphics.
 
Sorry didn’t know there was a homework section
 
  • Like
Likes berkeman
Hi,

I'm not sure what you're trying to ask in the question. Determine the capacitance that must be placed in parallel to...? What are you trying to do? In the PDF file you attached, it seems as though you're trying to correct the Power Factor from 0.60 to 0.90. However, you're also solving for the Power that needs to be supplied?
Is there a part of the question you might have forgotten to add?

If you're trying to correct the Power Factor from 0.60 to 0.90, please find the Power Factor Correction.pdf file attached. This is the method that should lead you to the correct answer if you want to determine the value of the capacitor required in order to correct the Power Factor.
 

Attachments

Last edited:
the full question meant to read:

A 50 kW load operates from a 60 Hz 10 kV rms line with a power factor of 60% lagging. Determine the capacitance that must be placed in parallel with the load to achieve a 90% lagging power factor.
 
andyskin said:
the full question meant to read:

A 50 kW load operates from a 60 Hz 10 kV rms line with a power factor of 60% lagging. Determine the capacitance that must be placed in parallel with the load to achieve a 90% lagging power factor.
I see. Then, in that case, you just need to change the ending of your method. You need to equate the two equations of "XC" (Finding the reactance that's coming from the capacitor). I attached the derivation of that in the Equations.PNG file. The reason for this is because your "Active Power" (P) is not changing when you change the Power Factor. However, your "Reactive Power" (Q) is changing with the different Power Factors.
Capacitors supply reactive power "Q" to the circuit. Therefore, you need to use the "change in reactive power" to calculate the capacitance value needed to supply that amount of "Q".
 

Attachments

  • Equation.PNG
    Equation.PNG
    71.9 KB · Views: 242
Last edited:
thank you for your help, i'll have a look
 

Similar threads

Parallel Capacitance - Power Factor Question
Replies
6
Views
3K
Capacitance power factor question
Replies
9
Views
17K
Three phase AC concepts and problems
Replies
2
Views
6K
Transformer Load Regulation Old Exam Question Help
Replies
6
Views
2K
Is There a Standard Power Factor Convention for Voltage and Current Angles?
Replies
6
Views
3K
Engineering AC Circuit (RL) Homework: Finding the Series R-L Equivalent for Two Loads
Replies
30
Views
3K
Understanding fatigue and ultimate loading
Replies
16
Views
2K
Calculating Line Voltage and Power Factor in a 3-Phase System: A Case Study
Replies
1
Views
2K
How to Solve Power Factor Problems with Mixed Loads?
Replies
1
Views
5K
AC Power and Effective Currents
Replies
8
Views
3K

Hot Threads

Recent Insights

Back
Top