Transformer efficiency

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Omer

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I am posting this problem since I usually get it wrong first time.

this post will help me remember not to make the same mistake always.

Try it,

A single phase 100 kVA, 4.6/0.480 kV transformer no-load loss is measured to be 300 W. The total

loss at 75% loading is measured at 1200 W. Transformer efficiency at 25% load is approximately:

 
Omer, it would be a good idea to know where exactly you get it wrong. But talking for the whole of the question, the no load loss remains constant of the load. (It is dependant at the Voltage at which it is carried out, which is rated V in most experiments). The game is only in the Load losses, which are I**2 X R. If you assume Ifl as full load current , then FL losses will be Ifl**2 X R and at any other say y percent of full load it will be (y X Ifl/100)**2 X R. Rest is maths. If you mention where exactly you loose track, we can discuss that part.

 
@rg1

yes, calculation is straight, however sometimes I miss it in the math part.

can you try it, I just want to see your solution before I tell my confusion.

 
Oh yes; 25% load. Lol. Good, Very good @Omer for raising this question. 25000/25400=98.4% What else? Thanks Omer. I was getting complacent last few weeks. This has shattered my overconfidence. Thanks for bringing me to ground again. I will start preparing again. Thanks a lot.

 
Oh yes; 25% load. Lol. Good, Very good @Omer for raising this question. 25000/25400=98.4% What else? Thanks Omer. I was getting complacent last few weeks. This has shattered my overconfidence. Thanks for bringing me to ground again. I will start preparing again. Thanks a lot.
I knew that I had reached early peak of the preparation. This is too bad. I was talking to my wife; this is not a good sign but then it happened.  IMHO you should reach your  0.99 pu of peak not even 1 pu; on the day of the exam to perform best.

 
Oh yes; 25% load. Lol. Good, Very good @Omer for raising this question. 25000/25400=98.4% What else? Thanks Omer. I was getting complacent last few weeks. This has shattered my overconfidence. Thanks for bringing me to ground again. I will start preparing again. Thanks a lot.
yes, I think very difficult to notice the 25% after using it to calculate the losses and you are ready to calculate for the efficiency. sometimes it is better to slow down and not rushing fast into solving problems familiar to you. unfortunately, I do.

Ok, for the next part, I need you to confirm it for me.

Calculating for efficiency, it is: output/input . for this problem and generally the transformer rating, is it input or output.

in your calculation and also mine, you take it as output. However, I think the right one should be input.

calculation should be : (25000-400)/25000

instead of 25000/25400.

for this problem results are close but generally speaking it makes difference.

I like the formula : 1 - losses/input

 
yes, I think very difficult to notice the 25% after using it to calculate the losses and you are ready to calculate for the efficiency. sometimes it is better to slow down and not rushing fast into solving problems familiar to you. unfortunately, I do.

Ok, for the next part, I need you to confirm it for me.

Calculating for efficiency, it is: output/input . for this problem and generally the transformer rating, is it input or output.

in your calculation and also mine, you take it as output. However, I think the right one should be input.

calculation should be : (25000-400)/25000

instead of 25000/25400.

for this problem results are close but generally speaking it makes difference.

I like the formula : 1 - losses/input
You'd be right.  I noticed that error as well, that he used a higher "input" than what was actually there.  

 
For all machines the power rating given is Output power. I remember  having  come across many times. I will share with you the legislation if I find one, which I will.

 
I understand that, but he's referring to shaft power.  A XFMR doesn't have a shaft  :thumbs: ... So no need to take that into account.  Only electrical power at this point.

 
I understand that, but he's referring to shaft power.  A XFMR doesn't have a shaft  :thumbs: ... So no need to take that into account.  Only electrical power at this point.
Just giving you a hard time. Been lightly monitoring the good discussions here lately. Which have been absent the past few exam cycles. It's somewhat refreshing to see some activity again. ;)

 
I figured you were rattling my cage, just keeping the discussion going is all.

 
Just giving you a hard time. Been lightly monitoring the good discussions here lately. Which have been absent the past few exam cycles. It's somewhat refreshing to see some activity again. ;)
I went through earlier posts, when I joined the forum for knowing so many things. I also felt the same. At  one point in time I wanted to point out that the quality of discussions were very good in something around 2011. 

 
I understand that, but he's referring to shaft power.  A XFMR doesn't have a shaft  :thumbs: ... So no need to take that into account.  Only electrical power at this point.
What I mean is, all machines ( including Transformer) are rated at their Output, is the convention. The motor was one example. I will get specific legislation  for Xmer too from these books. If someone come accross something else should let know. The link attached with that post is for transformer.

 
And the output is the rated input minus losses, not added.  So, it's out/in with in at 25... you can see the rest.

 
I see what you're saying, and I could be wrong (been a while since I've looked at this), but, to me, it is not intuitive if solved in that way.  It makes sense, and I could see why, but it still ain't intuitive.  

The answers are very close to the same, but it's not the same.  

 

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