Calculate KVA Rating for 12kW Load at 0.8 Lag

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To calculate the KVA rating for a 12kW load at a power factor of 0.8 lag, the formula used is apparent power equals true power divided by power factor. Therefore, the calculation is 12,000W divided by 0.8, resulting in 15,000VA or 15KVA. The discussion highlights that the limiting factor for an alternator's power output is current, which generates heat and can lead to failures. Participants clarify that the question is likely testing understanding of apparent power, with one suggesting that the multiple-choice options include a trick answer. Ultimately, the consensus is that the correct KVA rating needed is 15KVA.
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Hi there,

Can some one assist me as to how to answer this question...

An alternator is connected to a 12kw load and operating at a power factor of 0.8 lag. what is the kva rating of the alternator required to drive the load?

i don't know what formula to use so Any help would be great. cheers
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What limits the power output of your alternator?
 
it doesn't say? this is why i don't understand? is it asking what the apparent power value is? if so...
Apparent pwr= true power/ power factor

is true power 12kw?
if so...

12000/0.8= 15000va
=15kva

does that seem right?
 
You've been givena 'trick' quesiotn. The limiting factor in a simple alternator is the current. Current generates heat. Heat causes things to fail. How does the current change with the power factor for a linear load? When the load is linear the current and voltage are still sinusoidal.
 
thanks for the responses, but the last one lost me. I am very ammature when it comes to this stuff.

Its actually a multiple choice question with the answers being...
a)15kw
b)apparent power
c)2w
d)3000w
e)11000va

my guess is apparent power. and i think (a) is there to trick you, as the above calculation comes to 15kva

what do you think?

thanks again
 
Sorry to throw you in the wrong direction. 15kw is correct.
 
If you can remember trigonometry, that is the reasoning behind maths that applies here, as per the 'power triangle' (attached).
 

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