The question isn't correct, you have to define the voltage level not the power rating.
You need to know the Primary and secondary voltages to do the calculation. we only have 100Kva transformers on our salt furnaces as an example: 100000va / 12v = 8333 amps the secondaries , wire, and electrodes are water cooled.
at first point you should determine the also the secondary voltage of the transformer, secondly you should explain what is the application of this transformer. if you want a special transformer, it is you to decide how much power is needed to be transferred via transformer, and designer tells you it is economical or not. by the way, if i want to refer you to a standard close to your application, following sizes are available for a 20kv/400v transformer: 50kVA,100kVA, 150, 200,315,500,630,800,1200,1600,2000,2500 and 3500kVA i hope this helps you
There is not enough information to answer the question. A DC generator is never described in kVA because DC generators are specified in terms of kilowatts.
If you want 100kVAR from a capacitor bank, you must install a 100kVAR capacitor bank. If what you're asking is related to how much capacitance it will take to offset a poor power factor, it is directly related to your load, and cannot be answered without more details - for power factor correction, you don't want to over correct (you would be buying too much equipment, and it could actually make your power factor look worse), so load profiles must be taken into account. Can the capacitors be switched on automatically, or must they be manually switched? What voltage level? The best way to determine this is to discuss with your local power company. They usually have people on staff that analyze this sort of thing on a regular basis, and if they don't, they could at least point you in the right direction.
1o amper
kw of 100kva=100*0.8 pf=80kw( if the power factor is 0.8)
You need to know the Primary and secondary voltages to do the calculation. we only have 100Kva transformers on our salt furnaces as an example: 100000va / 12v = 8333 amps the secondaries , wire, and electrodes are water cooled.
A 100kVA transformer is rated for...100kVA. That is its' power rating, and it is based off the current that is flowing through the transformer (the I^2*R losses are the limiting factor). This can be 80kW and 60 kVARs, or 100kW and 0 kVARs, or 100kVARs, or anywhere inbetween.Another AnswerThe 'power' rating of a transformer is the product of its secondary voltage and its secondary current, expressed in volt amperes or multiples thereof. It's not expressed in watts, because to know the 'true power' of the transformer, the manufacturer will need to know the power factor of the load, and that could vary considerably. Incidentally, the symbol for kilovolt ampere is 'kV.A', not 'kVa'.
It's not - I have seen 50kVA, 100kVA,...15000kVA, 36000kV, 180000kVA to name a few examples. Near where I live, I don't believe there are more than a few transformers rated in multiples of 11 as you state.
at 80% load approx 11 liters an hour
at first point you should determine the also the secondary voltage of the transformer, secondly you should explain what is the application of this transformer. if you want a special transformer, it is you to decide how much power is needed to be transferred via transformer, and designer tells you it is economical or not. by the way, if i want to refer you to a standard close to your application, following sizes are available for a 20kv/400v transformer: 50kVA,100kVA, 150, 200,315,500,630,800,1200,1600,2000,2500 and 3500kVA i hope this helps you
single slice 50KVA, Four slice 100KVA , 16 Slice 125KVA
RM-Conductor of Multiple stranded wires of circular cross section.
i will try my best to answer this quistion, but u must not mind if i make a mistake! >>> the rating of an elctrical machine depend upon the loses in it. if, there are any losses in the machine due to power factor than the machine will b rated in KW and if there is no loss due to power factor than the machine is rated in KVA. so there are no losses in a transformer due to power factor so it is rated in KVA. as the KW= KVA* power factor so, kVA= KW/power factor here, KVA=100 so, KW= 100*power factor u can derive from here that the load on a transformer depends upon the power factor. as the power is always less than unity so the load will be less than 100KW. thankyou!
There is not enough information to answer the question. A DC generator is never described in kVA because DC generators are specified in terms of kilowatts.
If you want 100kVAR from a capacitor bank, you must install a 100kVAR capacitor bank. If what you're asking is related to how much capacitance it will take to offset a poor power factor, it is directly related to your load, and cannot be answered without more details - for power factor correction, you don't want to over correct (you would be buying too much equipment, and it could actually make your power factor look worse), so load profiles must be taken into account. Can the capacitors be switched on automatically, or must they be manually switched? What voltage level? The best way to determine this is to discuss with your local power company. They usually have people on staff that analyze this sort of thing on a regular basis, and if they don't, they could at least point you in the right direction.