Typically 75 amps on natural gas, 85 amps using propane. Peak amps(for less than a second) to start a big appliance, like an A/C condenser, are 130.
To determine the current in amps produced by a 10 kV generator, you need to know the power output in watts. The formula to calculate amps is: Amps = Watts / Volts. For example, if the generator produces 10 kW (10,000 watts), the current would be 10,000 watts / 10,000 volts = 1 amp. Therefore, without knowing the specific power output, the amperage cannot be determined.
Full load amps for a three phase, 375KVA generator is 375 / (voltage in kV) / sqrt(3).
A 5.5 kW generator produces 5,500 watts of power. This is the maximum power output that the generator is capable of producing under optimal conditions.
The equation you are looking for is Amps = Watts/Volts. To change kW to watts, multiply kW x 1000.
If the service is single phase 200 amp then you would need a, W = A x V, 200 x 240 = 48000 watt generator. Since there are no 48kW standard generators you would have to use a 50 kW generator. If your home distribution panel is 100 amps then a 25 kW generator will work.
There are zero kW in 32 amps. Watts are the product of amps times volts. Once you find the voltage of the system multiply it times 32 amps and then divide that answer by 1000. This will give you the answer in kW.
Use the following equation, kW = Amps x Volts x 1.73 x pf/1000.
To completely power everything you would need a 12KW generator. However in an emergency you can live with a 5.5KW generator. You will not however be able to run an electric oven at all. To run an electric water heater almost everything else will have to be shut off. You will have to ration the power.
First you need to specify what voltage you require the generator to supply...Lets Assume its 240 Volts AC. Watts=Volts x Amps so 240x1200= 28.8 Kw. Then you have to take the efficiency of the generator into account. Mechanical power in is usually quite a bit more than the electrical power you get out...The difference is mostly the mechanical and thermal losses added together. If we say the generator is 70% efficient then you will need a generator 30% more powerful to supply a constant 1200 Amps...Thats a generator of about 38-40 Kw.
5.274 KW
Depends on the voltage. Watts are volts x amps.
You will need a 50 kW generator for a single phase 120/240 volt service.