You don't. Volts and Watts are two different units. That's like asking me to convert distance and speed. Multiply your 277 volts by an amperage value and that will equal watts. Any product over 999 watts will be in kWs. 1000 watts = 1 kW, just move the decimal place 3 places to the left for kilowatts
Kw can be calculated from volts be using the formula p=(voltage)square/resistance*1000
You should not need a wiring diagram. If the generator has a star point (wye) connection then the phase voltage to ground (star point) is 277 volts. 480/1.73 = 277.
You cannot convert 2.6 kw to amps with that information only. In order to convert watts to amps, you also need to know either current or voltage. This is because watts is volts times amps, and volts is current times resistance
96 kW means 32 kW from each phase. If the load is star connected each resistor has 277 volts across it and carries 32,000/277 amps, 115.5 amps. The load resistors are 277/115.5 ohms or 2.40 ohms If the load is delta connected each resistor has 480 volts across it and carries 66.7 amps. The load resistors are 480/66.7 ohms or 7.20 ohms. In both cases the line current is 115.5 amps.
1.44 kw
To convert 15 amps at 415 volts to kilowatts, use the formula: kW = (amps x volts) / 1000. So, kW = (15 A x 415 V) / 1000 = 6.225 kW.
To calculate the current in amps, you can use the formula: Amps = Watts / Volts. For 499 kW at 208 volts, first convert kilowatts to watts: 499 kW = 499,000 watts. Then, divide by the voltage: 499,000 watts / 208 volts = approximately 2395.19 amps.
watts = volts x amps kilowatt = 1000 watts
The value of 4.9 kW is equal to 4900 watts. Use the following equation to find the amperage for your question. I = W/E, Amps = Watts / Volts.
To convert amps to kilowatts (kW), you can use the formula: kW = (Amps × Volts) / 1000. For example, if you're using a standard voltage of 240 volts, then 150 amps would equal 36 kW (150 × 240 / 1000 = 36). If the voltage is different, just adjust the calculation accordingly.
A kw (kilowatt) is 1000 amps x volts. If you assume your one phase system has 120 volts, then divide by 120. Cheap, but close enough for most work, assume 100 volts, then each amp is a tenth of a kilowatt.
Kw can be calculated from volts be using the formula p=(voltage)square/resistance*1000
To convert horsepower (hp) to kilowatts (kw), you can use the conversion factor of 0.746. Therefore, for a 100 hp motor, the power in kilowatts would be 100 hp * 0.746 = 74.6 kW.
From a three phase four wire distribution system the voltages would be as follows. From L1 to N - 277 volts. From L2 to N - 277 volts. From L3 to N - 277 volts. From L1 to L2 - 480 volts. From L2 to L3 - 480 volts. From L3 to L1 -480 volts.
To convert from kilowatts (kW) to amps in a 3-phase system, you can use the formula: Amps = (kW × 1000) / (√3 × volts). In this case, with 42 kW and a voltage of 120208 V, the amperage would be around 139 amps.
Power is obtained using the equation: Power (Watts) = Voltage (Volts) x Current (Amps) To convert to Watts to Kilowatts (kW), simply divide by 1000 (or shift the DP left by 3 places). eg. 5000W = 5kW Bringing these together: Kilowatts = ( Volts x Amps ) / 1000
You should not need a wiring diagram. If the generator has a star point (wye) connection then the phase voltage to ground (star point) is 277 volts. 480/1.73 = 277.