It is not advisable to run lower voltage motor on a higher voltage.
20 HP Three phase 360 volt what is the amps
On a three wire supply system if you connect the two 110V wires together and they are across the phase they will short out and trip the breaker. If the two 110V wires are supplied from across the phase and connected to a motor then the motor will run. If the 110V wires are on the same phase nothing will happen.
317.025280 KILOWATTS = 317,025.28 WATTS
Only with a 3 phase transformer.
probably about 50 hp depending on how reliable the efficiency ratings of the various manufacturers are
Yes.
Yes, but the motor's horsepower rating will not be reached.
You can not change it. 440 volt is by design. However you run it with 220 single phase supply, but it would run far lower power.
Use a transformer.
If the motor wire numbers are L1, L2 and L3, it is not a single phase motor. It is a three phase motor. Also for future reference, a 220 volt single phase motor does not use a neutral.
No, it is not recommended to run a 570 volt motor on a 480 volt power supply. The motor is rated for a specific voltage to ensure optimal performance and prevent damage. Running the motor at a lower voltage could result in overheating and premature failure.
There are no three phase 120 volt systems.
220 volt single phase from 480 volt 3 phase that one wire taken one phase and second wire connected in earth point. we get 220 v The above answer is incorrect, one phase from a three phase 480 volt system will give you 277 volts to ground. You must use a transformer to get the voltage you need.
Yes this size motor can be operated by bringing a 600 volt three phase supply to it.
Yes a 208 voltage motor will operate on 220 volts. You have to increase the motor overload protection by 10% of the motor's full load amperage to protect the motor.
The systems are one in the same. Yes.
It is not recommended to supply a 240 volt single phase motor with only one phase until the other phase is closed. This can cause imbalanced current flow, leading to motor overheating and potential damage. It is best to provide both phases simultaneously to ensure proper operation of the motor.