yes can run but motor only delivers 90%rated power because v/f less by 10%
The the supply stays within +/- 5% of what the motor is rated for, you can do this.
One way would be to hook it up to a supply (by itself, with no load) and measure the speed with a contact tachometer. If your supply is 60Hz, and the motor speed corresponded to one of the standard motor speeds, it would be a pretty safe bet you had a 60Hz motor. If the speed was about 20% faster than a standard speed, the motor is probably a 50Hz motor. Or 20% slower if you were running a 60Hz motor on 50Hz For instance, a 1750 RPM 50Hz motor would spin at about 2100 RPM if you ran it on 60Hz.
3 phase reverse relay can be utilized to control 480V motor 60HZ for controlling their speedspeed.
A motor-generator or a solid state power converter can do this.Motor-generators are an old electromechanical technology. In this case you would use a 240V 50Hz synchronous motor and a 110V 60Hz generator with their shafts connected so the motor turns the generator.Solid state power converters use a high power rectifier to convert the input AC to DC, a precisely tuned oscillator to set the output frequency, and a high power class AB push-pull amplifier powered by the high voltage DC and driven by the oscillator to generate the output voltage.
If you can use it in your lamp it will be a 20 watt bulb
The the supply stays within +/- 5% of what the motor is rated for, you can do this.
You can use a voltage converter to step down the 460V 3 phase motor to match the 380V 50Hz supply. Make sure the converter can handle the motor's current requirements. It's also advisable to consult with an electrician to ensure safe and proper installation.
It will not work at all.
Yes, however, the RPM will increase by 20%, if the motor is connected to a shaft or driving something that can not handle the torque, then you might run to heating issues or performance issues.
One way would be to hook it up to a supply (by itself, with no load) and measure the speed with a contact tachometer. If your supply is 60Hz, and the motor speed corresponded to one of the standard motor speeds, it would be a pretty safe bet you had a 60Hz motor. If the speed was about 20% faster than a standard speed, the motor is probably a 50Hz motor. Or 20% slower if you were running a 60Hz motor on 50Hz For instance, a 1750 RPM 50Hz motor would spin at about 2100 RPM if you ran it on 60Hz.
The motor will run, probably at nearly the same speed, but it cannot supply the same mechanical load. If it can be run on a lighter load, proportional to the voltage, it should be OK.
What effect will be there on the motor (Induction) output power when a 100kW 50hz motor is connected to a 60hz power supply.
Not advisable, the voltage differential is too great.
To run a 380VAC 3-phase 50Hz motor on a 220VAC 3-phase 60Hz supply, you would need to use a voltage converter to step up the voltage from 220VAC to 380VAC. Additionally, you may need to adjust the motor's parameters to account for the difference in frequency between 50Hz and 60Hz, such as adjusting the motor's speed rating and ensuring the motor does not overheat due to the increased frequency. It's important to consult an electrician or motor specialist to ensure safe and proper operation.
Generally this will be possible. To keep the motor energized correctly you need to keep the volts per hertz roughly at nameplate (so 7.6 volts per 1 Hz). 460/60 = 7.66 volts per hert. I would still verify with the motor manufacturer that it is OK to use in the fashion you are planning, though.
Yes. It will make your motor a little faster though, so it depends on what you are powering with this motor. IE Can the piece of eguipment be ran faster?
Obtain the services of an Electrical Engineer 1. BUY OR PROVIDE A STEPUP TRANSFORMER WITH A MINIMUM 50 KVA RATING 2. PRIMARY VOLTAGE INPUT= 400V AND SECONDARY VOLTAGE OUTPUT=460V 3. CHANGING FREQUENCY FROM 60HZ TO 50HZ HAVE THE FF. EFFECT IN THE ELECTRICAL AND MECHANICAL PARAMETERS; A. MOTOR RATED HP OR KW WILL HAVE A REDUCTION OF ABOUT 10% B. MOTOR NAMEPLATE EFFICIENCY RATING WILL HAVE A REDUCTION OF ABOUT 17% C. FULL LOAD RUNNING TORQUE WILL INCREASE ABOUT 8% 4. AFTER THOROUGH ASSESSMENT ON THE EFFECT OR IMPACT OR PRACTICALITY OF APPLICATION-PLEASE CONSIDER ECONOMICS. ANYWAY WE ARE DISCUSSING ONLY SOLUTION BASED ON THE GIVEN SITUATION NOT SOUND ENGINEERING.