6500 kW at 240 v would need 6,500,000/240 amps, in other words 27,000 amps. That is not practicable. This amount of power would need to be supplied at a much higher voltage, e.g. 11 kV or 33 kV, 3-phase.
For a 70 amp service at 240 volts, you would typically use a wire size of 4 AWG copper wire. This wire size is suitable for carrying 70 amps of current safely over a 240 volt circuit. Be sure to consult local electrical codes and regulations to ensure compliance with requirements in your area.
The sizing of wire is calculated by the amount of current the circuit draws. To find the amperage when the wattage is known use the following formula, Amps = Watts/Volts. 6500/240 = 27 amps. A #10 AWG copper conductor will limit the voltage drop to 3% or less, when supplying 27 amps at 240 volts for a 100 foot distance.
by the size of the load they are connected to. a general lighting circuit in a home should be 500 sq feet. an appliance will have it's connected load on the name plate. all electrical components [ plugs, cord, wire, anything electricity flows through] must be DERATED 20 %. if your load is 30 amp 240, add 6 amp[20%]to the 30, for 36amp. the closest wire size is #8.
Answer for USA, Canada and countries running a 60 Hz supply service.240 volt two wire circuits loads do not need a neutral to operate. A three wire 240 volt circuit that needs a neutral, will have a neutral the same size as the current carrying conductors. In this case a #10.
Generally, if the electrician did it right, the BLACK wire is HOT, and the WHITE wire is NEUTRAL. Meaning that the white wire is the center tap of the main transformer, and the black wire(s) are either leg of the 240 volt output. Since the hot to center tap only takes half of the 240, it ends up being 120 volts at your outlet.
Yes 220 & 240 are considered the same.
For a 70 amp service at 240 volts, you would typically use a wire size of 4 AWG copper wire. This wire size is suitable for carrying 70 amps of current safely over a 240 volt circuit. Be sure to consult local electrical codes and regulations to ensure compliance with requirements in your area.
The sizing of wire is calculated by the amount of current the circuit draws. To find the amperage when the wattage is known use the following formula, Amps = Watts/Volts. 6500/240 = 27 amps. A #10 AWG copper conductor will limit the voltage drop to 3% or less, when supplying 27 amps at 240 volts for a 100 foot distance.
For a 30 amp 240 volt circuit, a wire size of 10 AWG should be used.
For a 240 volt 40 amp circuit, the appropriate wire size is typically 8 AWG (American Wire Gauge) for copper conductors.
The appropriate wire size for a 40 amp 240 volt circuit is typically 8 AWG (American Wire Gauge) for copper wire or 6 AWG for aluminum wire. It is important to consult with a licensed electrician to ensure the correct wire size for your specific installation.
For a 240 volt, 50 amp circuit, you typically use a minimum of 3/4 inch conduit for copper wire and 1 inch conduit for aluminum wire, assuming you are using THHN or THWN wire. The specific size may vary based on the number of conductors and any bends in the conduit. Always consult local electrical codes and the National Electrical Code (NEC) for precise requirements and adjustments based on your specific installation conditions.
3/0 wire 3/0 wire
For a 40 amp 240 volt circuit, a wire size of at least 8 AWG (American Wire Gauge) should be used to ensure safety and proper functioning of the circuit.
When selecting a 240 single phase electrical system for residential use, key specifications to consider include the voltage rating, current capacity, circuit breaker size, wire gauge, and compatibility with household appliances.
You size wire by the current. Various insulations are rated for voltage, temperature and the medium where the wire will be run.
In Europe we would like to see that on 6mm square conductors