3,000,000
The number of homes that 2400 megawatts can energize depends on the average power consumption of a home. On average, a US home uses about 11,000 kWh per year. Assuming a continuous power supply of 2400 megawatts, you could potentially power around 1.8 million homes.
Average power consumption for a person in the UK is 650 W. Assuming an average load of 3 kW per household 102 MW would power about 34,000 homes, sometimes more, sometimes less.
"Watts" is a rate of using energy, not an amount of energy.A broad-brush ballpark average rate of energy use by a household,averaged over a very long period of time, is something like 1,000 watts.So 2,500 megawatts of power is the rate needed to power2.5 x 109 / 103 = 2.5 million homes.
According to the lists on the internet one pressurized water reactor can supply between 300 and 3000 Megawatts.
The time it takes to produce 500 megawatts of electricity depends on the power generation capacity of the plant. If the plant has a capacity of 100 megawatts, it would take 5 days to produce 500 megawatts.
1.2 million homes
The number of homes that 2400 megawatts can energize depends on the average power consumption of a home. On average, a US home uses about 11,000 kWh per year. Assuming a continuous power supply of 2400 megawatts, you could potentially power around 1.8 million homes.
The average household in the United States uses about 8,900 kilowatt-hours of electricity each year. That is 8.9 megawatts. So 781/8.9 = 87 homes.
Average power consumption for a person in the UK is 650 W. Assuming an average load of 3 kW per household 102 MW would power about 34,000 homes, sometimes more, sometimes less.
Well, isn't that a lovely question! On average, one megawatt can power around 1,000 homes, so 22,500 megawatts could power approximately 22.5 million homes. Just imagine all those happy little houses glowing with warmth and light!
Nothing.
The number of homes that one windfarm can power varies depending on the size and location of the windfarm, as well as the average electricity consumption per household. On average, a typical onshore wind turbine with a capacity of 2-3 megawatts can power around 500-900 homes per year.
"Watts" is a rate of using energy, not an amount of energy.A broad-brush ballpark average rate of energy use by a household,averaged over a very long period of time, is something like 1,000 watts.So 2,500 megawatts of power is the rate needed to power2.5 x 109 / 103 = 2.5 million homes.
According to the lists on the internet one pressurized water reactor can supply between 300 and 3000 Megawatts.
1 MW = 10 to the power 6 Watts (in the new wiki answers type face).
A power plant's capacity is typically measured in megawatts (MW), which refers to the amount of electricity the plant can generate at a given moment. The specific capacity of a power plant can vary widely depending on the type of plant and its size. For example, a large coal or nuclear power plant may have a capacity of several hundred megawatts, while a smaller solar or wind farm may have a capacity of a few megawatts.
The St. Clair Power Plant, located in Michigan, has a generating capacity of approximately 1,400 megawatts. This capacity can power around 1 million homes, depending on energy consumption patterns and demand. The actual number of houses powered can vary based on factors like the efficiency of the power distribution system and the specific energy needs of the homes in the area.