The average city consumes around 100-600 megawatts of electricity, depending on its size, population, and level of industrial activity. The energy demand can vary greatly based on factors such as climate, infrastructure, and economic activities.
To convert megawatts thermal to Btu, you can use the conversion factor of 1 MW (thermal) = 3,412,141 Btu/h. Therefore, to convert, simply multiply the number of megawatts thermal by 3,412,141 to get the equivalent in Btu.
The two megawatt wind turbines envisaged would be similar in size to those on Burgar Hill, Evie.
Power station output varies widely as a function of what is being used as a power source. There are upper limits like the number of turbines that can take advantage of water behind a dam. Too many turbines will draw the water level down quickly and output will diminish. Nuclear reactors can be constructed that are "so big" and are designed with an upper limit on size. Only by adding more reactors can output be increased. Same with coal fired power plants. That's the upper limit as regards commercial power plants. Lower limits on power stations will follow dictates of economy and availability of energy resources. Commercial power plants produce anything from a few kilowatts to several megawatts or several tens of megawatts. There are a number of variables, and they can be assessed with some thought. Use the link below to the Wikipedia article on power stations and check out those variables.
The average yearly electrical consumption around the world for those areas that have electricity is 3,500 kilowatt hours. In the United States the average is almost 11,000 kilowatt hours.
To use a displaced moving average, you calculate the moving average and then shift it to the right or left by a specified number of periods. This helps in smoothing out the data and providing a clearer indication of the underlying trend. Traders often use displaced moving averages to identify potential entry or exit points in the market.
435000 megawatts.
To convert megawatts thermal to Btu, you can use the conversion factor of 1 MW (thermal) = 3,412,141 Btu/h. Therefore, to convert, simply multiply the number of megawatts thermal by 3,412,141 to get the equivalent in Btu.
"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.
The hydroelectric generator made 5 megawatts of electricity every day.
800 000 Watts / 600 Volts = 1333.3333333 Amps
It gets an estimated EPA average for Automatic is 21 city/26 Highway, and for Manual is 21 City/27 Highway.
The power needed to power a railgun can vary depending on its size and intended use, but it generally ranges from tens of megawatts to hundreds of megawatts. This power is required to generate the electromagnetic forces that accelerate the projectile to high velocities.
Average electric power used in Australia is 1.1 kW per person averaged over 1 year. ACT has 370,000 people so the average power used is 400 Megawatts. The supply probably has the capacity to supply 2-3 times that at times of peak usage, usually in hot weather when aircon is in use widely.
The hydroelectric generator made 5 megawatts of electricity every day.
about an average of 4-7
50 gallons on average
The cost of a city electricity bill will vary greatly depending on one's location, how big their home is, how many people live there and how much electricity they use. On average it might be between $120 and $200 a month.