What I think you mean, is, "How many kilowatt-hours could a 600 watt turbine produce in a month?" The answer is, not more than 432.
The maximum would be 200 x 240 = 48 kilowatts assuming you had normal 3 wire service. However, your home would never use that much. Average would probably be about 3 or 4 kilowatts, depending on time of day and your heating and air-conditioning systems. Your electric utility bill probably tells you how many kilowatt-hours you used in a month. Just divide this by 730 which is the number of hours in the average month, and that will give your average load in kilowatts for that month.
To convert from kilowatts (kW) to British Thermal Units (BTU) per hour, multiply by 3412. Therefore, a 5kW heater would produce 5 * 3412 = 17060 BTU per hour.
A 200 kilowatt nuclear power source can potentially power small-scale applications like homes or small businesses. It could also power machinery or equipment in an industrial setting, depending on the energy requirements of the specific operation.
To convert horsepower (hp) to kilowatts (kW), multiply the horsepower value by 0.7457. This conversion factor accounts for the difference in units between the two. For example, if you have 100 hp, the equivalent in kilowatts would be 74.57 kW.
The correct term is kilowatt-hour, or some multiple of that. One plant that I worked at could net 800 megawatts, so that would be about 576 gigawatt-hours, in a 30 day month. Some plants are larger. I know of some 1,200 megawatt plants, and that would be scaled accordingly, as 864 gigawatt-hours, both assuming continuous operation at full power. Scaled to the units requested in the original question, that 800 megawatt plant would be 800,000 kilowatt-months, and the 1,200 megawatt plant would be 1,200,000 kilowatt-months.
Every hour a 1 Megawatt turbine would produce 1,000,000 watts. That would be the equivalent of 1,000 Kilowatts.
To convert kilowatts to horsepower, you can use the formula: 1 kilowatt = 1.34102 horsepower. Therefore, to produce 48000 kilowatts, you would need 48000 x 1.34102 = 64314.96 horsepower.
The height of a wind turbine has no impact on the turbine's output wattage. The factors that effect the watts produced are: * The efficiency of turbine design (this is at most 59%) * the density of the air * the radius of the turbine (that is, the length of each fin) * the velocity of the wind passing through the turbine An 80 ft tall turbine would presumably have a fin length (that is, turbine radius) of at most 30 ft. Thus, at sea level on a 59 degree (F) day, in an 8 m/s (18mi/h) wind, with the most efficient turbine design possible, you would generate approximately 15.4 Kilowatts. See: http://en.wikipedia.org/wiki/Wind_turbine#Potential_turbine_power
The maximum would be 200 x 240 = 48 kilowatts assuming you had normal 3 wire service. However, your home would never use that much. Average would probably be about 3 or 4 kilowatts, depending on time of day and your heating and air-conditioning systems. Your electric utility bill probably tells you how many kilowatt-hours you used in a month. Just divide this by 730 which is the number of hours in the average month, and that will give your average load in kilowatts for that month.
To convert hours per month to kilowatts per hour, you would need to know the energy consumption for that month. Once you have the total energy consumption in kilowatt-hours for the month, you can divide it by the total number of hours in that month to get the average kilowatts per hour. This will give you the average power consumption rate over that month.
I would say 2500 kilowatts.
I would say... about 20% less
1450
360 kilowatts would power about 1000 TVs, indefinitely. If 360 kilowatts of power were used, the energy used in 1 hour would be 360 kilowatt-hours.
Turbine is not a change, a turbine is a mechanical device.
To convert from kilowatts (kW) to British Thermal Units (BTU) per hour, multiply by 3412. Therefore, a 5kW heater would produce 5 * 3412 = 17060 BTU per hour.
solar wind hydro are all possibilities if living in the mountains. Maybe solar is not the best but a wind turbine or water turbine would be possible. Depends on where you live and is water available is it windy etc