366 kilowattshours. Power equals watts.
If what you want to know is "I got billed for 366 kWh, How much energy is that, and is it possible my house used that?" a single 60W light bulb left on all the time in a month will use .06 kW per hour or 43.2 kWh per month, so 366 kWh is about 7 60W light bulbs left on full time. A 9W CFL-60W equivalent will use .009Kw per hour or 6.48 kWh per month, 366kWh at that rate is over 50 lights on full time.
Use CFL's and be vigilant to keep people from leaving electrical items on. Replace CRT TV's with LED or LCD TV's, turn off computers immediately when not using them. Charge laptops and cel phones at work (fully charged electronics chargers still use energy). Unplug all vampire electronics (cable modems, cable set top boxes, sat boxes, microwaves, toasters, coffee makers, anything with a display or a clock) many devices have Transformers that use energy even when off. Replace electric tanks style water heaters with point of use tankless water heaters and use the old water tank to store water in an attempt to get public water to room temp or add a boiler circulator pump and a solar loop to use the sun to pre-heat "hot" water. Dry as much clothes as you can by hanging them to dry. It is up to you to stick it back to the electric utilities and there government guaranteed profits for the shareholders.
We are a household of 5, our average electric bill was just over 25 kWh before we added our solar panels, we used to shove over 35kWh back into their filthy system, receiving 1/4 the current market rate. We now power our 2 neighbors and get 1/2 the market rate for the power.
A 450-watt bulb consumes 450 watts of electrical power when it is turned on. If it operates for one hour, it will use 0.45 kilowatt-hours (kWh) of energy. The cost of running the bulb will depend on your local electricity rates, which are typically charged per kWh. For example, if the rate is $0.12 per kWh, running the bulb for one hour would cost about $0.054.
I pay .07 cents a kWh.
voltage is pressure and kWh is energy... therefore pressure is energy...
Remember that 1 kW = 1000 W So 100 / 1000 = 0.1 100 W = 0.1 kW You take the power - the wattage of the lamp, and multiply with how long it is lit. A 100 W bulb - 0.1 kW - will use 0.1 kWh in one hour. Or 1 kWh in 10 hours. Or 10 kWh in 100 hours.
To convert kilowatt-hours (kWh) to cubic meters (m³) of natural gas, you need to know the calorific value of the gas, which is typically around 9.5 to 11 kWh per cubic meter, depending on the gas composition. The conversion can be done using the formula: m³ of gas = kWh / calorific value (kWh/m³). For example, if the calorific value is 10 kWh/m³, then 100 kWh would equal 10 m³ of natural gas. Always check the specific calorific value for more accurate conversions.
Dinorwig is a 'pumped storage' hydro power facility. It has a capacity to produce 1.89GW of electricity, which equates to 6.8TWh. I terms of kWh, this would be 6.8E9 kWh or 6,800,000,000 kWh. (6.8 billion kWh).
21 billion KWh per year
To calculate the kWh produced by a 12 MW power plant in 24 hours, you would multiply the power output in MW by the number of hours and convert it to kWh. In this case, 12 MW x 24 hours = 288 MWh, which is equivalent to 288,000 kWh.
2,598,000,000,000 kWh a year, that was estimated in 2008.
The answer to this question is zero. There is no kWh given.
Multiply the figure by your cost per kwh. The kwh cost is available from your local power company or utility. For instance, if a kwh was priced at 7.6 cents/kwh, then the total cost would be a bit over $30.
There is no difference in the meaning of kWh or KWH. Both forms of writing kWh mean "kilo watt hours," and the format acceptable to most in the technical community is "kWh."AnswerThe correct symbol for kilowatt hour is kW.h.
KW is the unit power KWh is the unit of electrical energy KW or Watt defines the rating or power of a electrical equipment. For ex: motors, heaters etc. KWh is a measurement that how much energy is been consumed by the electrical equipments. Generally, operating 1KW rated equipment for an hour measures one KWh. Energy meters are the instruments for this purpose
The energy cost depends on the size of the system. Large concentrated systems cost $0.10-$0.15 per kWh. Medium and small scale systems can cost from $0.25-$0.50 per kWh, when averaged.
To find out the cost of operating 60 1000watt Metal Halide lamps for 10 hours, you multiply the amount of power (in kilowatts) by time and hours. That will give you kWh (kilowatt hours), then you find out how much your power costs in $/kWh, then divide the kilowatt hours you are using by the cost ($/kWh).
electrical energy (in kWh) = electric power (in kWh) X time (in hours) E=Pt
The cost to produce 1 kWh of electricity from nuclear power can vary widely depending on factors such as operation and maintenance costs, initial construction costs, and fuel costs. On average, it can range from 3-6 cents per kWh.