Depends on what the stove fires at.40 btu
Well, honey, to change ice at 20 degrees F to steam at 220 degrees F, you'd need to go through a whole rollercoaster of phase changes. It takes 144 BTUs to melt one pound of ice, and 970 BTUs to turn one pound of water into steam. So, for five pounds of ice, you're looking at a total of 7,070 BTUs to go from ice to steam. Hope that helps, sugar!
11800 BTU/hr is 3.46kW
One million btu equals 10 therms. One hundred thousand btu equals one therm.
The temperature can not be calculated by the wattage of the hair dryer. There are other variables such as blower size and velocity speed of the air, size of the opening where the air comes out.
my aircondition is 13000 btu on 220 volt ac is how many watts
First you need to find out how many amps the heater draws. Then use this formula: Volts (220) X Amps = Watts Then take: Watts x 3.41214 = Btu/hr
If you're in Celsius, 13459.5 Btu's. If you're in Fahrenheit, 12632.5 Btu's.
A btu is a measure of energy, but 18,000 btu per hour is a power of 5.22 kW, which is 5220/220 amps, 24 amps.
The recommended square footage for a room that requires a 9000 BTU air conditioner is around 350-400 square feet.
At least 8000 btu
130000 btu
It should tell you in the user instructions or installation manual, or on a nameplate. However, you can estimate the load by converting btu/hr into watts then dividing by the voltage you're using (e.g., 220, 110). 10,000 / 3.412.. is 2931 watts. At 220 volts it would draw 13.3 amps (or slightly more for inefficiencies in the compressor, fan, etc), while operating normally. Because this is more than 80 percent of the next-lower-rated breaker of 15A, you would install a 220-v breaker for a minimum of 16A (i.e., the next available size for your panel).
The average size chicken puts out about 8 BTU's per hour. This number can be lower or higher depending on the size and type of chicken.
The recommended room size for a 9000 BTU air conditioner is around 350 to 400 square feet.
The BTU usage depends on the size generator. What you need to know to figure this out is the fuel type (propane or natural gas) and the size of the generator (usually measured in kilowatts or KW) and the size of the engine. Once you know these things, you can calculate the BTU. The easiest way is to ask the sales person or manufacturer. They can tell you the BTU.
230,000 btu