400 watt hours = 1,364.86 BTU
8500 BTU = 2.5 kilowatt hours.
6.5 kW-h is about 22,178.9 BTU.
BTU is a measure of energy, while a kilowatt is a measure of power. Energy is power times time. Energy: measured in BTU or kilowatt-hours Power: measured in BTU/hour or kilowatts. 100,000 BTU equals about 29 kWh so a 1 kW heater produces about 3400 BTU per hour.
1 HP = 2545 BTU/hour So 10000 is about 4 HP
there are 100.000 btu's in a therm.
366,000 BTU = 107.264012 kilowatt hours.
You are comparing apples and oranges. BTU's are a measure of heating capacity and hours are a measure of time.
35,000 BTU = 10.2574875 kilowatt hours.
8500 BTU = 2.5 kilowatt hours.
6.5 kW-h is about 22,178.9 BTU.
One sheet of paper produces 1.163 miiliwatt hours, and 0.00396832 British thermal units (Btu).
Does not computeKilowatts do not convert to BTU and vice versa. The watt is a unit of power, whereas the BTU is a unit of energy. Perhaps you meant BTU/hr. 1.5E5 BTU/hr = 43.96 kilowattsYou could do a direct conversion into Killowatt hours though one would assume.1.5E5 BTU = 43.96 KWh
BTU and kilowatt-hours are measures of energy, while power is measured in either kilowatts or BTU per hour. 1 kilowatt-hour is equal to 3412 BTU, or 1 kilowatt equals 3412 BTU/hr. 8000 BTU per hour is equal to 2.344 kilowatts, which is 19.53 amps at 120 v.
If you mean BTU as in British Thermal Units cars generally have 3 to 5 ton airconditioners. A 12,000 BTU/hour cooling capacity is equivalent to 1 ton of refrigeration. The BTU equivalent of 1 ton of refrigeration is 288,000 BTU per 24 hours.
BTU is a measure of energy, while a kilowatt is a measure of power. Energy is power times time. Energy: measured in BTU or kilowatt-hours Power: measured in BTU/hour or kilowatts. 100,000 BTU equals about 29 kWh so a 1 kW heater produces about 3400 BTU per hour.
1 HP = 2545 BTU/hour So 10000 is about 4 HP
Depends on the size of the burner, if the unit is 5000 btu's ,( probably much smaller), but it makes the math easy that would run a fridge (full throttle) for 20 hours. The flame cycles, so it won't use that non stop. To make it easy., divide the amount of btu's into 93,000 (roughly the btu's in a gallon of propane) and you will have your answer