If there are 93,000 btu's per gallon of propane, and you are burning 25,000 per hour. That would be 3.72 hours per gallon or approx .27 gallons per hour. 6.45 gallons per day.
x BTUs / 3412.141633128 BTUs/KWH = KWH For example: -------------- If you burned 1,000,000 BTUs per month, then calculate the following: 1,000,000 BTUs / 3412.141633128 BTUs/KWH = ~293 KWHs per month Notes: ------- 1. Energy = the capacity/measure of a body/system to do work (expressed as the work that it does in changing to some specified reference state. It is measured in joules (SI units)). 2. 1 Joule = 1 Watt-second 3. 1 BTU = 1055.05585262 Joules (or Watt-seconds) 4. 1 WH (Watt-Hour) = 3.412141633 BTUs created/used in 1 hour = 3600 Joules or Watt-seconds (i.e. 1 Joule or Watt-second created/used every second for 1 hour) 5. 1 KWH = 1000 WH = 3412.141633 BTUs created/used in 1 hour = 3,600,000 Joules or Watt-seconds created/used every hour (i.e. 1000 Joules or Watt-seconds created/used every second for 1 hour) ======================================================== (1 KWH) = (1,000 watt-hour) = (1,000 joule / second) (hour) (BTU / 1055 joule) (3,600 sec / hour) = [ (1,000 x 3,600) / (1,055) ] [ joule - hour - BTU - second / second - joule - hour ] = 3412.3 BTU That's the amount of energy equivalent to 1 KWH . . . . . 3,412.3 BTU.
The specific heat of water is 1 BTU per pound per degree Fahrenheit. There are 8.3378 lbs/gallon at 60 degrees, which equals 3251.742 pounds of water. The number of BTUs to raise it 188 degrees is then 611,327.496 BTUs.
A 100 pound propane tank has a capacity of 2,160,509 BTUs
Number of BTUs not relevant to this. A 1350 watt heater is 1.35 kilowatts. When operating one hour, will consume 1.35 KWhours. 1.35 x .07= your answer per hour.
Assuming we are talking about 2300 BTU per hour, take 2300 and divide by the number of BTUs per watt-hour, 3.414, giving 673 watts. Then divide this by the voltage, 240, giving 2.81 amps.
Depends on the BTUs of the heater.
35000 BTUs per hour of usage for a standard sizing installation. As low as 22000 BTUs for smaller units.
There are about 1030 BTUs in a cubic foot of natural gas. If one wishes to know the gas consumption (in feet3 per hour) for a given BTU per hour usage rate, one would divide the amount of BTUs by 1030. That would yield the number of cubic feet of gas that is used per hour. Q: I'm heating a space using 10,300 BTUs per hour and I'm using my natural gas heater to do it. How many cubic feet of gas am I using per hour? A: 10,300 BTUs (the heat generated per hour) divided by 1030 (the number of BTUs per cubic foot of gas) equals 10 cubic feet. You're using 10 cubic feet per hour. You apply 10,300 BTUs to heat the space per hour, and you use 10 cubic feet of gas per hour to do that. (And yes, I picked easy numbers.)
There are at least 5 different definitions for slightly different BTUs. One of them says that 1 kWh = 3412.14 BTUs. Let's use that one. 1 kWh = 3412.14 BTUs 12 kWh = 40,945.68 BTUs
5 cuft per hour and its measured in btus
x BTUs / 3412.141633128 BTUs/KWH = KWH For example: -------------- If you burned 1,000,000 BTUs per month, then calculate the following: 1,000,000 BTUs / 3412.141633128 BTUs/KWH = ~293 KWHs per month Notes: ------- 1. Energy = the capacity/measure of a body/system to do work (expressed as the work that it does in changing to some specified reference state. It is measured in joules (SI units)). 2. 1 Joule = 1 Watt-second 3. 1 BTU = 1055.05585262 Joules (or Watt-seconds) 4. 1 WH (Watt-Hour) = 3.412141633 BTUs created/used in 1 hour = 3600 Joules or Watt-seconds (i.e. 1 Joule or Watt-second created/used every second for 1 hour) 5. 1 KWH = 1000 WH = 3412.141633 BTUs created/used in 1 hour = 3,600,000 Joules or Watt-seconds created/used every hour (i.e. 1000 Joules or Watt-seconds created/used every second for 1 hour) ======================================================== (1 KWH) = (1,000 watt-hour) = (1,000 joule / second) (hour) (BTU / 1055 joule) (3,600 sec / hour) = [ (1,000 x 3,600) / (1,055) ] [ joule - hour - BTU - second / second - joule - hour ] = 3412.3 BTU That's the amount of energy equivalent to 1 KWH . . . . . 3,412.3 BTU.
1MW = 1000 KW 1KW = 860 Kcal/Hour 1 Kcal = 3.968 BTu.
60 000 thousand btus
Type your answer here... there are around 91,600 BTUs in a gallon of propane. The standard BBQ sized bottle of propane contains 11 pounds of propane. Propane weighs about 4.2 pounds per gallon, so that 11 pounds of propane is about 2.5 gallons in its liquid state. That means there is 91,600 BTUs/Gal times 2.5 gallons so a BBQ sized tank of propane contains about 2.3 million BTUs. If your BBQ has a 50,000 BTU burner, on high heat, it will last a bit over 4 and half hours of run time.
The specific heat of water is 1 BTU per pound per degree Fahrenheit. There are 8.3378 lbs/gallon at 60 degrees, which equals 3251.742 pounds of water. The number of BTUs to raise it 188 degrees is then 611,327.496 BTUs.
1 gallon of Propane ~= 4.23 lbs ~= 91500 Btus 1 lbs of Propane ~=22000 Btus 20 lb tank of propane holds approx 4 gallons of propane (366000 BTUs) Your grill will last 366000 BTUs/ Grill BTU output hrs
Well, unfortunately there are different BTUs, each a slightly different quantity of energy.The BTU (ISO) is 1054.5 joules exactly. Let's use that one, and avoid some rounding.10 kW = (10,000 joules/second) x (3,600 seconds/hour) x (1 BTU/1,054.5 joules) = 34,139.4 BTU/hour