Answer:
A BTU is the amount of heat energy required to raise 1 pound of water by 1 degree Fahrenheit. So a 30,000 BTU burner can heat 30,000 pounds of water by 1 degree Fahrenheit. Any multiple of the amount of water and the temperature rise that yields 30,000 is equivalent.
And 30 000 BTU equal 31 651,68 kilojoules.
Usually it is more meaningful to rate a heating device in BTU/hour.
This is a power unit conversion from British thermal units per hour (Btu/hr.) to its equivalent in horsepower (hp). There are 2544.43 btu/hr. in one horsepower. Conversely, there are 0.000393 hp in one Btu/hr.
A BTU is a unit of energy, and (assuming you mean degrees Fahrenheit) 12500 BTU is not enough energy to boil two gallons of water. Doesn't matter if you put it in within the space of a second, or spend an hour doing it. That's not enough energy.
A 170,000 BTU (British Thermal Units) burner produces a significant amount of heat, equivalent to the energy needed to raise the temperature of 170,000 pounds of water by 1 degree Fahrenheit. In practical terms, this level of heat output is suitable for large-scale cooking applications, such as commercial kitchens or industrial processes. It can boil water quickly, heat large spaces, or power heavy-duty cooking equipment efficiently.
To determine the appropriate size orifice drill for a natural gas burner using 5,000 BTUs, you typically need to consider the gas pressure and the burner design. A common rule of thumb is that for natural gas, approximately 1,000 BTUs requires a drill size of about 0.025 inches. Therefore, for a 5,000 BTU burner, an orifice size of approximately 0.065 inches might be appropriate, but it's essential to consult manufacturer specifications or a gas sizing chart for precise requirements.
11800 BTU/hr is 3.46kW
30,000 btu
Not all double gas wall ovens have the same number of BTUs. For instance, BlueStar makes a double gas wall oven that has a 25,000 BTU burner and one that has a 30,000 BTU burner.
Gas ovens use about 18,000 BTU/hr Electric Ovens typically have a 3 kilowatt (kW) burner, which equates to about 10,236 BTU/hr
30000 btus for every 400 square ft
30000 btus for every 400 square ft
That is a 2 1/2 ton unit. One ton of A/C = 12000 btu. The 30 in the model number refers to 30000 btu.
A US gallon of water is about 8.4 lb, so 30,000 galls is 252,000 lb. One BTU is the heat to raise one pound of water by one degF, so BTU's in your example are 252,000 x 15 = 3,780,000 BTU.
That is a 2 1/2 ton unit. One ton of a/c equals 12000 btu of cooling capacity. The 30 in the model number represents 30000 btu.
18000 BTU means TON 1.5 ,12000 BTU means 1 TON
The optimal BTU rating for a gas range to ensure efficient cooking performance is typically between 12,000 to 15,000 BTUs per burner.
This is a power unit conversion from British thermal units per hour (Btu/hr.) to its equivalent in horsepower (hp). There are 2544.43 btu/hr. in one horsepower. Conversely, there are 0.000393 hp in one Btu/hr.
probably more than one second