We found the following definition on the www: 1 BTU = 1,055.05585 joules Using that, 340 BTU/sec = 358,719 joule per second = 358.719 KW. Really an awful lot of power ! From this little exercise, we're going to remember the following: 1 BTU = a little more than 1,000 joules 1 BTU/sec = a little more than 1 kilowatt
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
1 Megawatt = 1000 Kilowatts so 30 Mw = 30*1000 kw = 30,000 kw.
1 litre for 1 degree in 1hour is 1,16 kW/h
Depends upon the Kw rating of the generator. The higher the Kw rating the more fuel will be used.
1663170 BTUs/hr is equivalent to approximately 486.856 kilowatts.
Btu x 0.000293 = kW 15000 X 0.000293 = 4.4kW
1 kilowatt is equivalent to 3,412 BTUs (British Thermal Units). This conversion factor is commonly used to compare the energy output of different heating and cooling systems.
There are 5,118 btu's in 1.5 kW.
There are approximately 20,472 BTU in 6 kW.
9.7 kW is equivalent to approximately 33,137 BTU.
The answer: 17070 BTU The math: 3414 BTU = 1 KVA (KW) so 5 KVA = 17070 BTU
1 BTU = 0.000292875 kW
1 kW is equal to 3412 BTU per hour.
65,000 BTU per hour equates to 19.05 kW
34kW is 116,012.828 BTU/hr
14,500 BTU/hr is 4.25kW