The BTU is an Imperial unit of measurement for energy. The watt is the SI unit for power. The BTU and watt measures different quantities, so there are no 'BTUs per kilowatt'!
1MW = 1000 KW 1KW = 860 Kcal/Hour 1 Kcal = 3.968 BTu.
This conversion is very simple : and is 1 ton = 12,000 BTU/hour.So if you have a 3 ton of refrigeration you have 36,000 BTU/hour.In addition, I want to add that in some large Data Centers, there is a movement from BTU to kW of power used by equipment. This is probably driving the Tons/kW question that the HVAC engineers are telling people cannot be solved.1 Ton of cooling will eliminate 12,000 BTU/hr of heat.12,000 BTU/hr will be produced by 3.516 kW of power used by equipment.1 Ton of cooling will then handle 3.516 kW of equipment load based heat exhaust.
Common air conditioning rating is giving in BTU/hr. You can converted the rating BTU/hr to kW by multiply BTU/hr with 0.0002931 kW/BTU. You can also estimate the cooling capacity from energy supply, generally COP for air cool air conditioning is 3.5 kWcooling/kWelectricity
40956
5 kw.
One KW of electricity will give you 3,412 btu of heat.
65,000 BTU per hour equates to 19.05 kW
It is per hour: 24 kW = about 81,891.4 BTU per hour.
1 kW is equal to about 3,412.14 BTU/hour.
70000 BTU/hr = 20.5kW > 70000 BTU/min = 1230.9kW > 70000 BTU/sec = 73854.2kW
Yes dude!
That is 50,000 BTU per hour.
7.5 kW equates to 25,591 BTU/hour.
BTUs and kilowatts measure different types of quantities. A BTU (British Thermal Unit) measures heat (energy), while a kilowatt (1000 watts) measures power (energy per unit time). 1 BTU equals 0.0002928 kilowatt-hour 1 BTU/minute equals 0.01757 kilowatt. To convert a watt to BTUs, the factor is 1 kilowatt of power = 3412.1416 BTU/hr 3.412 BTUs equal a watt-hour. 1 kW = 3412.1416 BTU/hour with appropriate significant figures 3*103 BUT per hour
10,000 BTUIT/hr is about 2.93 kW
12,000 BTU per hour is equal to 3.5 kW.
The answer: 17070 BTU The math: 3414 BTU = 1 KVA (KW) so 5 KVA = 17070 BTU