The formula is simple. One ton of cooling equals 12000 btu. So a three ton A/C has a 36000 btu capacity.
A tonne is a unit of mass; a square meter is a unit of area. You only "convert" units of the same kind.
By multiplying the volume by the substance's density in tonnes per unit volume.
There are many variables but 3 tons of air conditioning is enough to cover 1750 sq ft.
1800 btus
CRAC unit = Computer Room Air Conditioning Unit
2 1/2 ton unit the 30 in model number means 30000 btus 2 tons + 1/2 ton = 2 1/2 tons of air conditioning
Tons measure weight: BTUs measure energy. You cannot convert them.
An HVAC system is rated in British Thermal Units (BTUs). For example, a 2-ton air conditioning system is 24,000 BTUs. That's 12,000 BTUs per ton. So a 3.5-ton air conditioner is a 42,000 BTUs.
2.6 tons is 2600 kg. to convert tons into kg multiply the unit given by 1000. if to convert kg into tons divide by 1000. hope this helps!!!
A tonne is a unit of mass; a square meter is a unit of area. You only "convert" units of the same kind.
To convert a watt to BTUs, the factor is 1 kilowatt of power = 3412.1416 BTU/hr3.412 BTUs equal a watt.AnswerYour question is meaningless, as these two units measure different quantities. The watt is the SI unit of measurement of power, whereas the BtU is the Imperial unit of energy. So watts cannot be equated to BtUs.
A kilometre is a unit of length. A ton is a unit of mass. The two units are therefore incompatible.
You can't. One is a unit of weight the other length.
By multiplying the volume by the substance's density in tonnes per unit volume.
You can't convert tons to kilometres. A ton is a unit of weight, and a kilometre is a unit of distance.
90,000 BTUs - the 090 is what tells you the BTUs of the unit.
In refrigeration the cooling capacity may be expressed in BTUs/hr or tons of refrigeration. One refrigeration ton is equal to 12000 BTUs per hour. This equivalency comes from the comparison of the energy required to melt one tom of ice in 24 hours and the energy in the number of BTUs/hr to achieve the same transfer of energy.