BTU meters measure the energy content of liquid or gas flows in British thermal units (BTU), a basic measure of thermal energy. One BTU is equal to the amount of energy needed to heat one pound of water one degree Fahrenheit.
Btu and cubic meter are two different measuring units. Btu is the unit for heat transmission, like in ac units 12000 btu/hr. It means this ac unit would remove 12000 btu of heat from the room in one hour. where as cubic meter is the unit for volume.
only if the new pipe is bigger in which case all pipe leading up too it must also be of sufficient BTU rating. So.... No. You'll most likely have to get a new gas line run to your house or a lot of meter work done. maybe meter would have to be replaced to allow height total btu capability.
How to convert Cubic meter to BTU
One Cubic Meter of natural gas is approximately 36000 btu.
There is no conversion. A cubic meter is a unit of volume. A BTU is a unit of energy. Apples and oranges...
The gas meter on your house is sufficient,
175,000btu, you bell-end
1mm BTU= 28.26 m3
9000 Btu
You need 100W per square meter. 100W equals around 341.3BTU. 1 square meter are around 10.7 square feet. You therefore need around 32 BTU per square foot.
BTU meters measure energy change in liquid or gas flows, it also helps to measure the total energy used or transferred in a gas system.
The "BTU" is a unit of energy. The "MM BTU" is a million of them ... still a quantity of energy. The "cubic meter" is a unit of volume. BTU and "cubic meter" are used to measure completely different things. They have different physical dimensions, and neither one can be directly converted into the other one. You often find them appearing together, though, because if you have some 'volume' of a gaseous fuel, such as hydrogen or methane, and you know the pressure, then you can calculate how many BTU of energy you can get out of it by burning it. If the questioner will name the substance that fills the volume ... and also tell us its pressure ... then it's possible to begin calculating the quantity of energy available when the substance is burned.