1mm BTU= 28.26 m3
How to convert mmbtu to cubic meter
To convert from MMBtu (Million British thermal units) to SM3 (Standard cubic meters), you need to know the heating value of the gas in question. Once you have the heating value, you can use it to convert MMBtu to MMSCF (Million Standard Cubic Feet) and then convert MMSCF to SM3 based on the standard conversion factor of 1 MMSCF = 28.32 SM3.
1MMBTU=? m3
To convert thousand cubic feet (mcf) to million British thermal units (mmBtu), you need to know the specific heat content of the gas being measured. The conversion factor can vary depending on the type of gas. As an approximate conversion, for natural gas, 1 mcf is roughly equivalent to 1 MMBtu.
To convert million standard cubic meters per day (mmscmd) to million British thermal units (mmbtu), you need to know the heating value of the gas in question. Once you have the heating value, you can use it to convert from volume units (mmscmd) to energy units (mmbtu) using the formula: mmbtu = mmscmd * heating value.
Oh, dude, it's like this - to convert MMBtu to MCF, you need to know the heat content of the gas in Btu per cubic foot. Then you just divide the number of MMBtu by the heat content to get the equivalent in MCF. It's like converting apples to oranges, but with gas. Easy peasy, right?
MMBTU is an acronym for "Million Metric British Thermal Units." The M's represent the Roman numeral for one thousand. One thousand thousands equal one million, thus MMBTU, not "Million Metric"
One decatherm = one MMBtu
Well, honey, to convert hectometers cubed (hm3) to million British thermal units (MMBtu), you'll need to use a conversion factor. One hectometer cubed is equal to 35,314,666.72 million British thermal units. So, you just multiply the volume in hm3 by that conversion factor to get your answer in MMBtu. Easy peasy lemon squeezy!
1 Btu = 0.000 293 071 083 33 kilowatt hour and therefore, 1 MMbtu = 293.071 KWhr to convert MMbtu to KWhr, multiply your MMbtu by 293.071
Each ton of Urea will need 930 cubic meter of natural gas. It will require 230 cubic meter for conversion and nearly 700 cubic meter for input chemical. In MMBTU terms, it will require nearly 27 MMBTU. In calorific value, it will require 7 Giga calories.
The "BTU" is a unit of energy. The "MMBTU" is a million of them ... still a quantity of energy. The "cubic meter" is a unit of volume. If the substance filling the volume is named ... and its pressure also specified in the case of a gas ... then it's possible to begin calculating the quantity of energy available when the substance is burned.