A cubic metre of gas at normal temperature and pressure has a mass of 44.643 times the molecular weight of the gas in grams. So a cubic metre of hydrogen is 89.3 grams while a cubic metre of CO2 is 1964 grams. If the volume is 22.4 litres, the mass in grams equals the molecular weight.
1 cubic meter of bio-gas is equivalent to 1000 liters.
A cubic metre of gas on earth will not have a mass of 1 kg.
There are approximately 93,000 liters of oil in 93 cubic meters of gas, as 1 cubic meter is equivalent to 1000 liters.
Multiply cubic meters by 1,000 to get liters.
That depends on the pressure and temperature of the air in the cubic meter. Any time you change the pressure or the temperature of a gas, you change the number of molecules in one cubic meter of it.
Approximately 550-580 liters of liquid gas can be stored in one cubic meter of LPG gas, varying slightly based on the specific composition and density of the LPG.
Each cubic meter comprises 1,000 liters. Therefore, cubic meters x 1,000 = liters.
To calculate the volume of natural gas in standard cubic meter at standard pressure, you can use the ideal gas law equation: V = nRT/P, where V is the volume in standard cubic meters, n is the number of moles of gas, R is the ideal gas constant, T is the temperature in Kelvin, and P is the standard pressure. Given that standard pressure is typically defined as 1 atmosphere or 101.325 kPa, you can plug in these values along with the temperature and number of moles of gas to calculate the volume of natural gas in standard cubic meter at standard pressure.
when convert from cubic meter to tonns multply by 0.455
You will have a gas meter to give this reading. If it doesn't give cubic feet directly it should have a conversion factor on the meter. So you just read the meter on the right days.
On average, burning natural gas emits approximately 2.3 kilograms of carbon dioxide (CO2) per cubic meter of gas consumed. This figure can vary depending on the composition of the natural gas and the efficiency of the combustion process.