Methane gas comes from the fermentation of organic matter and can also come from the distillation of coal and natural gas. The heat and pressure of the planet affect the biomass of dead plants, so its energy-rich carbon particles become materials from which methane can be released.



Methane is the main component of natural gas. Combustion of methane releases energy that occurs in the form of natural gas. You can use this energy in homes and companies.



 Methane uses for Industrial

Methane, in the form of natural gas, is important for various industries. It is a regular material, plastic, antifreeze component, and fertilizer. Industrial recipients of natural gas are companies that produce pulp and paper.

Food processors, oil refineries and companies that work with stone, clay and glass use released energy. Combustion-based on methane helps companies dry, dehumidify, melt and purify their products. The use of methane gas in commercial conditions also sometimes resembles home use.


Methane uses


 Methane Uses in home

Natural gas is cheaper than electricity. It is a cheaper option for people and companies in need of energy and heat. However, home applications are different. Some consumers use methane in natural gas as a source of energy when cooking.


 For example, some homes use natural gas from methane to heat water. Another common use at home is a natural gas fireplace. There are also innate gas dryers for your clothes, but they are less common.



Natural gas

Methane uses is important for generating electricity by burning it as fuel in a gas turbine or steam generator. Compared to other hydrocarbon fuels, methane produces less carbon dioxide for each unit of heat emitted.


At about 891 kJ / mole methane combustion heat is lower than any other hydrocarbons, but the ratio of the heat of combustion (891 kJ / mol) to molecular weight (16.0 g / mol, of which 12.0 g / mol is carbon) shows that methane, being the simplest hydrocarbon, produces more heat per unit of mass (55.7 kJ / g) than other complex hydrocarbons.


In this context, it is often natural gas, which has an energy content of 39 megajoules per cubic meter or 1000 BTU per standard cubic foot. The research was conducted on adsorptive methods for methane storage for use as car fuel.