Methane as fuel: Difference between revisions

Revision as of 12:52, 28 July 2012

Methane, CH₄, is the lightest (least dense) and simplest hydrocarbon. It is the major constituent of natural gas, and a potent greenhouse gas. It may be captured as biogas and refined to pure methane. Another route is to produce it artificially from hydrogen and co².

Production

Many biological processes produce it as it is a a byproduct of fermentation and composting. This method of production is called methanogenesis. The method hence does not use electricity at all, but in some cases this may also be a disadvantage is it then doesn't allow to store the electricity ie generated using PV-panels.

It can also be produced artificially using electricity (Sabatier process) This process basically combines CO² and hydrogen (H). See http://en.wikipedia.org/wiki/Sabatier_process This may be useful as although hydrogen can be made at home using electricity and is even in its current state a useful fuel, yet has many problems regarding the gas storage. Methane has fewer storage problems ? Besides using the Sabatier process to combine hydrogen made trough electrolysis of water (or from oxyhydrogen), it can also be made from biohydrogen.^[1]

Advantages

It can be used very easily for low pressure/relatively low heat uses, such as mantle lighting or cooking.

It can be used as a vehicle fuel, yet then requires pressurisation (so a gas compressor needs to be added to the system^[2]^[3]). It can be compressed to a specific pressure at which methane is still a gas (say 3600 psi for the tank/125psi injected to motor). It can also be compressed untill it becomes a liquid fuel; however at these pressures the fuel has actually consumed more energy for the compression than what it can actually release in work when combusted.^[4]

Disadvantages

If allowed to escape it has a negative impact on the climate. This, as it's a very potent GHG-gas. It breaks down when burned, so not a problem if burned; yet it can be a problem ie in case of leaks. Although it is a potent greenhouse gas, it does not last as long in the atmosphere as many other such gases, eventually breaking down into carbon dioxide and water vapor.

Reflist

Template:Reflist

External links

Wikipedia:methane
Methane digestor at EcoReality.

[1] Methane production using biohydrogen

[2] Biogas composed of 95 percent methane useful as vehicle fuel, can also be used in regular CNG systems

[3] Compressor used in very similar fuels, ie natural gas for transport

[4] [Journeytoforever on methane for vehicle use

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 Many biological processes produce it as it is a a byproduct of [[fermentation]] and [[composting]]. This method of production is called [[methanogenesis]]. The method hence does not use electricity at all, but in some cases this may also be a disadvantage is it then doesn't allow to store the electricity ie generated using PV-panels.
-It can also be produced artificially using electricity ([[Sabatier process]]) This process basically combines CO² and hydrogen (H). See http://en.wikipedia.org/wiki/Sabatier_process This may be useful as although hydrogen can be made at home using electricity and is even in its current state a useful fuel, it has many problems regarding the storage. Methane has fewer storage problems ?
+It can also be produced artificially using electricity ([[Sabatier process]]) This process basically combines CO² and hydrogen (H). See http://en.wikipedia.org/wiki/Sabatier_process This may be useful as although hydrogen can be made at home using electricity and is even in its current state a useful fuel, yet has many problems regarding the gas storage. Methane has fewer storage problems ? Besides using the Sabatier process to combine hydrogen made trough electrolysis of water (or from oxyhydrogen), it can also be made from [[biohydrogen]].<ref>[http://www.sciencedaily.com/releases/2009/03/090330111257.htm Methane production using biohydrogen]</ref>
 ==Advantages==