Methanation: Difference between revisions
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*Microbial Methanation wherein organisms are "Fed" hydrogen to produce methane | *Microbial Methanation wherein organisms are "Fed" hydrogen to produce methane | ||
*The microrganism act as the catalyst, and allow for ambient reactor conditions, unlike the Sabatier Reaction | *The microrganism act as the catalyst, and allow for ambient reactor conditions, unlike the Sabatier Reaction | ||
*Also given [[Anerobic Digestion]] produces CO2 as a waste product, they support eachother well | |||
*Need to look up organisms used, bioreactor design etc | *Need to look up organisms used, bioreactor design etc | ||
Revision as of 03:12, 6 October 2020
Basics
- Methanation is the conversion of carbon monoxide and/or carbon dioxide to Methane through Hydrogenation
- Can be used to turn Hydrogen into Methane for fuel applications
- This has the advantage of no risk of Hydrogen Embrittlement, and more "Conventional Support" (ie there are many OTS vehicles, generators, and tanks designed for CNG usage)
Methods
Biological
- Microbial Methanation wherein organisms are "Fed" hydrogen to produce methane
- The microrganism act as the catalyst, and allow for ambient reactor conditions, unlike the Sabatier Reaction
- Also given Anerobic Digestion produces CO2 as a waste product, they support eachother well
- Need to look up organisms used, bioreactor design etc
Chemical
Internal Links
- Sabatier Reaction
- Power-to-Gas
- Power-to-Fuels
- Syngas Fermentation (similar to Microbial Methanation; cross-link pages later)