Biologically Produced Methane as a Renewable Energy Source

• Published in: Advances in applied microbiology Vol. 97; p. 1
• Main Authors: Holmes, D E, Smith, J A
• Format: Journal Article
• Language: English
• Published: United States 2016
• Subjects: Anaerobiosis; Animals; Bacteria - chemistry; Bacteria - classification; Bacteria - isolation & purification; Bacteria - metabolism; Biofuels - analysis; Bioreactors - microbiology; Humans; Methane - metabolism; Renewable Energy; BES; Biogas; Anaerobic digester; DIET; Methanogenesis
• ISSN: 0065-2164
• DOI: 10.1016/bs.aambs.2016.09.001

Methanogens are a unique group of strictly anaerobic archaea that are more metabolically diverse than previously thought. Traditionally, it was thought that methanogens could only generate methane by coupling the oxidation of products formed by fermentative bacteria with the reduction of CO . However, it has recently been observed that many methanogens can also use electrons extruded from metal-respiring bacteria, biocathodes, or insoluble electron shuttles as energy sources. Methanogens are found in both human-made and natural environments and are responsible for the production of ∼71% of the global atmospheric methane. Their habitats range from the human digestive tract to hydrothermal vents. Although biologically produced methane can negatively impact the environment if released into the atmosphere, when captured, it can serve as a potent fuel source. The anaerobic digestion of wastes such as animal manure, human sewage, or food waste produces biogas which is composed of ∼60% methane. Methane from biogas can be cleaned to yield purified methane (biomethane) that can be readily incorporated into natural gas pipelines making it a promising renewable energy source. Conventional anaerobic digestion is limited by long retention times, low organics removal efficiencies, and low biogas production rates. Therefore, many studies are being conducted to improve the anaerobic digestion process. Researchers have found that addition of conductive materials and/or electrically active cathodes to anaerobic digesters can stimulate the digestion process and increase methane content of biogas. It is hoped that optimization of anaerobic digesters will make biogas more readily accessible to the average person.