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- Comparison_of_anaerobic_and_aerobic_digestion abstract "The following article is a comparison of aerobic and anaerobic digestion. In both aerobic and anaerobic systems the growing and reproducing microorganisms within them require a source of elemental oxygen to survive.In an anaerobic system there is an absence of gaseous oxygen. In an anaerobic digester, gaseous oxygen is prevented from entering the system through physical containment in sealed tanks. Anaerobes access oxygen from sources other than the surrounding air. The oxygen source for these microorganisms can be the organic material itself or alternatively may be supplied by inorganic oxides from within the input material. When the oxygen source in an anaerobic system is derived from the organic material itself, then the 'intermediate' end products are primarily alcohols, aldehydes, and organic acids plus carbon dioxide. In the presence of specialised methanogens, the intermediates are converted to the 'final' end products of methane, carbon dioxide with trace levels of hydrogen sulfide. In an anaerobic system the majority of the chemical energy contained within the starting material is released by methanogenic bacteria as methane.In an aerobic system, such as composting, the microorganisms access free, gaseous oxygen directly from the surrounding atmosphere. The end products of an aerobic process are primarily carbon dioxide and water which are the stable, oxidised forms of carbon and hydrogen. If the biodegradable starting material contains nitrogen, phosphorus and sulfur, then the end products may also include their oxidised forms- nitrate, phosphate and sulfate. In an aerobic system the majority of the energy in the starting material is released as heat by their oxidisation into carbon dioxide and water.Composting systems typically include organisms such as fungi that are able to break down lignin and celluloses to a greater extent than anaerobic bacteria. Due to this fact it is possible, following anaerobic digestion, to compost the anaerobic digestate allowing further volume reduction and stabilisation.".
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- Comparison_of_anaerobic_and_aerobic_digestion wikiPageLength "3427".
- Comparison_of_anaerobic_and_aerobic_digestion wikiPageOutDegree "21".
- Comparison_of_anaerobic_and_aerobic_digestion wikiPageRevisionID "511347880".
- Comparison_of_anaerobic_and_aerobic_digestion wikiPageWikiLink Aerobic_organism.
- Comparison_of_anaerobic_and_aerobic_digestion wikiPageWikiLink Alcohol.
- Comparison_of_anaerobic_and_aerobic_digestion wikiPageWikiLink Aldehyde.
- Comparison_of_anaerobic_and_aerobic_digestion wikiPageWikiLink Anaerobic_digestion.
- Comparison_of_anaerobic_and_aerobic_digestion wikiPageWikiLink Carbon.
- Comparison_of_anaerobic_and_aerobic_digestion wikiPageWikiLink Category:Anaerobic_digestion.
- Comparison_of_anaerobic_and_aerobic_digestion wikiPageWikiLink Cellulose.
- Comparison_of_anaerobic_and_aerobic_digestion wikiPageWikiLink Compost.
- Comparison_of_anaerobic_and_aerobic_digestion wikiPageWikiLink Fungus.
- Comparison_of_anaerobic_and_aerobic_digestion wikiPageWikiLink Hydrogen.
- Comparison_of_anaerobic_and_aerobic_digestion wikiPageWikiLink Hydrogen_sulfide.
- Comparison_of_anaerobic_and_aerobic_digestion wikiPageWikiLink Lignin.
- Comparison_of_anaerobic_and_aerobic_digestion wikiPageWikiLink Nitrate.
- Comparison_of_anaerobic_and_aerobic_digestion wikiPageWikiLink Nitrogen.
- Comparison_of_anaerobic_and_aerobic_digestion wikiPageWikiLink Organic_acid.
- Comparison_of_anaerobic_and_aerobic_digestion wikiPageWikiLink Oxide.
- Comparison_of_anaerobic_and_aerobic_digestion wikiPageWikiLink Phosphate.
- Comparison_of_anaerobic_and_aerobic_digestion wikiPageWikiLink Phosphorus.
- Comparison_of_anaerobic_and_aerobic_digestion wikiPageWikiLink Redox.
- Comparison_of_anaerobic_and_aerobic_digestion wikiPageWikiLink Sulfate.
- Comparison_of_anaerobic_and_aerobic_digestion wikiPageWikiLink Sulfur.
- Comparison_of_anaerobic_and_aerobic_digestion wikiPageUsesTemplate Template:Reflist.
- Comparison_of_anaerobic_and_aerobic_digestion subject Category:Anaerobic_digestion.
- Comparison_of_anaerobic_and_aerobic_digestion hypernym Comparison.
- Comparison_of_anaerobic_and_aerobic_digestion type Company.
- Comparison_of_anaerobic_and_aerobic_digestion type Technology.
- Comparison_of_anaerobic_and_aerobic_digestion comment "The following article is a comparison of aerobic and anaerobic digestion. In both aerobic and anaerobic systems the growing and reproducing microorganisms within them require a source of elemental oxygen to survive.In an anaerobic system there is an absence of gaseous oxygen. In an anaerobic digester, gaseous oxygen is prevented from entering the system through physical containment in sealed tanks. Anaerobes access oxygen from sources other than the surrounding air.".
- Comparison_of_anaerobic_and_aerobic_digestion label "Comparison of anaerobic and aerobic digestion".
- Comparison_of_anaerobic_and_aerobic_digestion sameAs Q5155819.
- Comparison_of_anaerobic_and_aerobic_digestion sameAs Q5155819.
- Comparison_of_anaerobic_and_aerobic_digestion wasDerivedFrom Comparison_of_anaerobic_and_aerobic_digestion?oldid=511347880.
- Comparison_of_anaerobic_and_aerobic_digestion isPrimaryTopicOf Comparison_of_anaerobic_and_aerobic_digestion.