Biodegradable waste

Biodegradable waste includes any organic matter in waste which can be broken down into carbon dioxide, water, methane or simple organic molecules by micro-organisms and other living things using composting, aerobic digestion, anaerobic digestion or similar processes. In waste management, it also includes some inorganic materials which can be decomposed by bacteria. Such materials include gypsum and its products such as plasterboard and other simple organic sulfates which can be decomposed to yield hydrogen sulfide in anaerobic land-fill conditions.[1] [2]

In domestic waste collection, the scope of biodegradable waste may be narrowed to include only those degradable wastes capable of being handled in the local waste handling facilities.[3]


Biodegradable waste can be commonly found in municipal solid waste (sometimes called biodegradable municipal waste, or BMW) as green waste, food waste, paper waste, and biodegradable plastics. Other biodegradable wastes include human waste, manure, sewage, sewage sludge and slaughterhouse waste. In the absence of oxygen, much of this waste will decay to methane by anaerobic digestion.[4]

In many parts of the developed world, biodegradable waste is separated from the rest of the waste stream, either by separate kerb-side collection or by waste sorting after collection. At the point of collection such waste is often referred to as Green waste.[5] Removing such waste from the rest of the waste stream substantially reduces waste volumes for disposal and also allows biodegradable waste to be composted where composting facilities exist.

Uses of biodegradable waste

Biodegradable waste can be used for composting or a resource for heat, electricity and fuel by means of incineration or anaerobic digestion.[6] Swiss Kompogas and the Danish AIKAN process are examples of anaerobic digestion of biodegradable waste.[7][8] While incineration can recover the most energy, anaerobic digestion plants retain the nutrients and compost for the soil and still recover some of the contained energy in the form of biogas. Kompogas produced 27 million Kwh of electricity and biogas in 2009. The oldest of the company's own lorries has achieved 1,000,000 kilometers driven with biogas from household waste in the last 15 years.[9]

Areas relying on organic waste

Featured in an edition of The Economist that predicted events in 2014, it was revealed that Massachusetts creates roughly 1.4 million tons of organic waste every year. Massachusetts, along with Connecticut and Vermont, are also going to enact laws to divert food waste from landfills.

In small and densely populated states, landfill capacity is limited so disposal costs are higher ($60–90 per ton in MA compared to national average of $45). Decomposing food waste generates methane, a notorious greenhouse gas. However, this biogas can be captured and turned into energy through anaerobic digestion, and then sold into the electricity grid.

Anaerobic digestion grew in Europe, but is starting to develop in America. Massachusetts is increasing its production of anaerobic digesters.

Climate change impacts

The main environmental threat from biodegradable waste is the production of methane and other greenhouse gases.[10]

See also


  1. "Recycling Council of British Columbia. Why can't I put my leftover gyproc/drywall in the garbage?".
  2. "Fact Sheet: Methane and Hydrogen Sulfide Gases at C&DD Landfills.publisher=Environmental Protection Agency. State of Ohiourl=". External link in |title= (help);
  3. "Organics -Green Bin". Christchurch City Council. Retrieved 19 March 2016.
  4. CSL London Olympics Waste Review.
  5. "Organics - Green Bin". Christchurch City Council. Retrieved 12 March 2016.
  6. National Non-Food Crops Centre. NNFCC report on Evaluation of Opportunities for Converting Indigenous UK Wastes to Fuels and Energy.
  7. Recycling chain.
  8. AIKAN website.
  9. "Gesundheit, Kraft und Energie für 2002". 3 January 2002. Archived from the original on 2 September 2002.
  10. Biodegradable waste. European Commission
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