Biogas
Biogas is formed by anaerobic digestion, that is, the microbial degradation of organic material such as farm wastes or energy crops. This process is sometimes referred to as ‘biomethanation’.
Biogas is mainly composed of methane and carbon dioxide, but may also contain small amounts of nitrogen, hydrogen and carbon monoxide, as well water vapour and contaminants such as hydrogen sulphide and siloxanes.
After a relatively striaght-forward clean-up process, biogas (sometimes called biomethane or renewable natural gas (RNG)) can be used as a fuel. Biogas has been used as a fuel for many centuries, and in the UK, the city of Exeter used biogas for street lighting as early as 1895.
The production of biogas not only provides a ‘renewable’ source of energy, it also offers a use for waste products that might otherwise be difficult to dispose of.
The waste products from biogas generation iteslf are water and fermented organic material which can be used as a high-quality fertiliser.
Typically, anaerobic digestion requires a heat source, and so biogas is often used to fuel combined heat and power (CHP) plant that produces both electricity and heat. The heat can be used for the anaerobic digestion process and can also be used to pasteurise animal-derived waste so that it can be used as fertilisers.
Combined heat and power plant can feed electricity into the national grid, and so biogas installations may qualify for payments under the renewable heat incentive (RHI) scheme (other than biogas from landfill).
Biogas can also be cleaned of carbon dioxide and fed into the national grid.
Net Zero by 2050, A Roadmap for the Global Energy Sector, published by the International Energy Agency in May 2021, defines biogas as: ‘A mixture of methane, carbon dioxide and small quantities of other gases produced by anaerobic digestion of organic matter in an oxygen-free environment.’
Is suggests that biogases: ‘Include biogas and biomethane.’
[edit] Related articles on Designing Buildings
- Anaerobic digestion (repeats some of the text in this article).
- Biomass.
- Biomaterial.
- Conventional liquid biofuel.
- Environmental impact of biomaterials and biomass (FB 67).
- Feed in tariff.
- Gas Goes Green.
- Liquefied petroleum gas (LPG).
- Mains gas.
- Natural gas.
- Oil - a global perspective.
- Peak oil.
- Renewable energy.
- Renewable heat incentive.
- Shale gas.
- Types of fuel.
- Water vapour.
- Zero carbon homes.
- Zero carbon non-domestic buildings.
Featured articles and news
Infrastructure that connect the physical and digital domains.
Harnessing robotics and AI in challenging environments
The key to nuclear decommissioning and fusion engineering.
BSRIA announces Lisa Ashworth as new CEO
Tasked with furthering BSRIA’s impressive growth ambitions.
Public buildings get half a million energy efficiency boost
£557 million to switch to cleaner heating and save on energy.
CIOB launches pre-election manifesto
Outlining potential future policies for the next government.
Grenfell Tower Inquiry announcement
Phase 2 hearings come to a close and the final report due in September.
Progress from Parts L, F and O: A whitepaper, one year on.
A replicated study to understand the opinion of practitioners.
ECA announces new president 2024
Electrical engineer and business leader Stuart Smith.
A distinct type of countryside that should be celebrated.
Should Part O be extended to existing buildings?
EAC brands heatwave adaptation a missed opportunity.
Definition of Statutory in workplace and facilities management
Established by IWFM, BESA, CIBSE and BSRIA.
Tackling the transition from traditional heating systems
59% lack the necessary information and confidence to switch.
The general election and the construction industry
As PM, Rishi Sunak announces July 4 date for an election.
Eco apprenticeships continue help grow green workforce
A year after being recognised at the King's coronation.
Permitted development rights for agricultural buildings
The changes coming into effect as of May 21, 2024.