Assessment – Design – Investment – Operation
What is Biogas?
Biogas is a waste product generated from the decay of organic material. It is produced naturally from decaying waste, either in solid or liquid form. As its main component is methane, it is a highly contaminating greenhouse gas and must be controlled. Using it in power generation not only controls its emission but displaces the use of conventional fuels.
Biogas is composed principally of methane and carbon dioxide. Methane is a compound of carbon and hydrogen with the formula CH4 and, by itself, has no distinctive odor. It is the main component of biogas and is a highly effective greenhouse gas being around 25 times more effective than CO2.
Environmental Impact of Biogas
Biogas is generated by the reactions of bio-degradation of organic matter. It is formed under anaerobic conditions in the absence of oxygen and is commonly known as marsh gas.
Biogas is a natural pollutant in that one of its major components is methane, a gas that is around 25 times more effective than CO2 as a greenhouse gas. Depending on the substrate from which it is produced, it can also contain other contaminating gases such as hydrogen sulfide. In landfill sites, biogas is produced from degrading organic waste material and, apart from the unpleasant smell, can cause serious problems if not adequately controlled.
Because of its properties, biogas can also be used for a fuel and its use can displace traditional fossil fuels as a source of energy for power or heat production.
Biogas may be produced from many different biodegradable organic substrates. In general, however, its composition will be very similar, being comprised mostly of CH4, at between 40% and 65% by volume, CO2, at between 30% and 40% by volume, and a number of trace gases.
The feedstock dictates the biogas technology to be used. In order to properly design a biogas plant, the developer must fully understand its feedstock and its conditions of production. Once understood, the biogas feed train can be designed to tailor the needs of the site and purpose of production.
In any project that uses biogas as its principal source of fuel, it is important to undertake a comprehensive analysis of all conditions including the substrate from which the biogas is produced and whether or not specialist technology, such as H2S removal equipment, must be employed in cleaning and filtration.
Uses of biogas can range from power and heat generation to the production of RNG, or Renewable Natural Gas, for injection into regional pipelines or for compression as a vehicle fuel.
Biogas can be produced in digesters. Production depends on the following factors:
Wet or dry waste
There are several different types of digester technologies including lagoons which are typically employed when the feedstock is wastewater effluent from agricultural waste or animal manure. Using this technology, typical retention time of material is between 30 and 40 days for the biogas to reach full production. A lagoon is a good option when sufficient land is available.
Other technologies such as Continuously Stirred Tank Reactors (CSTR) and Dry Cell Anaerobic Digestion (DCAD) are used when land requirements are limited. CSTR’s are a proven and reliable technology as an alternative to a lagoon based system but are slightly more expensive to build than a lagoon, and require more attention during operation.
Power Production OptionsBiogas can be used in a variety of ways for the production of energy. Not only can it be used directly as a fuel for power generation once it has been conditioned and cleaned, it can also be used for the production of steam for use in steam turbine engines or directly as heat production. On many landfill sites, biogas is used for the evaporation of leachate or for providing heating for on-site offices. One of the technologies that has recently been gaining traction is the use of biogas as an alternative fuel for vehicles, mainly fleet vehicles such as buses or lorries. As the technology has now been developed to clean biogas to natural gas specification, it can now be fed directly into natural gas pipelines.
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