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Biogas

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Biogas, which is also known as biomethane, landfill gas, swamp gas, and digester gas, is a collection of gases (largely methane and carbon dioxide) produced by the anaerobic degradation of biomass (non-fossil organic matter) by various bacteria (Table B-11).

Thus, biogas is a combustible gas derived from decomposing biological waste under anaerobic conditions. Biogas typically refers to a biofuel gas produced by anaerobic digestion or fermentation of organic matter including manure, sewage sludge, municipal solid waste, biodegradable waste, or any other biodegradable feedstock, under anaerobic conditions. Depending on where it is produced, biogas is also called swamp gas, marsh gas, landfill gas, and digester gas (Table B-9).

Table B-11 The composition of gas from various carbonaceous fuels.

Composition: Digester gas Landfill gas Sewage gas Agri-waste
Carbon Dioxide (CO2) 25-45% 35-50% 30-40% 25-45%
Methane (CH4) 45-65% 40-45% 55-65% 55-75%
Nitrogen (N2) 2-5% 0-20% 2-10% 0-10%

The primary component of biogas is methane gas, which comprises 50-90% by volume of biogas. Usually, biogas is 50% to 80% methane and 20% to 50% carbon dioxide, with the remainder trace gases such as hydrogen, carbon monoxide, and nitrogen. Methane is also the primary component of natural gas, but natural gas is normally recovered with more than 70% methane, along with other hydrocarbons (such as butane and propane) and traces of carbon dioxide and other chemicals. Natural gas is processed so that it is almost entirely, 98%, methane. Biogas is produced in a variety of low-oxygen natural environments with degradable organic matter, including swamps, marshes, landfills, agricultural and other waste (sewage sludge, manure, waste lagoons), aquatic sediments, wet soils, buried organic matter, as well as via enteric fermentation in some animal digestive tracts, notably in cattle.

Biogas normally consists of 50 to 60% methane and has a variable composition and energy content (Btu/ft3) depending upon the source (Table B-12).

Table B-12 Energy content of various gases.

Coal seam gas (coalbed methane): 370-955 Btu/ft3
Digester gas: 275-700 Btu/ft3
Landfill gas: 275-700 Btu/ft3
Manufactured gas (coal gas): 160-955 Btu/ft3)
Wood chip gas: 160-320 Btu/ft3

Biogas is produced by means of a process known as anaerobic digestion – a process in which organic matter is broken down by microbiological activity in the absence of air. Biogas is generated from concentrations of sewage or manure. These are usually in the form of slurry comprised mostly of water (almost 95%). The slurry is fed into a digester, this input can be continuous (usually the case with sewage) or in batches. The digestion continues from approximately 10 days up to weeks. The temperature in the digester should be kept at 35°C (95°F), and although the digestion itself produces heat, in colder climates, heat may be necessary.

There are two common technologies for the production of biogas. The first involves the fermentation of human and/or animal waste in specially designed digesters:


The second is a more recently developed technology for capturing methane from municipal waste landfill sites. The scale of simple biogas plants can vary from a small household system to large commercial plants. The digestion of animal and human waste yields several benefits: (i) the production of methane for use as a fuel and (ii) the waste is reduced to slurry which has a high nutrient content which makes an ideal fertilizer, and in some cases, (iii) the fertilizer is the main product from the digester and the biogas is merely a by-product. During the digestion process, bacteria in the manure are killed, which is a great benefit to environmental health.

Two popular simple designs of digester have been developed: (i) the floating cover digester and (ii) fixed dome digester. The digestion process is the same in both digesters, but the gas collection method is different in each. In the floating cover digester, the water-sealed cover of the digester is capable of rising as gas is produced and acting as a storage chamber, whereas the fixed dome digester has a lower gas storage capacity and requires good sealing if gas leakage is to be prevented.

The waste fed into the digester undergoes digestion in the digestion chamber and the temperature of the process is quite critical – methane-producing bacteria operate most efficiently at temperatures between 30 and 40°C (86 to 104°F) or 50 and 60°C (122 to 140°F), and in colder climates, heat may have to be added to the chamber to encourage the bacteria to carry out their function. The product is a combination of methane and carbon dioxide, typically in the ratio of 6:4. Digestion time ranges from a week to months depending on the feedstock and the digestion temperature. The residual slurry is removed at the outlet and can be used as a fertilizer.

The composition of biogas varies depending upon the composition of the waste material in the landfill and the anaerobic digestion process. Landfill gas typically has methane concentrations around 50%. Advanced waste treatment technologies can produce biogas with 55 to 75% methane; often, air is introduced (5% by volume) for microbiological desulfurization. For example, the constituents (by volume) of biogas generally are methane (50 to 75%), carbon dioxide (25 to 50%), nitrogen (0 to 10%), hydrogen (0 to 1%), hydrogen sulfide (0 to 3%), and oxygen (0 to 2%).

If biogas is cleaned up sufficiently, biogas has the same characteristics as natural gas. In this instance, the producer of the biogas can utilize the local gas distribution networks. The gas must be clean to reach pipeline quality. Water (H2O), hydrogen sulfide (H2S), and particulates are removed if present at high levels or if the gas is to be completely cleaned. Carbon dioxide is less frequently removed, but it must also be separated to achieve pipeline quality gas. If the gas is to be used without extensively cleaning, it is sometimes co-fired with natural gas to improve combustion. Biogas cleaned up to pipeline quality is called renewable natural gas and can be used in any application in which natural gas is used.

Current technology allows the gas to be recovered using sealed vessels and therefore available for heating, electrical generation, mechanical power, and so forth. Biogas can be retrieved from garbage or mechanical biological treatment waste processing systems. The solid by-product, digestate, can be used as a biofuel or a fertilizer. Like natural gas, biogas has a low volumetric energy density compared to liquid biofuels, but it can be purified to a natural gas equivalent and further compressed for use as a transportation fuel, substituting for natural gas. Methane is also suitable for use in fuel cell generators. Biogas is often made from wastes, but is also made from biomass energy feedstocks. Landfill gas cannot be distributed through utility natural gas pipelines unless it is cleaned up to less than 3% v/v carbon dioxide and several parts per million hydrogen sulfide, because these chemicals corrode the pipelines.

See also: Aerobic Digester, Anaerobic Digester, Landfill Gas.

Encyclopedia of Renewable Energy

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