Biogas

Biogas originates from biogenic material and is a type of biofuel.

One type of biogas is produced by anaerobic digestion or fermentation of biodegradable materials such as biomass, manure, sewage, municipal waste, green waste and energy crops.

This type of biogas comprises primarily methane and carbon dioxide.

The other principal type of biogas is wood gas which is created by gasification of wood or other biomass.

This type of biogas is comprised primarily of nitrogen, hydrogen, and carbon monoxide, with trace amounts of methane.Biogas can be used as a low-cost fuel in any country for any heating purpose, such as cooking. It can also be used in modern waste management facilities where it can be used to run any type of heat engine, to generate either mechanical or electrical power. Biogas is a renewable fuel, so it qualifies for renewable energy subsidies in some parts of the world. Production: Biogas is practically produced as landfill gas (LFG) or digester gas. A biogas plant is the name often given to an anaerobic digester that treats farm wastes or energy crops. Biogas can be produced utilizing anaerobic digesters. These plants can be fed with energy crops such as maize silage or biodegradable wastes including sewage sludge and food waste. The process of biogas production is explained using ‘gobar gas’ as an example. Gobar gas plants are based on excreta of cattle and other farm animals, which contains about 20% inorganic particles. The level of dost particles is reduced to about 10% by mixing the dung with water in 1:1 ratio. The feeding rate of a typical dung based biogas plant is at the rate of 3500kg dung per day. Generally spent slurry at about 2%(v/v) of the fresh dung slurry is added back to maintain the microbial population. Calcium ammonium nitrate at the rate of 1% (w/w) of the dung is added to the slurry. In addition to cow dung, human excreta and kitchen waste can also be used. Addition of human excreta markedly increases biogas output, perhaps due to its higher nitrogen content, which supports microbial growth. The optimal temperatures for biogas production are between 35-38°C. Lower temperatures lead to lower gas yields, and at 15°C biogas production may come to a halt. Therefore, biogas production during winters and in colder regions requires thermal insulation or heating of the digesters. The pH of slurry should be around 7. Under favourable conditions, the biogas yield may be up to 60 liters/kg of dung. Biogas technology raw materials: ,[object Object]

Different problems are encountered with each of these wastes with regard to collection, transportation, processing, storage, residue utilization, and ultimate use.

Industrial and food processing waste:these arise from sugar, potato, vegetable and fruit processing, brewery and distillery wastes, and whey from cheese production.

Animal excreta and agricultural wastes:these are solid wastes rich on cellulose and lignocelluloses.

Agricultural biomass like straw, bagasse, etc. show poor digestibility and often high C : N ratio.

Domestic and municipal wastes:these are in the form of solid wastes and sewage respectively.Biochemistry: Digestion: Digestion refers to various reactions and interactions that take place among the methanogens, non-methanogens and substrates fed into the digester as inputs. The breaking down of inputs that are complex organic materials is achieved through three stages as described below: Stage 1: Hydrolysis: The waste materials of plant and animal origins consist mainly of carbohydrates, lipids, proteins and inorganic materials. Large molecular complex substances are solubilized into simpler ones with the help of extracellular enzyme released by the bacteria. This stage is also known as polymer breakdown stage. For example, the cellulose consisting of polymerized glucose is broken down to dimeric, and then to monomeric sugar molecules (glucose) by cellulolytic bacteria. Stage 2: Acidification: The monomer such as glucose which is produced in Stage 1 is fermented under anaerobic condition into various acids with the help of enzymes produced by the acid forming bacteria. The principal acids produced in this process are acetic acid, propionic acid, butyric acid and ethanol. Stage 3: Methanization: The principle acids produced in Stage 2 are processed by methanogenic bacteria to produce methane. The reactions that takes place in the process of methane production is called Methanization and is expressed by the following equations. CH3COOHAcetic acid --> CH4Methane + CO2Carbon dioxide 2CH3CH2OHEthanol + CO2Carbon dioxide --> CH4Methane + 2CH3COOHAcetic acid CO2Carbon dioxide + 4H2Hydrogen --> CH4Methane + 2H2OWater Microbiology: Several hundred species of microorganisms are involved in the anaerobic digestion and biogas production. ,[object Object]

They remove the small amounts of O2 present and create anaerobic conditions.

These bacteria hydrolyze and ferment the organic materials, e.g., cellulose, starch, proteins, sugars, lipids etc., and produce organic acids, CO2 and H2.

Biogas

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Biogas