Biogas is formed by the anaerobic decomposition of putrescible organic material. Biogas CHP (combined heat and power or cogeneration) is the utilisation of biogas, typically in a biogas engine, for the production of electricity and useful heat, at high efficiency. 雷竞技注册 is a distributor of Jenbacher biogas engines which are designed for robust operation on difficult gases such as biologically-derived ones.
What is biogas?
Biogas is a gas that is formed by anaerobic microorganisms. These microbes feed off carbohydrates and fats, producing methane and carbon dioxides as metabolic waste products. This gas can be harnessed by man as a source of sustainable energy.
Biogas is considered to be a renewable fuel as it originates from organic material that has been created from atmospheric carbon by plants grown within recent growing seasons.
Benefits of anaerobic digestion and biogas
- Production of renewable power through combined heat and power cogeneration
- Disposal of problematic wastes
- Diversion of waste from landfill
- Production of a low-carbon fertiliser
- Avoidance of landfill gas escape and reduction in carbon emissions
Biogas creation is also called biomethanation. Biologically derived gases are produced as metabolic products of two groups of microorganisms called bacteria and Archaea. These microorganisms feed off carbohydrates, fats
and proteins, then through a complex series of reactions including hydrolysis, acetogenesis, acidogenesis and methanogenesis produce biogas consisting mainly of carbon dioxide and methane.
Anaerobic Digestion / Biogas Plant 3D Model
Biogas consists primarily of methane (the source of energy within the fuel) and carbon dioxide. It also may contain small amounts of nitrogen or hydrogen. Contaminants in the biogas can include sulphur or siloxanes, but this will depend upon the digester feedstock.
The relative percentages of methane and carbon dioxide in the biogas are influenced by a number of factors including:
- The ratio of carbohydrates, proteins and fats in the feedstock
- The dilution factor in the digester (carbon dioxide can be absorbed by water)
Anaerobic digestion is the man-made process of harnessing the anaerobic fermentation of wastes and other biodegradable materials. Anaerobic microbes can be harnessed to treat problematic wastes, produce a fertiliser that can be used to replace high carbon emission chemical fertilisers. It also is the process that results in the production of biogas, which can be used to provide renewable power using biogas cogeneration systems.
Anaerobic digestion can occur at mesophilic (35-45˚C) or thermophilic temperatures (50-60˚C). Both types of digestion typically require supplementary sources of heat to reach their optimal temperature. This heat is most commonly provided by a biogas CHP unit, operating on biogas and producing both electricity and heat for the process.
Often, biogas plants that treat wastes originating from animal material, will also require the material to be treated at high temperature to eliminate any disease causing bacteria in the slurry. These systems pasteurise the slurry, typically at 90C for one hour, to destroy pathogens, and result in the provision of clean, high quality fertiliser.
Jenbacher biogas engines are specifically designed to operate on different types of biogas. These gas engines are linked to an alternator in order to produce electricity at high efficiency. High efficiency electricity production enables the end user to maximise the electrical output from the biogas and hence optimise the economic performance of the anaerobic digestion plant.
Biogas engine electrical output
There are 4 'types' of Jenbacher gas engines with different levels of power output and electrical/thermal efficiency characteristics.
Biologically-derived gases can be utilised in biogas engines to generate renewable power via cogeneration in the form of electricity and heat. The electricity can be used to power the surrounding equipment or exported to the national grid.
Low grade heat from the cooling circuits of the gas engine, typically available as hot water on a 70/90°C flow/return basis. For anaerobic digestion plants that are using a CHP engine, there are two key types of heat:
- High grade heat as engine exhaust gas (typically ~450°C)
The low grade heat is typically used to heat the digester tanks to the optimum temperature for the biological system. Mesophilic anaerobic digesters typically operate at 35-40°C. Thermophilic anaerobic digesters typically operate at a higher temperature between 49-60°C and hence have a higher heating requirement.
You can find out more about biogas CHP efficiency here.
High temperature exhaust gas heat can either be used directly into a drier, waste heat boiler or organic rankine cycle unit. Alternatively it can be converted into hot water using a shell and tube exhaust gas heat exchanger to supplement the heat from the engine cooling systems.
Waste heat boilers produce steam typically at 8-15bar. Driers may be useful to reduce the moisture content of the digestate to assist in reducing transportation costs. Organic rankine cycle turbines are able to convert surplus waste heat into additional electrical output.
In the event that the local legislation requires for the destruction of pathogens in the digestate (such as the European Animal By-Products Regulations) there may be the requirement to heat treat the waste via pasteurisation or sterilisation. Here, surplus heat from the gas engine can be used in the pasteurisation unit.
The heat from the CHP engine can also be used to drive an absorption chiller to give a source of cooling, converting the system to a trigeneration plant.
Minimum Flow Rate
The minimum gas flow rate to operate the smallest Jenbacher biogas engine at full load (J208 @249kWe) is 127Nm3/hour at 50% methane.
We have specific pages related to:
- Organic wastes
- Mechanical biological treatment and anaerobic digestion of mixed wastes (MBT-AD)
- Landfill gas
- Sewage gas
Biologically derived gases may include contaminants or inpurities including water, hydrogen sulphide and siloxanes. Please discuss your gas quality expectations with your local 雷竞技注册 office. We provide specific guidelines on fuel gas quality in technical instruction documents.
Biological gases contains water vapour due to the nature of the feedstock that produces the gas. The quantity of water is linked to the temperature of the biological gas and the method of production. Above certain limits the moisture content of the biogas becomes a combustion challenge for the gas engines.
Water can be removed from the gas by using:
- Gas dehumidification (drying) units.
- Ground tube dewatering
Hydrogen sulphide (H2S) is derived as a by-product of the anaerobic digestion process of high sulphur feedstocks such as amino-acids and proteins. When burnt in a gas engine hydrogen sulphide can condense with water to form sulphuric acid. Sulphuric acid is corrosive to elements of gas engines and so must be limited to prevent adverse effects on the CHP engine.
Processes for the removal of hydrogen sulphide include
- Activated carbon filters
- Low level oxygen dosing into digester head space (typically <1%)
- External biological scrubber towers
- Ferric chloride dosing into the digester
In some cases biogas contains siloxanes. Siloxanes are formed from the anaerobic decomposition of materials commonly found in soaps and detergents. During the combustion process of the gas that contains siloxanes, silicon is released and can combine with free oxygen or various other elements in the combustion gas. Deposits are formed containing mostly silica (SiO2) or silicates (SixOy). These white mineral deposits accumulate and must be removed by chemical or mechanical means.
Siloxanes are often problematic in landfill gas and sewage gas plants due to contamination that is often found associated with the organic wastes.
In source-segregated biodegradable waste and agricultural biogas plants, it is much less common to find problems associated with siloxanes.
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