Manufacturing of Advanced Fuels Is an Example of Circular Economy
The process of extracting advanced biofuels is the best example of circular economy. It includes anaerobic recycling (without oxygen) of biodegradable organic waste from agriculture and other industries and turning it into environmentally friendly products such as green gas and biological fertilisers. This natural fermentation process also that takes place in nature.
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Collection of biodegradable plant and animal-based waste
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Raw material used in manufacturing advanced biofuels is mostly comprised of biodegradable waste and by-products from agriculture and industry, including cattle manure, green waste, and energetic plants. Manufacturing of advanced biofuels allows for solving the problem of such waste by making new environmentally friendly products.
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Organic waste
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Having isolated methane and removed sulphur compounds from waste, as they are the ones causing the unpleasant smell, the odourless organic material that remains is an ecological odourless organic fertiliser. It has many beneficial properties for the soil and, therefore, continues to be used in agriculture.
Biogas
Gas purifiers
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Sustainable recycling
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Biodegradable organic waste is recycled anaerobically, i.e. without oxygen, in completely enclosed bioreactors. This is a natural fermentation process similar to composting during which microorganisms break down organic waste with the help of modern equipment, producing biogas.
Biomethane
Advanced biofuels
Clean gas to the pipelines3
Biomethane
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Technologies help turn biogas into biomethane – environmentally friendly clean gas that can be used further as green fuel in the transportation sector or supplied to gas networks.
1
Collection of biodegradable plant and animal-based waste
Read more
Raw material used in manufacturing advanced biofuels is mostly comprised of biodegradable waste and by-products from agriculture and industry, including cattle manure, green waste, and energetic plants. Manufacturing of advanced biofuels allows for solving the problem of such waste by making new environmentally friendly products.
2
Sustainable recycling
Read more
Biodegradable organic waste is recycled anaerobically, i.e. without oxygen, in completely enclosed bioreactors. This is a natural fermentation process similar to composting during which microorganisms break down organic waste with the help of modern equipment, producing biogas.
3
Biomethane
Read more
Technologies help turn biogas into biomethane – environmentally friendly clean gas that can be used further as green fuel in the transportation sector or supplied to gas networks.
4
Organic waste
Read more
Having isolated methane and removed sulphur compounds from waste, as they are the ones causing the unpleasant smell, the odourless organic material that remains is an ecological odourless organic fertiliser. It has many beneficial properties for the soil and, therefore, continues to be used in agriculture.
Benefits of Advanced Biofuels for Lithuania
Sustainable
recycling
Green transportation
solutions
Organic ecological
waste
Cleaner
environment
FAQ
Raw material used in manufacturing advanced biofuels is mostly comprised of biodegradable waste and by-products from agriculture and industry, including cattle manure, green waste, and energetic plants. This raw material is not harmful to human health: manure, non-conditional food products, and green waste are all currently used in field fertilization, composting, and as fodder.
Waste is handled in accordance with the law and strict regulations applied to this sector. Manufacturing of advanced biofuels allows solving the problem of organic waste while developing new environmentally friendly products which continue to be used in transportation and agriculture.
Waste is handled in accordance with the law and strict regulations applied to this sector. Manufacturing of advanced biofuels allows solving the problem of organic waste while developing new environmentally friendly products which continue to be used in transportation and agriculture.
Manufacturing biogas includes natural processes, i.e. decomposition. It is very similar to composting garden waste. The main difference is that greenhouse gases are collected and used to manufacture advanced biofuels.
Waste in this type of plant is recycled without oxygen (anaerobically). It is a natural fermentation process during which microorganisms break down organic waste. All of this takes place with the help of modern equipment and monitoring systems; the process is automated.
Waste in this type of plant is recycled without oxygen (anaerobically). It is a natural fermentation process during which microorganisms break down organic waste. All of this takes place with the help of modern equipment and monitoring systems; the process is automated.
Having such a modern facility representative of circular economy in the neighbourhood may attract other high technology businesses and generate new higher qualified jobs in the renewable energy sector.
