Fuel gas

Fuel gas

Many industrial sectors uses substantial amount of fossil gases like natural gas and LPG due their need for clean, high temperature energy. Replacing these fossil gases with renewable gas produced by boiler-integrated gasification of woody and agricultural residual streams is a low hanging fruit with moderate technical complexity and high climate impact. Indirect gasification followed by tar removal results in a clean, virtually nitrogen-free gas with high heating value and excellent combustion properties. The gas can be compressed and distributed within the industrial plant, replacing fossil gas in numerous applications. For industries already operating a solid fuel boiler, our integrated gasification concept offers a cost efficient, fast-track solution to fossil independence.

Combined heat and power

Combined heat and power

Utilization of a combustion plant for polygeneration poses a potential to increase the annual operational hours, overbridging seasonal variations in heat demand.

Thermochemical co-conversion can also be used to boost a traditional combined heat and power business. By co-gasification added heat capacity with or without additional power production can be arranged in a cost efficient way and by co-pyrolysis peak-load fuel can be produced for internal or external use.

Biofuel production

Biofuels

Utilization of biogenic carbon for energy storage should not be considered as an opposite alternative to electrification but as a complement, and availability of renewable liquid or gaseous fuels will be crucial for many transport services for the foreseen future. The thermochemical route to biofuels offers high capacity and wide raw material flexibility. Almost any organic material can be transformed to clean fuels that outperforms conventional fossil fuels in terms of climate footprint and combustion properties. Biofuel production based on gasification offers a robust pathway in which the transformation of biomass to gas phase enables effective cleaning of ash components. BioShare work with deep integration of gasification and subsequent gas conversion processes in combined heat and power plants, focusing on biofuel production in the scale 10-100 MW with superior efficiency.