Oleochemical processing | Intermolecular condensation | Intermolecular condensation for oligormers production | Pyrolysis oil (2.7125 m3/hour) | | | 88 |
Oleochemical processing | Hydrolysis | Hydrolysis for short chain fatty acids production | Pyrolysis oil (2.7125 m3/hour) | | | 92 |
Oleochemical processing | Hydrogenation | Hydrogenation for fatty alcohols production | Pyrolysis oil (2.7125 m3/hour) | | | 87 |
Treatment in subcritical water | Hydrothermal processing | HTC Hydrothermal carbonisation of biowaste to coal for CHP | Biocoal (2.1 tonnes/hour) | Separately collected biowaste: Biodegradable waste of separately collected municipal waste (excluding textile and paper), Biowaste as part of integrally collected municipal waste: Biodegradable waste of not separately collected municipal waste (excluding textile and paper), Other by-products and residues from food and fruit processing industry | Level 7, Integrated pilot system demonstrated | 74 |
Extraction of fibers | Hemp fiber processing for pulp and paper | Hemp fiber processing for pulp and paper | Pyrolysis oil (2.7125 m3/hour) | | | 100 |
Extraction of fibers | Hemp fiber processing for composite material | Hemp fiber processing for composite material | Pyrolysis oil (2.7125 m3/hour) | | | 98 |
Extraction of fibers | Hemp fiber processing for agro textile | Hemp fiber processing for agro textile | Pyrolysis oil (2.7125 m3/hour) | | | 99 |
Oleochemical processing | Heat polymerisation | Heat polymerisation for blown/stand oil production | Pyrolysis oil (2.7125 m3/hour) | | | 89 |
Direct combustion of solid biomass | Waste incinerators with energy recovery | Grate fired waste incinerator | Power (10 MWe), Heat (25 MWth) | Hazardous post consumer wood, Non hazardous post consumer wood, Biowaste as part of integrally collected municipal waste: Biodegradable waste of not separately collected municipal waste (excluding textile and paper) | Level 9, System ready for full scale deployment | 32 |
Direct combustion of solid biomass | Fixed bed combustion for heat | Grate boiler with wood chips for heat | Heat (15 MWth) | Logging residues from final fellings originating from nonconifer trees, Logging residues from final fellings originating from conifer trees, Non hazardous post consumer wood, Residues from further woodprocessing, Bark residues from pulp and paper industry | Level 9, System ready for full scale deployment | 29 |
Direct combustion of solid biomass | Fixed bed combustion for CHP (steam cycle) | Grate boiler with wood chips for CHP | Power (5 MWe), Heat (10 MWth) | Logging residues from final fellings originating from nonconifer trees, Logging residues from final fellings originating from conifer trees, Non hazardous post consumer wood, Residues from further woodprocessing, Bark residues from pulp and paper industry | Level 9, System ready for full scale deployment | 30 |
Direct combustion of solid biomass | Fixed bed combustion for heat | Grate boiler with straw for heat | Heat (2 MWth) | Cereals straw, Giant reed (Perennial grass) | Level 9, System ready for full scale deployment | 75 |
Direct combustion of solid biomass | Fixed bed combustion for CHP (steam cycle) | Grate boiler with agrobiomass for CHP | Power (10 MWe), Heat (20 MWth) | Cereals straw, Giant reed (Perennial grass) | Level 9, System ready for full scale deployment | 73 |
Gasification technologies | Fixed bed (downdraft) for CHP (gas engine) | Fixed bed for CHP | Power (0.05 MWe), Heat (0.1 MWth) | Stemwood from thinnings originating from nonconifer trees, Stemwood from final fellings originating from conifer trees | Level 9, System ready for full scale deployment | 12 |
Gasification technologies | Fixed bed (updraft), direct combustion | Fixed bed, direct combustion | Heat (5 MWth) | Logging residues from final fellings originating from nonconifer trees, Logging residues from final fellings originating from conifer trees, Bark residues from pulp and paper industry, Residues from further woodprocessing, Non hazardous post consumer wood | Level 9, System ready for full scale deployment | 13 |
Extraction of fibers | Hemp fiber processing for insulation material, VC example | Fiber processing of hemp to insulation material | Pyrolysis oil (2.7125 m3/hour) | Industrial hemp | | 85 |
Biochemical hydrolysis and fermentation | Fermentation | Fermentation alkaline pretreated | Ethanol (10.2 m3/hour) | | Level 9, System ready for full scale deployment | 56 |
Biochemical hydrolysis and fermentation | Fermentation | Fermentation acid pretreated | Ethanol (7.58 m3/hour) | | Level 9, System ready for full scale deployment | 62 |
Fast pyrolysis | Pyrolysis and hydrogenation for diesel fuel | Fast pyrolysis oil thermochemical fractionation to pyrolytic sugars | Pyrolysis oil (2.7125 m3/hour) | Stemwood from final fellings originating from nonconifer trees, Stemwood from thinnings originating from nonconifer trees, Stemwood from thinnings originating from conifer trees, SRC Willow, SRC Poplar | | 77 |
Fast pyrolysis | Pyrolysis and hydrogenation for diesel fuel | Fast pyrolysis oil thermochemical fractionation to pyrolytic lignin | Pyrolysis oil (2.7125 m3/hour) | Stemwood from final fellings originating from nonconifer trees, Stemwood from thinnings originating from nonconifer trees, Stemwood from thinnings originating from conifer trees, SRC Willow, SRC Poplar | | 78 |
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