Fast pyrolysis | Pyrolysis oil and diesel engine for electricity | Pyrolysis combustion engine (compression-ignition) | Power (0.25 MWe), Heat (0.25 MWth) | | Level 6, Prototype system verified | 53 |
Syngas platform | Fluidised bed gasification for FT-fuels production | Syngas to FT-diesel | Power (1.5 MWe), Heat (26 MWth), FT-diesel (16 m3/hour) | Stemwood from thinnings originating from nonconifer trees, Stemwood from thinnings originating from conifer trees, Bark residues from pulp and paper industry, Residues from further woodprocessing, Non hazardous post consumer wood | Level 7, Integrated pilot system demonstrated | 52 |
Syngas platform | Indirect gasification for SNG production | Producer gas to biomethane | Methane (11850 m3/hour) | Stemwood from thinnings originating from nonconifer trees, Stemwood from thinnings originating from conifer trees, Bark residues from pulp and paper industry, Residues from further woodprocessing, Non hazardous post consumer wood | Level 7, Integrated pilot system demonstrated | 44 |
Syngas platform | Fluidised bed gasification for methanol production | Syngas to methanol | Heat (45 MWth), Methanol (41.8 m3/hour) | Stemwood from thinnings originating from nonconifer trees, Stemwood from thinnings originating from conifer trees, Bark residues from pulp and paper industry, Residues from further woodprocessing, Non hazardous post consumer wood | Level 7, Integrated pilot system demonstrated | 41 |
Fast pyrolysis | Pyrolysis and hydrogenation for diesel fuel | Pyrolysis oil diesel | Pyrolysis diesel (23.6 m3/hour) | Stemwood from thinnings originating from nonconifer trees, Stemwood from thinnings originating from conifer trees, Sawdust from sawmills from conifers, Sawmill residues: excluding sawdust, conifers, Residues from further woodprocessing | Level 4, Laboratory testing protoype component or process | 40 |
Fast pyrolysis | Pyrolysis plus boiler for heat and steam | Pyrolysis oil to steam | Heat (25 MWth) | | Level 9, System ready for full scale deployment | 39 |
Fast pyrolysis | Pyrolysis plus boiler for heat and steam | Pyrolysis oil to heat | Heat (5 MWth) | | Level 8, System integrated in commercial design | 38 |
Anaerobic digestion | Plug flow digester | Dry Batch Digestion (MSW) | Power (1 MWe), Biogas (700 m3/hour), Methane (420 m3/hour) | Biowaste as part of integrally collected municipal waste: Biodegradable waste of not separately collected municipal waste (excluding textile and paper), Separately collected biowaste: Biodegradable waste of separately collected municipal waste (excluding textile and paper) | Level 9, System ready for full scale deployment | 35 |
Direct combustion of solid biomass | Domestic residential batch fired stoves for heat | Batch stove for heat | Heat (0.015 MWth) | Stemwood from final fellings originating from nonconifer trees, Stemwood from final fellings originating from conifer trees, Stemwood from thinnings originating from nonconifer trees, Stemwood from thinnings originating from conifer trees | Level 9, System ready for full scale deployment | 34 |
Direct combustion of solid biomass | Domestic pellet burners for heat | Pellet boiler for heat | Heat (0.02 MWth) | Stemwood from final fellings originating from nonconifer trees, Stemwood from final fellings originating from conifer trees, Sawdust from sawmills from nonconifers, Sawdust from sawmills from conifers | Level 9, System ready for full scale deployment | 33 |
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 | Direct co-combustion in coal fired power plants | Co-firing in PC | Power (500 MWe) | Sawdust from sawmills from nonconifers, Sawdust from sawmills from conifers, Stemwood from final fellings originating from nonconifer trees, Stemwood from final fellings originating from conifer trees | Level 9, System ready for full scale deployment | 31 |
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 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 |
Treatment in subcritical water | Aqueous Phase Reforming | Aqueous Phase Reforming | Gasoline (5.4 liter/hour) | Stemwood from thinnings originating from nonconifer trees, Stemwood from thinnings originating from conifer trees | Level 5, Laboratory testing integrated system | 27 |
Fast pyrolysis | Pyrolysis plus boiler for heat and steam | Fast pyrolysis of residues | Power (0.1 MWe), Heat (3.4 MWth), Pyrolysis oil (2.7125 m3/hour) | Cereals straw, Sunflower straw, Logging residues from final fellings originating from nonconifer trees, Logging residues from final fellings originating from conifer trees | Level 7, Integrated pilot system demonstrated | 24 |
Fast pyrolysis | Pyrolysis plus boiler for heat and steam | Fast pyrolysis of clean wood | Power (0.33 MWe), Heat (3.2 MWth), Pyrolysis oil (2.667 m3/hour) | Residues from further woodprocessing, Stemwood from thinnings originating from nonconifer trees, Stemwood from thinnings originating from conifer trees | Level 8, System integrated in commercial design | 23 |
Torrefaction | Moving bed reactor | Torrefaction and pelletisation (TOP) | Torrefied biomass (10.7 m3/hour) | Stemwood from thinnings originating from nonconifer trees, Stemwood from thinnings originating from conifer trees | Level 9, System ready for full scale deployment | 18 |
Techniques from pulp and paper industry | Prehydrolysis Kraft process in water phase | Prehydrolysis kraft | Power (76 MWe), Pulp (75 tonnes/hour), Hemicellulose (0 tonnes/hour), Tall oil (3 tonnes/hour), Turpentine (0.4 tonnes/hour) | Stemwood from final fellings originating from nonconifer trees, Stemwood from final fellings originating from conifer trees, Stemwood from thinnings originating from nonconifer trees, Stemwood from thinnings originating from conifer trees | Level 9, System ready for full scale deployment | 17 |
Techniques from pulp and paper industry | Kraft process with LignoBoost process | Kraft process with Lignoboost | Power (28.7 MWe), Lignin (10.1 tonnes/hour), Pulp (75 tonnes/hour), Tall oil (3.3 tonnes/hour), Turpentine (0.4 tonnes/hour) | Stemwood from final fellings originating from nonconifer trees, Stemwood from final fellings originating from conifer trees, Stemwood from thinnings originating from nonconifer trees, Stemwood from thinnings originating from conifer trees | Level 9, System ready for full scale deployment | 16 |
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