Universitätsstraße 15
Innsbruck, 6020
Austria
MCI - The Entrepreneurial School
Gasification char, Physical activation, Activated carbon, Micropollutant adsorption, Biochar, Design of Experiments
Novel two-stage bubbling fluidised bed enabled waste wood gasification without additional bed material, Combined secondary air and steam-saturated air improved stability and inhibited slag formation, Steam addition reduced PAH16 and BTX by up to 85 % and 65 %, High gas yields (1.9-2.8 Nm3kg-1) achieved cold gas efficiencies up to 57.8 %, Low tar contents without gas cleaning: PAH16 120-403 mgNm-3, total 0.9-2.8 gNm-3
Gasification char, Activated carbon, Pilot-scale physical activation, Biochar, Polycyclic aromatic hydrocarbons (PAHs)
gasification residues, activated carbon, sewage sludge, char quantification method, waste water treatment, carbonaceous material
Activated carbon, Urban Wastewater Treatment Directive, Residual Wood, Organic Micropollutants, Supply-Demand Analysis
Waste Wood, Biomass gasification, Staged gasification, Bubbling fluidised bed, Small-scale
Pyrolysis, Wooden biomass, Exothermic reactions, Influences on pyrolysis behaviour, Large particles
Gasification residues, Biochar, Anaerobic digestion, Biogas, Anaerobic process stability, Syntrophic, Microbial Community
Gasification residues, Biochar, Anaerobic digestion, Biogas, Anaerobic process stability, Syntrophic, Microbial community
Gasification residues, Biochar, Anaerobic digestion, Biogas, Micropollutants, Closed-loop wastewater treatment