Kinetic Characterization of Tar Reforming on Commercial Ni-Catalyst Pellets Used for In Situ Syngas Cleaning in Biomass Gasification: Experiments and Simulations under Process Conditions

Abstract: Filtering-catalytic candles, filled with an annular packed-bed of commercial Ni-catalyst pellets (∼600 g), were successfully tested for in situ syngas cleaning in a fluidized-bed biomass steam gasifier [ Fuel Process. Technol. 2019 191 44 53 ]. Those tests enabled the macroscopic evaluation of gasification and gas cleaning as a whole, requiring a more specific assessment of the catalyst performance inside the filter candle. To this end, steam reforming tests… Show more

“…217 This reverberates on CLG, which is thought of as an innovative application to convert solid fuels into syngas and H 2 . 223 The chemical looping treatment of coal may be more complicated than that of gaseous fuels, as coal has a heterogeneous composition including a formerly living matrix (carbon, hydrogen, oxygen, nitrogen, sulfur) and mineral matter (named "ashes", as they are the solid residue of combustion): 83 the removal of ashes accumulation in a continuous operation inevitably causes a loss of OC; sulfur may be converted into syngas pollutants and negatively affect the OC reactivity (e.g., H 2 S which poisons Ni-based materials 224 ).…”

“…The complete development of BCLG, beneficial as a BECCS technology and in BtL chains, must face specific technical issues brought in by biomass nature, i.e., by its proximate and ultimate analyses . The usual high content of volatile compounds in biomass is related to higher reactivity with OCs, but also to a greater tendency to produce a large amount of sticky and acidic tar during gasification. ,,− Among solid fuels for gasification, terrestrial biomasses such as pine and straws show high C/H ratios, therefore producing syngas with high CO/H 2 molar ratio, which in turn may be not suitable depending on the downstream desired use (e.g., CO/H 2 molar ratio = 0.5 is recommended for Fischer-Tropsch , ); cogasification of biomass and solids with lower C/H (e.g., plastics such as polyethylene) may help to increase H 2 fraction in syngas. ,, With regard to syngas pollutants, N-derived ones (HCN, NH 3 , NO x ) must be considered in the gasification of terrestrial biomass (1–2 wt % of N in ultimate analysis) and waste materials as well . As to S, its content is usually very low in plant biomass, so S-derived pollutants (H 2 S, SO x ) are not of significant concern, whereas they are in the gasification of waste materials. , Mineral compounds in solid fuel ashes may negatively affect syngas quality and OC performances.…”

Chemical Looping Combustion and Gasification: A Review and a Focus on European Research Projects

“…217 This reverberates on CLG, which is thought of as an innovative application to convert solid fuels into syngas and H 2 . 223 The chemical looping treatment of coal may be more complicated than that of gaseous fuels, as coal has a heterogeneous composition including a formerly living matrix (carbon, hydrogen, oxygen, nitrogen, sulfur) and mineral matter (named "ashes", as they are the solid residue of combustion): 83 the removal of ashes accumulation in a continuous operation inevitably causes a loss of OC; sulfur may be converted into syngas pollutants and negatively affect the OC reactivity (e.g., H 2 S which poisons Ni-based materials 224 ).…”

“…The complete development of BCLG, beneficial as a BECCS technology and in BtL chains, must face specific technical issues brought in by biomass nature, i.e., by its proximate and ultimate analyses . The usual high content of volatile compounds in biomass is related to higher reactivity with OCs, but also to a greater tendency to produce a large amount of sticky and acidic tar during gasification. ,,− Among solid fuels for gasification, terrestrial biomasses such as pine and straws show high C/H ratios, therefore producing syngas with high CO/H 2 molar ratio, which in turn may be not suitable depending on the downstream desired use (e.g., CO/H 2 molar ratio = 0.5 is recommended for Fischer-Tropsch , ); cogasification of biomass and solids with lower C/H (e.g., plastics such as polyethylene) may help to increase H 2 fraction in syngas. ,, With regard to syngas pollutants, N-derived ones (HCN, NH 3 , NO x ) must be considered in the gasification of terrestrial biomass (1–2 wt % of N in ultimate analysis) and waste materials as well . As to S, its content is usually very low in plant biomass, so S-derived pollutants (H 2 S, SO x ) are not of significant concern, whereas they are in the gasification of waste materials. , Mineral compounds in solid fuel ashes may negatively affect syngas quality and OC performances.…”

Chemical Looping Combustion and Gasification: A Review and a Focus on European Research Projects

Recent approaches on the optimization of biomass gasification process parameters for product H2 and syngas ratio: a review

Gasification of algal residue for synthesis gas production