Bi-Functional Catalyst/Sorbent for a H2-Rich Gas from Biomass Gasification

Abstract: The aim of this work is to identify the effect of the CaO phase as a CO2 sorbent and mayenite (Ca12Al14O33) as a stabilizing phase in a bi-functional material for CO2 capture in biomass syngas conditioning and cleaning at high temperature. The effect of different CaO weight contents is studied (0, 56, 85, 100 wt%) in sorbents synthesized by the wet mixing method. These high temperature solid sorbents are upgraded to bi-functional compounds by the addition of 3 or 6 wt% of nickel chosen as the metal active phas… Show more

“…Micheli et al [3] experimentally investigated the synthesis and reactivity of several bi-functional catalyst/sorbent materials for sorption-enhanced reforming processes (with varying Ni and CaO contents), to be applied in biomass gasification. Systems of CaO/Ca 12 Al 14 O 33 solid CO 2 sorbent, upgraded with Ni as a reforming catalyst, were synthesized and characterized by X-ray diffraction, pore analysis, temperature-programmed reduction, and scanning electron microscopy.…”

Special Issue “Methane Reforming Processes”

“…Micheli et al [3] experimentally investigated the synthesis and reactivity of several bi-functional catalyst/sorbent materials for sorption-enhanced reforming processes (with varying Ni and CaO contents), to be applied in biomass gasification. Systems of CaO/Ca 12 Al 14 O 33 solid CO 2 sorbent, upgraded with Ni as a reforming catalyst, were synthesized and characterized by X-ray diffraction, pore analysis, temperature-programmed reduction, and scanning electron microscopy.…”

Special Issue “Methane Reforming Processes”

Progress in carbon capture and impurities removal for high purity hydrogen production from biomass thermochemical conversion

Sorption enhanced steam reforming of biomass-based feedstocks: Towards sustainable hydrogen evolution