2023
DOI: 10.3390/molecules28062793
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New Process Combining Fe-Based Chemical Looping and Biomass Pyrolysis for Cogeneration of Hydrogen, Biochar, Bio-Oil and Electricity with In-Suit CO2 Separation

Abstract: Fe-based chemical looping gasification is a clean biomass technology, which has the advantage of reducing CO2 emissions and the potential of self-sustaining operation without supplemental heating. A novel process combining Fe-based chemical looping and biomass pyrolysis was proposed and simulated using Aspen Plus. The biomass was first subjected to pyrolysis to coproduce biochar, bio-oil and pyrolysis gas; the pyrolysis gas was subjected to an Fe looping process to obtain high-purity hydrogen and carbon dioxid… Show more

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Cited by 6 publications
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“…Chemical Looping Combustion has previously been coupled with biomass pyrolysis for syngas or hydrogen production, but there are some disadvantages to direct biomass chemical looping pyrolysis, like looping material deactivation, a high solid recirculation rate, and the requirement for separation of looping materials and biomass ash [12][13][14]. For these reasons, CLC has been used to burn the volatile fractions [15] or the biochar fraction [16] in biomass pyrolysis for hydrogen or syngas production. In this study, CLC was coupled with volatile fractions with the aim of covering pyrolysis reactor thermal energy requirements, with the surplus thermal energy considered a credit.…”
Section: Introductionmentioning
confidence: 99%
“…Chemical Looping Combustion has previously been coupled with biomass pyrolysis for syngas or hydrogen production, but there are some disadvantages to direct biomass chemical looping pyrolysis, like looping material deactivation, a high solid recirculation rate, and the requirement for separation of looping materials and biomass ash [12][13][14]. For these reasons, CLC has been used to burn the volatile fractions [15] or the biochar fraction [16] in biomass pyrolysis for hydrogen or syngas production. In this study, CLC was coupled with volatile fractions with the aim of covering pyrolysis reactor thermal energy requirements, with the surplus thermal energy considered a credit.…”
Section: Introductionmentioning
confidence: 99%