Biomass chemical looping gasification for syngas production using modified hematite as oxygen carriers

• Published in: Journal of environmental sciences (China) Vol. 125; pp. 171 - 184
• Main Authors: Jiang, Cong, Jin, Xiaoyu, Xu, Tingting, Xiao, Bo, Hu, Zhiquan, Wang, Xun
• Format: Journal Article
• Language: English
• Published: Elsevier B.V 01.03.2023
• Subjects: Chemical looping gasification; Modified hematite; Oxygen carrier; Pine sawdust; Syngas; Pine sawdust; Oxygen carrier; Modified hematite; Chemical looping gasification; Syngas
• ISSN: 1001-0742; 1878-7320
• DOI: 10.1016/j.jes.2021.11.028

Syngas is a clean energy carrier and a major industrial feedstock. In this paper, syngas was produced via biomass chemical looping gasification (CLG) process. Hematite, the most common Fe-based oxygen carrier (OC), was modified with different metal oxides (CeO2, CaO and MgO) by the impregnation method. The hematite modified by CeO2, CaO and MgO was namely as CeO2-hematite (CeO2-H), CaO-hematite (CaO-H) and MgO-hematite (MgO-H), respectively. The introduction of CeO2, CaO and MgO enhanced the reactivity of lattice oxygen of hematite. The optimum condition for syngas production had been explored as the mass ratio of oxygen carrier to biomass (O/B) of 0.2, the mass ratio of steam to biomass (S/B) of 0.75 and temperature of 800°C in the biomass CLG process. The CeO2-H exhibited the most wonderful performance compared to that for CaO-H and MgO-H. The crystal composition of OC influenced greatly in the CLG process. CeFeO3 had a good oxygen mobility property and lattice oxygen releasing capacity due to the most oxygen vacancy distributed on the OC surface and the most active lattice oxygen, which is conducive to the biomass chemical looping gasification process for syngas production, leading to the highest gasification efficiency of 95.86% and gas yield of 1.20 m3/kg of the three. Cyclic test proved that CeO2-H had well sintering resistance and cyclic performance. [Display omitted]