Litcius/Paper detail

Study of chemical looping co-gasification of lignite and rice husk with Cu-Ni oxygen carrier

Mengxin Wang, Tianle Li, Yupeng Xiao, Wenju Wang

2021International Journal of Low-Carbon Technologies13 citationsDOIOpen Access PDF

Abstract

Abstract Coal is the dominant composition of fossil fuel but, with the accompanying gaseous products, causes environmental pollution. Here, we report a methodology to improve C conversion in co-gasification. The steam gasification and chemical looping gasification (CLG) of lignite and rice husk with oxygen uncoupling over 5% NiO/CuO oxygen carrier were conducted by non-isothermal kinetics method in a fixed-bed reactor. The gasification results showed that the yields of gas products in CLG of lignite or rice husk are higher than that in steam gasification. The yields of gases in chemical looping co-gasification (CLCG) are higher than that in steam co-gasification. In the co-gasification, the complementation of reactivity between fuels facilitated the C conversion rate, so the yields in co-gasification were higher than in individual gasification. The C conversion in CLCG of lignite and rice husk is 14.51% higher than that in steam co-gasification.

Topics & Concepts

HuskChemical looping combustionOxygenChemistryCoal gasificationWaste managementSyngasChemical engineeringPulp and paper industryCoalHydrogenOrganic chemistryBiologyBotanyEngineeringThermochemical Biomass Conversion ProcessesChemical Looping and Thermochemical ProcessesCoal and Its By-products