Assessment of biomass demineralization on gasification: From experimental investigation, mechanism to potential application.
2020
Considering the advantages (e.g. agglomeration mitigation) and disadvantages (e.g. inorganic species catalysis removal) of biomass demineralization, it is valuable to investigate its effects on gasification performance, thus assessing its necessity prior to performing gasification. To accomplish this, corn straw (CS) was demineralized to different degrees with H2O and HCl, respectively. H2O and HCl demineralization behaved different abilities to inorganic species removal. Cellulose and hemicelluloses content decreased, while lignin content increased, especially with HCl demineralization. The experiments were investigated by using a bench-scale downdraft fixed-bed gasifier at 600-800 degrees C and were further analyzed via thermogravimetric coupled with Fourier transform infrared spectrometry. Demineralization demonstrated a positive effect on gasification at lower temperatures (600-700 degrees C) for a dominant effect of lignin content and an insignificant effect of inorganic species removal. However, the catalysis of inorganic species increased as the temperature increased, resulting in the highest H2 (11.30 vol%) and CO (16.02 vol%) production of raw CS compared to demineralized CS at 800 degrees C. Inorganic species had a dual positive effect on CO generation, promoting both CO2 and char generation leading to a higher CO yield following Boundouard reaction, and increasing the formation of active intermediates thus producing more CO. These effects enhanced when the gasification temperature increased. Additionally, inorganic species catalyzed the aromatic rings rearrangement to generate more H2O, thus driving the endothermic Primary water-gas to produce H2. This was also positively correlated with gasification temperature. Therefore, raw CS demonstrated higher H2 and CO production than demineralized CS at a higher gasification temperature. Moreover, the promotion effect of inorganic species on thermal devolatilization of methoxyl groups and Methanation reaction led to the higher CH4 production of raw CS. This research clarifies the effects of biomass demineralization on its gasification and suggests the potential application.
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