Mini-Review on Hot Gas Filtration in Biomass Gasification: Focusing on Ceramic Filter Candles

Biomass gasification is increasingly attracting interest in the research of biorenewable energy all over the world, as a carbon-neutral supplement to the conventional fossil energy. It can convert biomass to the burnable producer gas for heat and power production or synthesis of fuels and chemicals....

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Bibliographic Details
Published in:Energy & fuels 2021-08, Vol.35 (15), p.11800-11819
Main Authors: Lang, Lin, Zhu, Hong-yu, Ding, Ying-na, Yin, Xiu-li, Wu, Chuang-zhi, Yu, Xi, Bridgwater, Anthony V
Format: Article
Language:English
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Summary:Biomass gasification is increasingly attracting interest in the research of biorenewable energy all over the world, as a carbon-neutral supplement to the conventional fossil energy. It can convert biomass to the burnable producer gas for heat and power production or synthesis of fuels and chemicals. However, its commercial applications are seriously interfered by the minor but unavoidable contaminants or impurities in the raw product gas, which cause severe problems in the downstream equipment. This paper reviews the recent progress on the hot gas filtration technologies for removing particulate matters (PMs) and tars from the biomass-derived product gas, focusing on ceramic filter candles, which are widely applied in the biomass gasification systems. Developments of PM characterization, hot gas catalytic filtration, and oxidative filtration as well as the numerical simulation of computational fluid dynamics in hot gas filtration are summarized in detail. It also critically discusses the major challenges and future opportunities in hot gas filtration and concludes that the combined oxidative filtration and catalytic filtration with highly efficient catalyst at moderate temperatures (
ISSN:0887-0624
1520-5029
DOI:10.1021/acs.energyfuels.1c01458