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Applications of microwave energy on gas production and tar removal during biomass gasification


Biomass can be converted into renewable biofuels, employing thermochemical techniques, and thus has been considered as a promising alternative for fossil energy resources. Biomass gas which is generally produced via gasification can be used as fuel for heat and power generation as well as raw gas for the production of liquid fuels or chemicals, and thus has been widely studied and commercially developed. Biomass gasification is a complex process mainly involving pyrolysis and subsequent gasification reactions, producing fuel gas and inevitable tar. Microwave heating has the potential to promote gas production during biomass pyrolysis or gasification based on its advantageous characteristics such as rapid heating and selective heating. Also, microwave irradiation can provide a special heating condition, produce unique phenomenons, and form the microwave plasma torch, which may be an effective energy input to promote the cracking and reforming of biomass tar. Thus, the application of microwave energy in this field has attracted growing interest in the past few years. In this paper, a critical review is conducted about the recent progress of biomass gas production and tar cracking/reforming under microwave heating conditions, including chemical mechanisms, utilization of catalysts, and special phenomenons triggered by microwave irradiation, which may provide useful information for optimizing biomass gasification technology for efficient fuel gas production. The present challenges and further development directions for these techniques are discussed as well.

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Article information

11 Jul 2020
02 Oct 2020
First published
07 Oct 2020

Sustainable Energy Fuels, 2020, Accepted Manuscript
Article type
Review Article

Applications of microwave energy on gas production and tar removal during biomass gasification

F. Guo, Y. Dong, B. Tian, S. Du, S. Liang, N. Zhou, Y. Wang, P. Chen and R. Ruan, Sustainable Energy Fuels, 2020, Accepted Manuscript , DOI: 10.1039/D0SE01024C

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