F
Feiqiang Guo
Researcher at China University of Mining and Technology
Publications - 8
Citations - 489
Feiqiang Guo is an academic researcher from China University of Mining and Technology. The author has contributed to research in topics: Tar & Pyrolysis. The author has an hindex of 6, co-authored 8 publications receiving 151 citations. Previous affiliations of Feiqiang Guo include University of Minnesota.
Papers
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Journal ArticleDOI
Fast microwave-assisted pyrolysis of wastes for biofuels production - A review.
Yaning Zhang,Yunlei Cui,Shiyu Liu,Liangliang Fan,Nan Zhou,Peng Peng,Yunpu Wang,Feiqiang Guo,Min Min,Yanling Cheng,Yuhuan Liu,Hanwu Lei,Paul Chen,Bingxi Li,Roger Ruan +14 more
TL;DR: The present research focused mainly on the premixed method and showed that the non-premixed/continuous fast microwave-assisted pyrolysis is still promising and challenging.
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Development of biochar-based nanocatalysts for tar cracking/reforming during biomass pyrolysis and gasification
TL;DR: This current study reviews the recent progress in the preparation and application of BBNs for converting tar into fuel gas during biomass gasification or pyrolysis and introduces the formation and chemical characteristics of the BBNs to better understand the catalytic mechanism.
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Catalytic pyrolysis of plastic wastes in a continuous microwave assisted pyrolysis system for fuel production
Nan Zhou,Leilei Dai,Yuancai Lv,Hui Li,Hui Li,Wenyi Deng,Wenyi Deng,Feiqiang Guo,Paul Chen,Hanwu Lei,Roger Ruan +10 more
TL;DR: In this paper, the effects of temperature, plastic composition, and catalysis on the product yields and composition were investigated in a continuous, microwave-assisted pyrolysis (CMAP) system for fuel production.
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Syngas production from biomass pyrolysis in a continuous microwave assisted pyrolysis system
Nan Zhou,Junwen Zhou,Leilei Dai,Feiqiang Guo,Yunpu Wang,Hui Li,Wenyi Deng,Hanwu Lei,Paul Chen,Yuhuan Liu,Roger Ruan +10 more
TL;DR: A continuous microwave-assisted pyrolysis (CMAP) system was developed and its feasibility for syngas production was examined and it was found that the electricity consumption could be reduced from 7.2 MJ to 3.45 MJ per kg of wood, enabling net electricity production from the process.
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Synthesis of Sargassum char-supported Ni-Fe nanoparticles and its application in tar cracking during biomass pyrolysis
TL;DR: In this paper, Ni-Fe nanoparticles supported on biomass char were synthesized by a pyrolysis method using an abundant and fast growing seaweed biomass (Sargassum) as the precursor for biomass tar cracking applications.