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Co-processing of biofeeds into a standard refinery unit represents a promising pathway for the future to produce renewable transportation fuels and chemicals. The access to biofeeds from ligno-cellulosic biomass resources, particularly bio-oil obtained from biomass fast pyrolysis, has been considered as an attractive option; however, finding a novel and suitable catalyst for bio-oil upgrading and an effective process of upgraded bio-oil in a conventional refinery is required. This book aims to address novel bimetallic catalysts with alloys formation, effective processes and related chemistry…mehr

Produktbeschreibung
Co-processing of biofeeds into a standard refinery unit represents a promising pathway for the future to produce renewable transportation fuels and chemicals. The access to biofeeds from ligno-cellulosic biomass resources, particularly bio-oil obtained from biomass fast pyrolysis, has been considered as an attractive option; however, finding a novel and suitable catalyst for bio-oil upgrading and an effective process of upgraded bio-oil in a conventional refinery is required. This book aims to address novel bimetallic catalysts with alloys formation, effective processes and related chemistry issues to demonstrate a potential pathway for conversion of biomass into sustainable liquid fuels.
Autorenporträt
T.M. Huynh obtained his PhD degree at Leibniz Institute for Catalysis at the University of Rostock (Germany) on bio-oil upgrading for co-processing in standard refinery. Currently, he is working at Vietnam Petroleum Institute as a Manager of Biofuels Department. His interest research is focused on biofuels and the integration with petrochemical.