Catalytic hydroprocessing of biomass fast pyrolysis bio-oil to produce hydrocarbon products

Catalytic hydroprocessing of biomass fast pyrolysis bio-oil to produce hydrocarbon products

Catalytic hydroprocessing has been applied to biomass fast pyrolysis liquid product (bio‐oil) in a bench‐scale continuous‐flow fixed‐bed reactor system. The intent of the research was to develop process technology to convert the bio‐oil into a petroleum refinery feedstock to supplement fossil energy...

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Bibliographic Details
Published in:Environmental progress & sustainable energy Vol. 28; no. 3; pp. 441 - 449
Main Authors: Elliott, Douglas C., Hart, Todd R., Neuenschwander, Gary G., Rotness, Leslie J., Zacher, Alan H.
Format: Journal Article Conference Proceeding
Language:English
Published: Hoboken, USA John Wiley & Sons, Inc 01-10-2009
Wiley
Subjects:
Applied sciences
Catalysis
Catalytic reactions
Chemical engineering
Chemistry
diesel
Exact sciences and technology
gasoline
General and physical chemistry
hydrodeoxygenation
hydrotreating
Pollution
Reactors
refinery feedstock
Theory of reactions, general kinetics. Catalysis. Nomenclature, chemical documentation, computer chemistry
INE, USA, Pacific Northwest
Elementary analysis
Viscosity
Pyrolysis
diesel
Catalytic reaction
Chemical analysis
Hydrocarbon
Hydrotreating
Fixed bed reactor
hydrodeoxygenation
Biomass
gasoline
Density
Petroleum refineries
Research and development
Operating conditions
Continuous process
refinery feedstock
Mass spectrometry
Catalyst
Organic compounds
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Summary:Catalytic hydroprocessing has been applied to biomass fast pyrolysis liquid product (bio‐oil) in a bench‐scale continuous‐flow fixed‐bed reactor system. The intent of the research was to develop process technology to convert the bio‐oil into a petroleum refinery feedstock to supplement fossil energy resources and to displace imported feedstock. The project was a cooperative research and development agreement among UOP LLC, the National Renewable Energy Laboratory and the Pacific Northwest National Laboratory (PNNL). This article is focused on the process experimentation and product analysis undertaken at PNNL. This article describes the experimental methods used and relates the results of the product analyses. A range of catalyst formulations were tested over a range of operating parameters including temperature, pressure, and flow rate with bio‐oil derived from several different biomass feedstocks. Effects of liquid hourly space velocity and catalyst bed temperature were assessed. Details of the process results were presented included product yields and hydrogen consumption. Detailed analysis of the products were provided including elemental composition, chemical functional type determined by mass spectrometry, and product descriptors such as density, viscosity, and total acid number. In conclusion, this article provides an understanding of the efficacy of hydroprocessing as applied to bio‐oil. © 2009 American Institute of Chemical Engineers Environ Prog, 2009
Bibliography:United States Department of Energy - No. DE-AC05-76RL01830
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ArticleID:EP10384
ark:/67375/WNG-9TFTDJTT-T
ObjectType-Article-1
SourceType-Scholarly Journals-1
ObjectType-Feature-2
content type line 23
ISSN:1944-7442
1944-7450
DOI:10.1002/ep.10384