Direct Coupled Catalytic Upgrading of Multi-Stage Pyrolysis Bio-Oil Vapors

Tuesday, October 18, 2011: 4:14 PM
208 C (Minneapolis Convention Center)
Shaolong Wan1, Xiaohan Zhang1, Trung Pham1, Richard Mallinson1, Lance Lobban1, Daniel Resasco2 and Taiwo Omotoso3, (1)Chemical, Biological, and Materials Engineering, University of Oklahoma, Norman, OK, (2)University of Oklahoma, Norman, OK, (3)Chemical Engineering, University of Oklahoma, Norman, OK

A two-stage pyrolysis was conducted in this work.  The purpose of the multiple stages is to provide a segregated product evolution in which the vapor products maybe be more selectively treated by catalysts to improve product quality and catalyst stability in comparison to one step pyrolysis in which all components of the bio-oil vapor are present, complicating the upgrading requirements to achieve high yield.   This particular two-stage configuration is designed to remove much of the light oxygenates (acetic acid, water, acetol, acetaldehyde) and sugar derived components (furfurals, levoglucosan, pyrans, etc.) in the first stage, with a more concentrated lignin derived phenolics stream produced from the high temperature fast pyrolysis stage.  The phenolics rich vapor from the high temperature stage is treated by a dual function metal and oxide catalyst bed with hydrogen at atmospheric pressure coupled to the exit of the pyrolysis reactor.

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See more of this Session: Biomass Pyrolysis I
See more of this Group/Topical: Fuels and Petrochemicals Division