"Improved utilization of biomass-derived carbon by millisecond co-processing with hydrogen rich feedstocks" by Paul J Dauenhauer

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Improved utilization of biomass-derived carbon by millisecond co-processing with hydrogen rich feedstocks

Green Chemistry (2010)

Paul J Dauenhauer, University of Massachusetts - Amherst
J. L Colby
A. Bhan
L. D Schmitt

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Abstract

A reactor capable of improving the utilization of biomass-derived carbon during thermochemical conversion to synthesis gas is demonstrated experimentally. By co-processing hydrogen-deficient biomass (H/C[similar]2) with hydrogen-rich feedstocks (H/C≥4) through catalytic partial oxidation, 100% of the fuel carbon atoms fed to the reactor can be converted to CO.

Disciplines

Chemical Engineering

Publication Date

2010

Publisher Statement

DOI: 10.1039/B920387G

Citation Information

Paul J Dauenhauer, J. L Colby, A. Bhan and L. D Schmitt. "Improved utilization of biomass-derived carbon by millisecond co-processing with hydrogen rich feedstocks" Green Chemistry Vol. 12 (2010)
Available at: http://works.bepress.com/paul_dauenhauer/3/