Hydrogen production for fuel cell application in an autothermal micro-channel reactor

Reuse, Pierre; Renken, Albert; Haas-Santo, Katja; Gorke, Oliver; Schubert, Klaus

doi:10.1016/j.cej.2004.01.004

Reuse, Pierre; Renken, Albert; Haas-Santo, Katja; Gorke, Oliver; Schubert, Klaus

2004

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Abstract

Results concerning the coupling of the steam reforming and total oxidn. of methanol in a two-passage reactor are presented. A com. available copper-based catalyst is used for the steam reforming. For the total oxidn., a highly active cobalt oxide catalyst was developed. Both catalysts are used in form of thin layers immobilized on the wall of the microchannels. Reactor design and operating conditions are based on kinetic models developed under isothermal conditions in microstructured reactors. For the oxidn. reaction, complete conversion of methanol (>99%) at temps. >250 Deg is obsd. For the steam reforming, the hydrogen and CO2 selectivity is >96% for methanol conversion up to 90%. Besides the steady state, the dynamic behavior of the coupled system is studied. It is shown that the transient behavior is mainly detd. by the thermal inertia of the system. [on SciFinder (R)]

Details

Title Hydrogen production for fuel cell application in an autothermal micro-channel reactor

Author(s) Reuse, Pierre ; Renken, Albert ; Haas-Santo, Katja ; Gorke, Oliver ; Schubert, Klaus

Published in Chemical Engineering Journal

Volume 101

Issue 1-3

Pages 133-141

Date 2004

Keywords

Oxidation; Oxidation kinetics; Reactors; Steam reforming; Steam reforming kinetics (prodn. of hydrogen for fuel cell application by coupling of steam reforming and total oxidn. of methanol in autothermal microchannel reactor); hydrogen prodn autothermal microchannel reactor; fuel cell hydrogen prodn autothermal microchannel reactor

Note CAN 141:26027 52-1 Electrochemical, Radiational, and Thermal Energy Technology EPFL-LGRC,Swiss Federal Institute of Technology,Lausanne,Switz. Journal 1385-8947 written in English. 67-56-1 (Methanol); 1333-74-0 (Hydrogen) Role: CPS (Chemical process), PEP (Physical, engineering or chemical process), PROC (Process) (prodn. of hydrogen for fuel cell application by coupling of steam reforming and total oxidn. of methanol in autothermal microchannel reactor)

DOI https://doi.org/10.1016/j.cej.2004.01.004

Other identifier(s) DAR: 5320
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Laboratories LGRC

Record Appears in Scientific production and competences > SB - School of Basic Sciences > SB Archives > LGRC - Laboratory of Chemical Reaction Engineering
Peer-reviewed publications
Work produced at EPFL
Journal Articles
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Record creation date 2006-04-18

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