Istadi, I. and Anggoro, D. D. and Amin, N.A.S. and Ling, D.H.W (2011) Catalyst Deactivation Simulation Through Carbon Deposition in Carbon Dioxide Reforming over Ni/CaO-Al2O3 Catalyst. BULLETIN OF CHEMICAL REACTION ENGINEERING & CATALYSIS, 6 (2). pp. 129-136. ISSN 1978-2993
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Official URL: http://ejournal.undip.ac.id/index.php/bcrec/articl...
Abstract
Major problem in CO2 reforming of methane (CORM) process is coke formation which is a carbonaceous residue that can physically cover active sites of a catalyst surface and leads to catalyst deactivation. A key to develop a more coke-resistant catalyst lies in a better understanding of the methane reforming mechanism at a molecular level. Therefore, this paper is aimed to simulate a micro-kinetic approach in order to calculate coking rate in CORM reaction. Rates of encapsulating and filamentous carbon formation are also included. The simulation results show that the studied catalyst has a high activity, and the rate of carbon formation is relatively low. This micro-kinetic modeling approach can be used as a tool to better understand the catalyst deactivation phenomena in reaction via carbon deposition. Copyright © 2011 BCREC UNDIP. All rights reserved. [How to Cite: I. Istadi, D.D. Anggoro, N.A.S. Amin, and D.H.W. Ling. (2011). Catalyst Deactivation Simulation Through Carbon Deposition in Carbon Dioxide Reforming over Ni/CaO-Al2O3 Catalyst. Bulletin of Chemical Reaction Engineering & Catalysis, 6 (2): 129-136]
Item Type: | Article |
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Uncontrolled Keywords: | CO2 reforming of methane; CORM; Ni/CaO-Al2O3; coke formation; micro-kinetic modeling;simulation |
Subjects: | T Technology > TP Chemical technology Q Science > QD Chemistry |
Divisions: | UNDIP Journal > Bulletin of Chemical Reaction Engineering and Catalysis Faculty of Engineering > Department of Chemical Engineering Faculty of Engineering > Department of Chemical Engineering |
ID Code: | 30974 |
Deposited By: | Dr. Istadi Istadi |
Deposited On: | 10 Nov 2011 14:43 |
Last Modified: | 10 Nov 2011 14:43 |
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