Reforming of Ethanol to Produce Hydrogen over PtRuMg/ZrO2 Catalyst

Josh Y. Z. Chiou; Chi-Han Wang; Shih-Yi Yang; Jia-Lin Bi; Chia-Chieh Shen; Chen-Bin Wang

doi:10.1155/2012/573287

Journal of Nanotechnology (Jan 2012)

Reforming of Ethanol to Produce Hydrogen over PtRuMg/ZrO2 Catalyst

Josh Y. Z. Chiou,
Chi-Han Wang,
Shih-Yi Yang,
Jia-Lin Bi,
Chia-Chieh Shen,
Chen-Bin Wang

Affiliations

Josh Y. Z. Chiou: Department of Chemical and Materials Engineering, Chung Cheng Institute of Technology, National Defense University, Tahsi, Taoyuan 33509, Taiwan
Chi-Han Wang: Department of Chemical and Materials Engineering, Chung Cheng Institute of Technology, National Defense University, Tahsi, Taoyuan 33509, Taiwan
Shih-Yi Yang: Department of Chemical and Materials Engineering, Chung Cheng Institute of Technology, National Defense University, Tahsi, Taoyuan 33509, Taiwan
Jia-Lin Bi: Department of Chemical and Materials Engineering, Chung Cheng Institute of Technology, National Defense University, Tahsi, Taoyuan 33509, Taiwan
Chia-Chieh Shen: Fuel Cell Center, Yuan Ze University, Taoyuan 32003, Taiwan
Chen-Bin Wang: Department of Chemical and Materials Engineering, Chung Cheng Institute of Technology, National Defense University, Tahsi, Taoyuan 33509, Taiwan

DOI: https://doi.org/10.1155/2012/573287
Journal volume & issue: Vol. 2012

Abstract

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A modified PtRu/ZrO2 catalyst with Mg is evaluated for the oxidative steam reforming of ethanol (OSRE) and the steam reforming of ethanol (SRE). In order to understand the variation in the reaction mechanism on OSRE and SRE, further analysis of both fresh and used catalyst is concentrated on for TEM, TG, Raman, and TPR characterization. The results show that the OSRE reaction requires a higher temperature (𝑇𝑅∼390°C) to achieve 100% ethanol conversion than the SRE reaction (𝑇𝑅∼2500°C). The distribution of CO is minor for both reactions (< 5% for OSRE, < 1% for SRE). This demonstrates that the water gas shift (WGS) reaction is an important side-reaction in the reforming of ethanol to produce H2 and CO2. A comparison of the temperature of WGS (𝑇WGS) shows it is lower for the SRE reaction (𝑇WGS∼250°C for SRE, ~340°C for OSRE).

Published in Journal of Nanotechnology

ISSN: 1687-9503 (Print); 1687-9511 (Online)
Publisher: Hindawi Limited
Country of publisher: United Kingdom
LCC subjects: Technology: Technology (General)
Website: https://onlinelibrary.wiley.com/journal/8384

About the journal