期刊
INTERNATIONAL JOURNAL OF HYDROGEN ENERGY
卷 34, 期 5, 页码 2174-2183出版社
PERGAMON-ELSEVIER SCIENCE LTD
DOI: 10.1016/j.ijhydene.2008.11.115
关键词
Hydrogen; Municipal solid waste; Steam gasification; Dolomite; Catalyst; Weight hourly space velocity; Thermodynamic equilibrium; Kinetic model
资金
- National Natural Science Foundation of China [20876066]
- Hubei Province Scientific and Technological Project Foundation [2007AA2041301]
- Hubei Province Transformation Foundation of Scientific and Technological Achievements in Agriculture [2008GB2D100208]
The present work deals with a study coupling experiments and modeling of catalytic steam gasification of municipal solid waste (MSW) for producing hydrogen-rich gas or syngas (H-2 + CO) with calcined dolomite as a catalyst in a bench-scale downstream fixed bed reactor. The influence of steam to MSW ratios (S/M) on gas production and composition was studied at 900 degrees C over the S/M range of 0.39-1.04, for weight hourly space velocity (WHSV) in the range of 1.22-1.51 h(-1). over the ranges of experimental conditions examined, calcined dolomite revealed better catalytic performance at the presence of steam. H-2 and CO2 contents increased with S/M increasing, while CO and CH4 contents decreased sharply, the contents of CH4, C2H4 and C2H6 were relatively small, and the influence of S/M was insignificant. The highest H-2 content of 53.22 mol%, the highest H-2 yield of 42.98 mol H-2/kg MSW, and the highest H-2 potential yield of 59.83 mol H-2/kg MSW were achieved at the highest S/M level of 1.04. Furthermore, there was a good agreement between the experimental gas composition and that corresponding to thermodynamic equilibrium data calculated using GasEq model. Consequently, a kinetic model was proposed for describing the variation of H-2 yield and carbon conversion efficiency with S/M during the catalytic steam gasification of MSW. The kinetic model revealed a good performance between experimental results and the kinetic model. (C) 2008 International Association for Hydrogen Energy. Published by Elsevier Ltd. All rights reserved.
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