TY - CONF
T1 - Catalytic combustion of gasified biomass in a platinum monolith honeycomb reactor
AU - Chao, Yei Chin
AU - Chen, Guan Bang
AU - Hsu, Hung Wei
AU - Hsu, Chia Jui
N1 - Funding Information:
The authors sincerely acknowledge the financial support from National Science Council–ROC through Project NSC-89-2212-E-006-075.
PY - 2002
Y1 - 2002
N2 - Catalytic combustion of gasified biomass is becoming one of the important clean energy resources. To perform a systematic analysis, the characteristics of catalytic ignition and reaction of single and multi fuels including simulated gasified biomass were studied in a Pt monolith honeycomb reactor. A two-dimensional channel flow code with multi-step gas-phase and surface reaction mechanisms was used to clarify the detailed interaction mechanism of the main species of the gasified biomass on the surface. The simulated biomass was composed of 23% H2, 42% CO, and 35% CH4. For gasified biomass, the preheat temperature needed for light-off was determined by CO, since CO has the largest adsorption probability on Pt surface. Original is an abstract.
AB - Catalytic combustion of gasified biomass is becoming one of the important clean energy resources. To perform a systematic analysis, the characteristics of catalytic ignition and reaction of single and multi fuels including simulated gasified biomass were studied in a Pt monolith honeycomb reactor. A two-dimensional channel flow code with multi-step gas-phase and surface reaction mechanisms was used to clarify the detailed interaction mechanism of the main species of the gasified biomass on the surface. The simulated biomass was composed of 23% H2, 42% CO, and 35% CH4. For gasified biomass, the preheat temperature needed for light-off was determined by CO, since CO has the largest adsorption probability on Pt surface. Original is an abstract.
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M3 - Paper
AN - SCOPUS:0036940226
SP - 183
T2 - 29th International Symposium on Combustion
Y2 - 21 July 2002 through 26 July 2002
ER -