Title :
The Effect of Oxygen to Methane Ratio on the Methane-wet Air Autothermal Reforming and Carbon Deposition in the Micro-chamber
Author :
Jingyu, Ran ; Weifeng, Tu
Author_Institution :
Chongqing Univ., Chongqing, China
Abstract :
Considering the problems of catalyst carbon deposition and reforming endothermic reaction in micro reforming chamber, coupled methane catalyst partial oxidation and steam methane reforming can make the micro reforming system auto-supply heat and inhibit the carbon deposited on the catalyst. For the propose of optimizing methane-wet air autothermal reaction conditions, the effect of oxygen to methane ratio on the methane-wet air autothermal reforming and carbon deposition in the micro-chamber were simulated, at a preheat temperature of 800 K. The results show the optimum oxygen to methane ratio was 0.2 to 0.225, with the mass fraction of H2 reached 4.52% ~ 4.81% and the density of surface carbon deposition reduced 6.6124 × 10-7 ~ 3.833 × 10-7 kmol/m2 when the steam to methane ratio was 1~ 2.5 as the feed.
Keywords :
carbon; catalysis; catalysts; combustion equipment; fuel processing industries; micromechanical devices; organic compounds; oxygen; steam reforming; catalyst carbon deposition; coupled methane catalyst partial oxidation; mass fraction; methane-wet air autothermal reaction; methane-wet air autothermal reforming; microchamber; microreforming chamber; microreforming system auto-supply heat; oxygen-methane ratio; reforming endothermic reaction; steam methane reforming; temperature 800 K; Carbon; Combustion; Feeds; Fuels; Heating; Surface cracks; Surface treatment; autothermal reforming; carbon deposition; micro-chamber; oxygen to methane ratio;
Conference_Titel :
Measuring Technology and Mechatronics Automation (ICMTMA), 2011 Third International Conference on
Conference_Location :
Shangshai
Print_ISBN :
978-1-4244-9010-3
DOI :
10.1109/ICMTMA.2011.770
