Numerical investigation of wall heat conduction effects on catalytic combustion in split and continuous monolith tubes
نویسندگان
چکیده
The optimum length of a monolith tube is one for which near-hundred percent conversion is attained, and at the same time, the catalyst over the ntire length of the tube is utilized. In practice, the length is adjusted by stacking monolith plugs end-to-end. In this study, the repercussions of uch a practice are investigated numerically with the goal to determine if a tube of length 2L demonstrates the same behavior as two tubes of length each, stacked end-to-end. Catalytic combustion of methane–air mixture on a platinum catalyst is considered. The studies are conducted using multi-step reaction mechanism involving 24 surface reactions between 19 species. Two different materials are considered for the walls of the onolith tube, namely silicon carbide and cordierite. Both steady state and transient simulations are performed. Results indicate that the ignition nd blowout limits can be significantly different between split and continuous tubes when the wall is made up of a high thermal conductivity aterial, such as silicon carbide. For steady state combustion, for both wall materials, the point of attachment of the flame to the wall is altered by plitting the tube—the effect being more pronounced for silicon carbide and at relatively high Reynolds numbers. These results imply that axial eat conduction, or lack thereof due to thermal contact resistance, through the walls of the monolith results in thermal non-equilibrium between he solid and fluid phase, and subsequently affects ignition and flame stability in catalytic combustion. 2007 Elsevier Ltd. All rights reserved.
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ورودعنوان ژورنال:
- Computers & Chemical Engineering
دوره 32 شماره
صفحات -
تاریخ انتشار 2008