Catalytic combustion characteristics of methane in micro-channels with a concave and convex cavity, respectively, and in straight channel without cavity were numerically investigated. The results show that as the equivalence ratio (phi) increases, the methane conversion increases first and then decreases, the highest methane conversion ratio, which is 85.3%, occurs at phi = 1.0 in the micro-channel with convex wall cavity. The micro-channel with concave wall cavity is not conductive to methane catalytic microcombustion at relatively low velocity. With the inlet velocity increasing, the methane conversion ratio is decreased. In the micro-channel with convex wall cavity, the inner wall pressure increases, because the fuel is disrupted when it flows through the cavity. Then the mixture of methane contact with catalyst is enhanced, which favors the combustion of methane. The recirculation zone which is the largest area formed in the micro-channel with convex wall cavity absorbs more high temperature gas and raises the combustion temperature. Heat transfer in the convex micro-channel is enhanced which makes the temperature distribution more uniform. The maximum value of the extinction limit is 16.5.m/s, which occurs in the micro-channel with convex cavity.

• 出版日期2015-6
• 单位重庆大学