中文摘要：

导致绝缘的障碍分泌物(CIDBD ) 和催化剂混血儿反应堆的新奇日冕为改革甲烷被开发。导致技术的这日冕允许绝缘的障碍分泌物(DBD ) 在相对低的应用电压在大差距一致地发生。由与蒸气和空气改革甲烷的氢生产低于 600 在气压和温度下面与混合反应堆被调查 ?????  ???? X

英文摘要：

A novel corona inducing dielectric barrier discharge（CIDBD） and catalyst hybrid reactor was developed for reforming methane. This corona inducing technique allows dielectric barrier discharge（DBD） to occur uniformly in a large gap at relatively low applied voltage.Hydrogen production by reforming methane with steam and air was investigated with the hybrid reactor under atmospheric pressure and temperatures below 600°C.The effects of input power,O2/C molar ratio and preheat temperature on methane conversion and hydrogen selectivity were investigated experimentally.It was found that higher methane conversions were obtained at higher discharge power,and methane conversion increased significantly with input power less than 50 W;the optimized molar ratio of O2/C was 0.6 to obtain the highest hydrogen selectivity（112%）;under the synergy of dielectric barrier discharge and catalyst,methane conversion was close to the thermodynamic equilibrium conversion rate.