Devolpment of a Navel Heat-Exchange Methane Reformer using a Eelectrically Heated Alumite Catalyst: Deactivation Modeling and Reactor Transient Performance Estimation
A dynamic multiple-phase 2-D model was developed in order to accumulate relevant information before designing the reformer. The start-up performance of the reformer was discussed as affected by the inlet temperature and the electrically heating operation. A deactivation model was employed to estimate the catalyst behavior influenced by the steam, temperature and space velocity effects. Meanwhile, the response for the load fluctuation has also been numerically investigated by using the fuel ratio as the control parameter.
Plate Wall Reactor Simulation Methane Steam Reforming Deactivation model
Qi ZHANG Jyun HATAKEYAMA Yu GUO Lu ZHOU Makuto SAKURAI Hedio KAMEYAMA
Department of Chemical Engineering, Faculty of Engineering,Tokyo University of Agriculture and Technology, Tokyo 184-8588, Japan
国际会议
第四届中日化工学术研讨会(The 4th Joint China/Japan Chemical Engineering Symposium)(CJCES)
成都
英文
2007-12-19(万方平台首次上网日期,不代表论文的发表时间)