| 초록 |
Liquid organic hydrogen carrier(LOHC) is a liquid organic compound that can safely and stably transport hydrogen, and can reversibly store and release hydrogen through a (de)hydrogenation catalytic reaction. The catalytic reaction of LOHC requires a fairly high temperature and pressure, so to use the LOHC system efficiently and effectively, the (de)hydrogenation reaction must be carried out within an appropriate time and temperature. It is possible not only through the design of the reactor system but also through the formation of a suitable system between LOHC and catalysts. There are various types of dehydrogenation reactor system modules, such as batch type, plug flow reactor, and microfluidic reactor. The microfluidic reactor not only improves the selectivity of the reaction by microfluidic reaction but also needs a small volume of reactant. In this study, a microfluidic reactor using a flow channel was designed, and we would like to report about the flow channel's influence through the channel design from serpentine type channel to honeycomb type channel, and minimization of rib structure in the flow channel for maximizing the dehydrogenation reaction area in the reactor. |
