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    • 7. 发明公开
    • 반응분리동시공정에 의한 수소제조모듈 및 이를 이용한 수조제조반응기
    • 通过同时反应和分离的氢生产模块及其使用的反应器
    • KR1020130046548A
    • 2013-05-08
    • KR1020110111015
    • 2011-10-28
    • 한국에너지기술연구원
    • 박종수황경란이신근이춘부이성욱박진우
    • C01B3/38B01J19/24
    • C01B3/38B01J19/0093B01J19/249B01J2219/00783B01J2219/00835B01J2219/00844B01J2219/00873B01J2219/00907B01J2219/2453B01J2219/2458B01J2219/2461B01J2219/2475B01J2219/2479C01B2203/0283C01B2203/041C01B2203/1058C01B2203/1241C01B2203/142
    • PURPOSE: A compact hydrogen manufacturing module and a hydrogen manufacturing reactor using the same are provided to improve a thermal efficiency and to correspond to various hydrogen manufacturing scales by developing a reactor for a simultaneous process of a unit cell stacking-type reaction separation. CONSTITUTION: A hydrogen manufacturing module comprises a reaction gas inletting flow path; a first modification flow path; a second modification flow path, a non-penetrated gas discharge flow path; and a hydrogen discharge flow path. The first modification flow path contacts a first modification catalyst and modifies a reaction gas supplied from the inletting flow path. The second modification flow path is connected to the first modification flow path and passes a modified gas between a second modification catalyst and a hydrogen separation membrane. A non-penetrated gas, in which hydrogen is removed by passing through the second modification flow path, is discharged through the non-penetrated gas discharge flow path. The hydrogen discharge flow path is connected to a penetration side of the hydrogen separation membrane. Two ends of each of the inletting flow path, the non-penetrated gas discharge flow path, and the hydrogen discharge flow path are all exposed outside.
    • 目的:提供一种紧凑型氢气制造模块和使用其的制氢反应器,以通过开发用于单元电池堆叠型反应分离的同时工艺的反应器来提高热效率并对应于各种氢制造规模。 构成:氢制造模块包括反应气体进入流路; 第一修改流路; 第二改变流路,非渗透气体排出流路; 和氢气排出流路。 第一改性流路与第一改性催化剂接触并改变从入口流路供给的反应气体。 第二改性流路连接到第一改性流路,并在第二改性催化剂和氢分离膜之间通过改性气体。 通过通过第二改质流路而除去氢的未渗透气体通过非渗透气体排出流路排出。 氢气排出流路与氢分离膜的贯通侧连接。 每个入口流路,未穿透气体排放流路和氢气排出流路的两端都暴露在外部。