期刊文献+

车载甲醇水蒸气重整制氢技术研究进展 被引量:4

Research progress on vehicle-mounted methanol steam reforming technology for hydrogen production
原文传递
导出
摘要 阐述了甲醇重整制氢的途径和甲醇水蒸气重整(SRM)催化剂种类,简述了车载SRM制氢发电系统的工作流程及微反应器的重要性;介绍了反应器的研究现状,包括膜反应器、柱形微反应器、板形微反应器及5种多孔微通道催化剂载体板;展望了车载SRM制氢技术的发展趋势。结果表明,车载SRM技术是氢能源汽车供氢的趋势,选区激光熔化(SLM)增材制造是实现催化剂载体微通道结构可控的解决方案。在满足SLM制造可行性约束条件下,载体的多孔微通道结构参数与其制氢性能的对应关系是研究的主要方向。 The routes for methanol reforming to hydrogen and the types of catalysts for methanol steam reforming(MSR)are described.The workflow of vehicle-mounted MSR hydrogen production-power generation system and the importance of micro reactor for the system are briefly described.Research status on the relating reactors is introduced,including membrane reactor,cylindrical micro reactor,plate micro reactor and five kinds of porous micro-channel catalyst carriers.Development trend of vehicle-mounted MSR hydrogen production technology is also outlooked.It is shown that vehicle-mounted MSR technology represents the trend of hydrogen supply for hydrogen energy vehicles,and selective laser melting(SLM)additive manufacturing is the solution to realize the controllable micro channel structure of the carrier for the catalyst.Under satisfying the constraint conditions of the manufacturing feasibility of SLM,the relationship between the structural parameters of porous micro channel of the carrier and its hydrogen production performance is the main research direction.
作者 陈敏生 刘杰 朱涛 CHEN Min-sheng;LIU Jie;ZHU Tao(School of Mechatronic Engineering and Automation,Foshan University,Foshan 528000,China)
出处 《现代化工》 CAS CSCD 北大核心 2021年第S01期36-41,共6页 Modern Chemical Industry
基金 国家自然科学基金(51922092) 佛山科学技术学院研究生拔尖创新人才培育计划
关键词 甲醇水蒸气重整 制氢 微反应器 多孔结构 催化剂载体 选区激光熔化 methanol steam reforming hydrogen production micro reactor porous structure catalyst support selective laser melting
  • 相关文献

参考文献4

二级参考文献31

  • 1李永峰,林维明,余林.两种甲醇水蒸气重整制氢催化剂的研究[J].燃料化学学报,2004,32(5):617-621. 被引量:8
  • 2潘相敏,宋小瑜,余瀛,周伟,马建新.湿混法制备甲醇氧化重整制氢CuZnAlZr催化剂[J].燃料化学学报,2005,33(3):339-343. 被引量:7
  • 3王艳华,张敬畅,徐恒泳,白雪峰.Pd/ZnO催化剂的还原及其催化甲醇水蒸气重整制氢[J].催化学报,2007,28(3):234-238. 被引量:21
  • 4FRANK B, JENTOFT F C, SOERIJANTO H, et al. Steam reforming of methanol over coppercontaining catalysts: Influence of support material on microkinetics [J]. Journal of Catalysis, 2007,246: 177-192.
  • 5HELMOLT VON R, EBERLE U. Fuel cell vehicles: Status 2007 [J]. Journal of Power Sources, 2007,165:833-843.
  • 6SCHIERMEIER Q. Hydrogen hopes (special report)[J]. Nature, 2007,449:110-111.
  • 7PATEL S, PANT K K. Influence of preparation method on performance of Cu(Zn)(Zr)-alumina catalysts for the hydrogen production via steam reforming of methanol [J]. Journal of Porous Materials, 2006,13 : 373-378.
  • 8BUSCA G, COSTANTINO U, MARMOTTINI F, et al. Methanol steam reform over ex-hydrotalcite Cu--Zn-Al catalysts[J]. Applied Catalysis A: General, 2006,310:70-78.
  • 9QI C X, AMPHLETT J C, BRANT A. Methanol Steam Reforming over NiAl and Ni (M) Al Layereddouble Hydroxides (M = Au, Rh, Ir) Derived Catalysts [J]. Catalysis Letter, 2005, 104(1/2) :57-62.
  • 10HARUTA M, DATE M. Advances in the catalysis of Au nano-partieles[J]. Applied Catalysis A: General, 2001,222(1-2) :427-437.

共引文献32

同被引文献74

引证文献4

二级引证文献20

相关作者

内容加载中请稍等...

相关机构

内容加载中请稍等...

相关主题

内容加载中请稍等...

浏览历史

内容加载中请稍等...
;
使用帮助 返回顶部