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天然气制氢工艺技术研究进展 被引量:17

Development In the Research of Hydrogen Production Processes by Natural Gas
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摘要 在未来的能源结构中氢能将占有越来越重要的地位。天然气制氢作为最经济的化石资源制氢过程在未来的20 a仍然将在氢能领域占据主要地位。综述了国内外天然气制氢的技术工艺研究现状,进展及发展方向。介绍了各工艺的优缺点,现存的问题及各工艺需解决的关键问题。 Hydrogen will play a more and more important role as a kind of energy in the future. Over the next 20 years, hydrogen production by natural gas, which is one of the way to hydrogen production by fossil fuels, is the most economical. The hydrogen manufacture process by natural gas and the development abroad and home were reviewed. The advantages and disadvantages of the process were introduced, and the problems existing in the process were ana- lyzed.
作者 史云伟 刘瑾
机构地区 西南石油大学化学化工学院
出处 《化工时刊》 CAS 2009年第3期59-61,68,共4页 Chemical Industry Times
关键词 天然气 蒸气转化 部分氧化 自热转化 natural gas hydrogen steam reforming partial oxidation Autothermal reforming
分类号 TQ116.2 [化学工程—无机化工] TK01 [动力工程及工程热物理]
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参考文献13

  • 1杨旸,崔一尘,蔡宁生.天然气裂解制氢的研究进展[J].太阳能学报,2006,27(10):967-972. 被引量:12
  • 2叶京,张占群.国外天然气制氢技术研究[J].石化技术,2004,11(1):50-52. 被引量:21
  • 3李群.PSA净化制氢装置降低氢气生产成本的途径浅析.见:加氢裂化协作组第四届年会资料,1996.8-11.
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  • 5Kiyoshi Otsuka, Shoji Kobayashi. Decomposition and regener - ation of methane in the absence and the presence of a hydrogen - absorbing alloy CaNi5 [ J ]. Appl. Catal. A: General, 2000,190:261-268
  • 6Muradov N. Catalysis of methane decomposition over elemen-tal carbon[J]. Catal. C, 2001, (2):89-94
  • 7Zhang Tiejun, Michael D, Amiridis. Hydrogen production via the direct cracking of methane over silica - supported nickel catalysts [ J ]. Appl. Catal. A : General, 1998,167 :161 - 172
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二级参考文献27

  • 1HPI Costruction Boxseore,Hydrocarbon Processing,2003,5-20.
  • 2李群,董世达.水蒸气转化制氢原料的选择与工业应用技术的发展.见:加氢裂化协作组第二届年会资料.1996.1-3.
  • 3James DFleshman.New Hydrogen Plant Design Achieves Low Cost and High Efficiency.Chief Process Engineer NPRA-1999.
  • 4李群.PSA净化制氢装置降低氢气生产成本的途径浅析.见:加氢裂化协作组第四届年会资料,1996.8-11.
  • 5Zhang Tiejun,Michael D,Amiridis.Hydrogen production via the direct cracking of methane over silica-supported nickel catalysts[J].Appl Catal A:General,1998,167:161-172.
  • 6Avdeeva L B,Kochubey D I.Cobalt catalysts of methane decomposition:accumulation of the filamentous carbon[J].Appl Catal A:General,1999,177:43-51.
  • 7Choudhary T V,Goodman D W.CO-free production of hydrogen via stepwise steam reforming of methane[J].J Catal,2000,192:316-321.
  • 8Kiyoshi Otsuka,Shoji Kobayashi.Decomposition and regeneration of methane in the absence and the presence of a hydrogen-absorbing alloy CaNi5[J].Appl Catal A:General,2000,190:261-268.
  • 9Sakae Takenaka,Hitoshi Ogihara.Decomposition of methane over supported-Ni catalysts:effects of the supports on the catalytic lifetime[J].Appl Catal A:General,2001,217:101-110.
  • 10Muradov N.Catalysis of methane decomposition over elemental carbon[J].Catal C,2001,(2):89-94.

共引文献27

同被引文献111

引证文献17

二级引证文献72

化工时刊
2009年 第3期

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