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滑动弧等离子体协助甲烷蒸汽重整制氢 被引量:5

GLIDING ARC DISCHARGE PLASMA ASSISTED REFORMING OF METHANE INTO HYDROGEN WITH OXYGEN AND WATER VAPOR
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摘要 采用甲烷为主要原料,在常温和常压条件下,利用滑动弧等离子体放电技术,进行了甲烷与空气、水蒸气重整反应的试验。试验研究了过量空气系数、反应气流量和水蒸气含量等参数对甲烷与空气、水蒸气重整反应的影响,并对重整副产物进行了分析。试验表明,当过量空气系数为0.8时,氢气选择性最高可达到45.9%;反应气流量达到14L/min时,单位氢气生产成本最低;在反应气中加入一定量的水蒸气,有利于重整反应的进行。 In this study, the reforming of methane into hydrogen with oxygen and water vapor assisted by gliding arc discharge plasma was investigated at room temperature and atmospheric pressure. The effects of excess air coefficient, gas flow rate and water vapor content were considered, and the by-products were also discussed. In the experiment, the se- lectivity of hydrogen can be achieved up to the maximum of 45.9 % when excess air coefficient reaches about 0.8. The cost of producing hydrogen reaches the lowest point at 14L/min of gas flow rate. The injection of some water vapor could be better for the reforming reaction.
作者 颜士鑫 李晓东 钟犁 余量 严建华 岑可法
机构地区 能源清洁利用国家重点实验室浙江大学热能工程研究所
出处 《太阳能学报》 EI CAS CSCD 北大核心 2011年第5期766-770,共5页 Acta Energiae Solaris Sinica
基金 国家自然科学基金(51076142)
关键词 滑动弧 等离子 甲烷重整 制氢 gliding arc plasma methane reforming hydrogen production
分类号 TE64 [石油与天然气工程—油气加工工程]
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参考文献10

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二级参考文献28

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共引文献47

同被引文献40

  • 1李洁,王彧婕,龙华丽,印永祥,戴晓雁.强电场中甲烷活化的汤生模型及反应动力学分析[J].化学工程,2007,35(8):25-28. 被引量:1
  • 2Gangoli S P, Gutsol A F, Fridman A A. A Non- Equilibrium Plasma Source: Magnetically Stabilized Glid- ing Arc Discharge: I . Design and Diagnostics [J]. Plasma Sources Sci Technol, 2010, 19(6): 1-7.
  • 3FridmanA, Nester S, Kennedy L A, et al. Gliding Arc Gas Discharge [J]. Progress in Energy Comb Sci, 1999, 25(2): 211-231.
  • 4Yan J H, Liu Y N, Bo Z, et al. Degradation of Gas-Liquid Gliding Arc Discharge on Acid Orange II [J]. Journal of Hazardous Materials, 2008, 157(2): 441-447.
  • 5XU G F, DING X W. Syngas Production from Methane Using AC Gliding Arc Reactor [C]// Power Energy Eng Conf. Wuhan: China, 2011:1-4.
  • 6KalraC S, GustolA F, PridmanAA. Gliding Arc Dis- charges as a Source of the Intermediate Plasma for Methane Partial Oxidation [J]. IEEE Trans Plasma Sci- ence, 2005, 33:32-41.
  • 7Rusu I, Cormier J M. On a Possible Mechanism of the Methane Steam Reforming in a Gliding Arc Reactor [J]. Chem En J, 2003, 91:23- 31.
  • 8Streethawong T, Thakonpatthanakun P, Chavadej S. Par- tial Oxidation of Methane with Air for Synthesis Gas Pro- duction in a Multistage Gliding Arc Discharge System [J]. Int J Hydrogen Energy, 2007, 32:1067-1079.
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  • 10Rueangjitt N, Streethawong T, Chavadej S, et al. Non- Oxidative Reforming of Methane in a Mini-Gliding Arc Discharge Reactor: Effects of Feed Methane Concentra- tion, Feed Flow Rate, Electrode Gap Distance, Residence Time, and Catalyst Distance [J]. Plasma Chem Plasma Process, 2011, 31:517-534.

引证文献5

二级引证文献19

太阳能学报
2011年 第5期

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