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一种车载轻质高压金属氢化物复合式储氢罐设计 被引量:4

A design of vehicular lightweight high pressure metal hydride composite hydrogen storage tank
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摘要 随着传统化石燃料储量的减少和二氧化碳排放导致的环境问题日益严重,世界各国都在大力发展新能源汽车。氢燃料电池汽车具有"零排放,无污染"的优点,是未来新能源汽车发展的主要方向之一。车载储氢技术是氢燃料电池汽车发展的关键技术。为了满足新能源汽车对于车载储氢技术的要求,基于现有的储氢技术,发明设计了一种车载轻质高压金属氢化物复合式储氢罐。 With the reduction of traditional fossil fuel and serious environmental problem increasingly caused by carbon dioxide emissions,countries all over the world are vigorously developing new energy vehicles.Hydrogen fuel cell vehicle,with the advantages of"zero emission,no pollution",is one of the main directions for the development of new energy vehicles in the future.On-board hydrogen storage technology is the key for the development of hydrogen fuel cell vehicle.In order to meet the requirements of new energy vehicles for on-board hydrogen storage technology,based on the existing hydrogen storage technology,a lightweight high-pressure metal hydride composite hydrogen storage tank was designed.
作者 殷凡青 姜良超 程吉鹏 Yin Fanqing;Jiang Liangchao;Cheng Jipeng(Automobile of School,Chang'an University,Shaanxi Xi’an 710064)
机构地区 长安大学汽车学院
出处 《汽车实用技术》 2018年第7期148-150,共3页 Automobile Applied Technology
关键词 车载储氢技术 金属氢化物 复合式储氢罐 On-board hydrogen storage technology Metal hydride Composite hydrogen storage tank
分类号 U465.9 [一般工业技术—材料科学与工程]
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  • 1凯利·西姆斯·加拉格尔 ,曾爱平 .能源技术跨越的限制——来自中国汽车工业的证据[J].国外理论动态,2005(8):37-40. 被引量:5
  • 2任建伟,廖世军,刘军民.规模储氢技术及其研究进展[J].现代化工,2006,26(3):15-18. 被引量:21
  • 3[6]Michael Hirscher,Barbara Panella.Hydrogen storage in metalorganic frameworks[J].Scripta Materialia 56(2007)809-912.
  • 4Jorgensen S W. Hydrogen storage tanks for vehicles: Recent progress and current status [ J ]. Current Opinion in Solid State and Materials Science, 2011, (15) : 39- 43.
  • 5Zheng J Y, Liu X X, Xu P, et al. Development of high pressure gaseous hydrogen storage technologies [ J ]. International Journal of Hydrogen Energy, 2012, 37 ( 1 ) : 1048-1057.
  • 6Smith E M. Slush hydrogen for aerospace applications I J]. International Journal of Hydrogen Energy, 1989, 14(3) : 201-213.
  • 7Babac G. Two-dimensional thermal analysis of liquid hydrogen tank insulation [ J ]. International Journal of Hydrogen Energy, 2009, 34(3): 6357-6363.
  • 8Lindquist C R, Niendorf L R. Experimental performance of model liquid-hydrogen space tankage with compressible superinsulation [ J ]. Society of Automotive Engineers, 1962, 89(2): 398-403.
  • 9Perkins P J, Colaluca M A, Smith L S. Preliminary test results on compressed multilayer insulation system for liquid-hydrogen-fueled rocket [ J ]. Advances in Cryogenic Engineering, 1963, 9(2) : 38-45.
  • 10Petitpas G, Aceves S M, Gupta N. Vehicle refueling with liquid hydrogen thermal compression [ J ]. International Journal of Hydrogen Energy, 2012, 37 ( 15 ) : 11448-11457.

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汽车实用技术
2018年 第7期

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