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现代化工  2018, Vol. 38 Issue (1): 35-39,41    DOI: 10.16606/j.cnki.issn0253-4320.2018.01.008
  技术进展 本期目录 | 过刊浏览 | 高级检索 |
燃料电池供氢系统的研究进展
王冰1, 侍崇诗1, 黄明宇1, 陈国钧2, 戴国平2, 倪红军1
1. 南通大学机械工程学院, 江苏 南通 226019;
2. 南通科技职业学院, 江苏 南通 226007
Research progress of hydrogen supply system in fuel cells
WANG Bing1, SHI Chong-shi1, HUANG Ming-yu1, CHEN Guo-jun2, DAI Guo-ping2, NI Hong-jun1
1. School of Mechanical Engineering, Nantong University, Nantong 226019, China;
2. Nantong College of Science & Technology, Nantong 226007, China
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摘要 论述了氢氧燃料电池供氢系统的整个流程,从产氢、储氢、供氢管路以及用氢安全几个主要方面对氢氧燃料电池的供氢系统进行分析。其中对产氢与储氢部分对比了工业生产氢气与车辆自载供氢的特点,着重分析了车载储氢罐式供氢管路,对传统管路提出了改进意见。
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王冰
侍崇诗
黄明宇
陈国钧
戴国平
倪红军
关键词:  燃料电池车  氢燃料电池  供氢系统    
Abstract: The entire process of the hydrogen supply system in hydrogen-oxygen fuel cell is discussed.The hydrogen supply system in hydrogen-oxygen fuel cell is analyzed from several main aspects of hydrogen generation,hydrogen storage,hydrogen supply pipeline and security in using hydrogen.The characters of the industrial hydrogen production system are compared with that of vehicle self-mounted type hydrogen supply system from aspects of hydrogen production and hydrogen storage.The hydrogen supply pipeline for vehicle-mounted hydrogen storage tank is analyzed emphatically,and the improving suggestions on traditional hydrogen supply pipeline are put forward.
Key words:  fuel cell vehicle    hydrogen fuel cell    hydrogen supply system
收稿日期:  2017-07-12                出版日期:  2018-01-20
TK91  
基金资助: 国家科技支撑计划课题(2011BAG02B10);江苏高校优势学科建设工程资助项目;南通市科技计划项目(GY12015028);江苏省高校自然科学研究项目(16KJB480005);南通市应用基础研究计划项目(GY12016045)
通讯作者:  黄明宇(1962-),男,教授,研究方向为新能源汽车,通讯联系人,0513-85012672,huang.my@ntu.edu.cn    E-mail:  huang.my@ntu.edu.cn
作者简介:  王冰(1991-),男,硕士生
引用本文:    
王冰, 侍崇诗, 黄明宇, 陈国钧, 戴国平, 倪红军. 燃料电池供氢系统的研究进展[J]. 现代化工, 2018, 38(1): 35-39,41.
WANG Bing, SHI Chong-shi, HUANG Ming-yu, CHEN Guo-jun, DAI Guo-ping, NI Hong-jun. Research progress of hydrogen supply system in fuel cells. Modern Chemical Industry, 2018, 38(1): 35-39,41.
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http://www.xdhg.com.cn/CN/10.16606/j.cnki.issn0253-4320.2018.01.008  或          http://www.xdhg.com.cn/CN/Y2018/V38/I1/35
[1] 饶沙.汽车尾气污染现状及防治对策[J].资源节约与环保,2016,(1):97-97.
[2] 李建秋,方川,徐梁飞.燃料电池汽车研究现状及发展[J].汽车安全与节能学报,2014,5(1):17-29.
[3] Javid R J.P16-Greenhouse gas and air pollution emission reduction from incentivized carpooling[J].Journal of Transport & Health,2016,3(2):71.
[4] Carugno M,Consonni D,Randi G,et al.Air pollution exposure,cause-specific deaths and hospitalizations in a highly polluted Italian region[J].Environmental Research,2016,147:415-424.
[5] 代磊,李明,胡鸣若.燃料电池供氢系统研究进展[J].现代化工,2009,29(11):20-23.
[6] 陈冠益,李强,Spliethoff H,等.生物质热解气化制取氢气[J].太阳能学报,2004,25(6):776-781.
[7] 王立群,李伟振,宋旭,等.生物质与煤共气化制取氢气的试验[J].江苏大学学报:自然科学版,2009,30(5):496-500.
[8] 屈冉,孙振钧,金亚波.有机废水制取氢气的研究现状与展望[J].中国农学通报,2005,21(7):377-381.
[9] Toyota Motor Corp.Fuel cell system and control method of the same:JP,235751A[P].2013-11-12.
[10] Yurdakul M,Ayas N,Bizkarra K,et al.Preparation of Ni-based catalysts to produce hydrogen from glycerol by steam reforming process[J].International Journal of Hydrogen Energy,2016,41(19):8084-8091.
[11] 郑悦,周海琨.电动力汽车的市场化应用[J].节能,2014,33(4):12-14.
[12] Preuster P,Alekseev A,Wasserscheid P.Hydrogen storage technologies for future energy systems[J].Annu Rev Chem Biomol Eng,2017,8(1):445-471.
[13] 杨文刚,李文斌,林松,等.碳纤维缠绕复合材料储氢气瓶的研制与应用进展[J].玻璃钢/复合材料,2015,(12):99-104.
[14] Toyota Motor Corp.Fuel gas tank loading device:JP,132329A[P].2015-07-23.
[15] 何晓克.外加磁场对氢氧机电解效率影响的研究[D].哈尔滨:哈尔滨工业大学,2015.
[16] 陆瑞轮,LURuilun.LNG客车供气系统的安装设计[J].汽车零部件,2013,(2):84-86.
[17] Won W,Kwon H,Han J H,et al.Design and operation of renewable energy sources based hydrogen supply system:Technology integration and optimization[J].Renewable Energy,2017,103:226-238.
[18] 陈国钧,陈靓,戴国平,等.氢燃料电池车耗氢量实时显示装置及其检测方法:CN,106123984A[P].2016-11-16.
[19] Navale S J,Kulkarni R R,Thipse S S.An experimental study on performance,emission and combustion parameters of hydrogen fueled spark ignition engine with the timed manifold injection system[J].International Journal of Hydrogen Energy,2017,42(12):8299-8309.
[20] 田颖,金振华,裴方芳,等.燃料电池汽车氢气消耗量检测试验台测控系统的开发[J].汽车工程,2014,(6):725-727.
[21] 付甜甜.电动汽车用氢燃料电池发展综述[J].电源技术,2017,41(4):651-653.
[22] 戴闻.新型碳蜂窝结构存储大量氢气——助力燃料电池[J].物理,2016,45(4):262-262.
[23] 孟彦伟.直接甲醇燃料电池在通信基站的应用前景展望[J].电信工程技术与标准化,2015,(11):88-91.
[24] Toyota Motor Corp.Separator and fuel cell:JP,072757A[P].2014-04-16.
[25] Zhi X L,Zhou S,Gao K P,et al.Rapid control prototype design for hydrogen-oxygen fuel cell power system[J].Chinese Journal of Power Sources,2016,40(2):305-308.
[26] Cho E S,Ruminski A M,Aloni S,et al.Erratum:Graphene oxide/metal nanocrystal multilaminates as the atomic limit for safe and selective hydrogen storage[J].Nature Communications,2016,7:10804.
[27] 李学斌,杨振东.高压氢气充装设计中的注意事项[J].氯碱工业,2015,51(11):38-39.
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[1] . [J]. Modern Chemical Industry, 2015, 35(11): 77 -80 .
[2] . [J]. Modern Chemical Industry, 2015, 35(12): 128 -130,132 .
[3] . [J]. Modern Chemical Industry, 2017, 37(6): 103 -0106,108 .
[4] . [J]. , 2003, 23(5): 0 .
[5] . [J]. , 2009, 29(6): 0 .
[6] . [J]. , 2010, 30(3): 0 .
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[8] . [J]. , 2007, 27(2): 0 .
[9] . [J]. Modern Chemical Industry, 2014, 34(2): 131 -133 .
[10] . [J]. Modern Chemical Industry, 2014, 34(4): 14 -16 .
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