Abstract
This chapter describes the long history of the development of hydrogen and related technologies starting in the sixteenth century. Various applications in the history of hydrogen gas are described including airships, aerospace power, electrolyzers, hydrogen combustion, and hydrogen transportation ships for global hydrogen energy networks. The consequent efforts are then described including the realization of hydrogen filling stations, fuel cell vehicles, and stationary fuel cells.
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History of Hydrogen-Great Lakes Fuel Cell Education Foundation Homepage (2005) p 1
History of Hydrogen-Great Lakes Fuel Cell Education Foundation Homepage (2005) p 2
History of Hydrogen-Great Lakes Fuel Cell Education Foundation Homepage (2005) p 3
ELB Electrolysetechnik GmbH Homepage. Dec 15 2013
NEL Hydrogen. Homepage. http://nel-hydrogen.com. Accessed 4 Oct 2015
Guy Verkoeyen, Company History, Presentation at Het Waterst of Net Congress, P1 Helmond, 29 Nov 2013
Fuel Cell Today Homepage, News 2012 June. Hydrogenics wins order from E.ON for power-to-gas energy storage project in Germany
Takano K (2010) Hydrogen distribution from domestic refineries and factories: potential capacity and issues. J Hydrog Energy Syst Soc Jpn (HESS) 35(3):29–33 (in Japanese)
Iseki T, Ikeda Y, Kume T, Yasuda H, Ito M, Takagi Y, Hirosaka H, Tanaka H (2012) Durability improvement of membrane-on-catalyst module for hydrogen production from natural gas. Fuel Cell Seminar 2012, Connecticut, Nov 5–8 2012
Iwatani Corp. Homepage, Liquid Hydrogen for FCV Commercialization South Africa Embassy Economic Office Workshop, 25 Nov 2014
IAHE Homepage, History of IAHE. http://www.iahe.org/history.asp. Accessed 4 Oct 2015
WE-NET Homepage. Hydrogen Technology Development Projects in Oversea’s countries, P1. Hydrogen and WE-NET related data (in Japanese)
Lloyd AC (1999) USA hydrogen projects. In: Proceedings of WE-NET symposium, Tokyo, pp 271–278, 25 Feb 1999
Fukuda K (1999) WE-NET first stage: summary of research and development results. In: Proceedings of WE-NET hydrogen energy symposium, Tokyo, pp 1–26, Feb 24 1999 (in Japanese)
Koda E (1999) Optimisation of hydrogen combustion turbine systems. In: Proceedings of WE-NET hydrogen symposium, Tokyo, pp 223–228, 25 Feb 1999 (in Japanese)
FCH2-JU-Multi Annual Work Plan-MAWP2014–2020, Fuel Cell and Hydrogen Joint Undertaking (FCH JU), Multi-Annual Work Plan 2014–2020. http://www.nerghy.eu/. Accessed 5 Oct 2015
Chart of Patent licensing Support (2004) High efficiency hydrogen storage alloy, National Center for Industrial Property Information and Training, Mar 2005 (in Japanese)
Japan Automobile Research Institute (JARI), Section 3–5 Developmental situation in Japanese automobile manufacturers, Investigated report on the fuel cell vehicle 2003, pp 99-121, Mar 2004 (in Japanese)
Knudsen J, DOE Hydrogen and Fuel Cells Program (2012) Annual progress report. Hydrogen delivery, 6. Development of high pressure hydrogen storage tank for storage and gaseous truck delivery
Tokyo City University, History of the hydrogen energy vehicle research, Apr 2009 (in Japanese)
Wurster R (2001) Overview of existing experience in hydrogen and fuel cells in Germany and Europe, Paris. Hydrogen demonstration activities, Munich airport hydrogen project, 13 Dec 2001
Japan Automobile Research Institute (JARI), Section 3-3 Developmental situation of stationary type and/or the other fuel cell, investigation report on the fuel cell vehicle 2003, Mar 2004 (in Japanese). 3-3 Development situation in overseas automobile manufacturer, pp 64–73, 3-5 3-5 Development situation in Japan automobile manufacturer, pp 98–120
ENAA (2002) Development of hydrogen refueling station for fuel cell vehicles, FCDIC, Fuel Cell RD &D in Japan, pp 206–207
Ikeda T (2014) Part 1-Chapter 3-Section 2, Demonstration of hydrogen station and FCV hydrogen infrastructure. In: Hydrogen utilization technology assembly. vol 4 (NTS), pp 91–101, 25 Apr 2014 (in Japanese)
Butsch H (2014) NOW HRS infrastructure in Germany and Europe-current activities, Washingto D.C., 19 June 2014. http://www.hydrogen.energy.gov/pdfs/review14/h2in_butsch_2014_o.pdf#search=NOW+H2+mobility+action+plan+through+2023. Accessed 5 Oct 2015
Japan Automobile Research Institute (JARI). Homepage, Hydrogen and Fuel Cell Vehicle Safety Evaluation Facility (2005) (in Japanese), http://www.jari.or.jp/tabid/140/Default.ASPX. Accessed 8 Nov 2015
TOYOTA Homepage, MIRAI. http://toyota.jp/mirai/. Accessed 2 Oct 2015 (in Japanese)
Tobe C (2015) New era of a hydrogen energy society. In: Proceedings of FC EXPO 2015, keynote session pp 1–3, 25 Feb 2015
Kawasaki Heavy Industries, Hydrogen energy supply chain utilizing brown coal, Plenary Session 9, 52th Japan–Australia joint business conference, Australia, 14 Oct 2014
Okada Y, Saito M, Onda N, Sakaguchi J (2008) Vision of global hydrogen supply chain and development of hydrogen storage and transportation system by the organic chemical hydride method. J Fuel Cell Technol (HESS) 33(4):8–12 (in Japanese)
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Okano, K. (2016). Development Histories: Hydrogen Technologies. In: Sasaki, K., Li, HW., Hayashi, A., Yamabe, J., Ogura, T., Lyth, S. (eds) Hydrogen Energy Engineering. Green Energy and Technology. Springer, Tokyo. https://doi.org/10.1007/978-4-431-56042-5_4
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DOI: https://doi.org/10.1007/978-4-431-56042-5_4
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