Browse > Article
http://dx.doi.org/10.5855/ENERGY.2014.23.3.132

Advanced Technologies for the Commercialization of Hydrogen Fuel Cell Electric Vehicle  

Cho, Mann (ReSEAT Program, Korea Institute of Science and Technology Information)
Koo, Young-Duk (Korea Institute of Science and Technology Information)
Publication Information
Journal of Energy Engineering / v.23, no.3, 2014 , pp. 132-145 More about this Journal
Abstract
There is a general agreement that performance of hydrogen fuel cell vehicle(FCV) with respect to cold start, packaging, acceleration, refueling time and range has progressed to the point where vehicles that could be brought to market in 2015_2020 will satisfy customer expectations. However cost, durability and the lack of refueling infrastructure remain significant barriers. Cost have been dramatically reduced and durability has been enhanced over the past decade, yet are still about twice what appears to be needed sustainable market success. Advanced Technologies for the commercialization of hydrogen FCV were reviewed.
Keywords
Fuel Cell Electric Vehicle; Catalysis; Polymer Electrolyte Membrane; Compressed Hydrogen Gas; Power Train; Commercialization;
Citations & Related Records
연도 인용수 순위
  • Reference
1 Shimpei Miura, Toyota Motor Corporation IFCW 2012. http://www.fkg.se/wp/wp-content/uploads/2013/05/SLD-2012-3M-Funkenbusch.pdf
2 www.nedodcweb.orgjdailyreport/2012_files/2012-11-16.html 和田憲一郎, ZEV規制2018年問題, Tesla以外の對應は, http://techon.nikkeibp.co.jp/article/COLUMN/20130905/301281/
3 http://www.c2es.org/us-states-regions/policy-ma ps/zev-program http://www.autonews.com/artic le/20131024/OEM05/131029939/california-7-other-states-sign-pact-to-spur-ev-sales#ixzz2rebnP8WD
4 USDRIVE, " Fuel Cell Technical Team Roadmap, June 2013", www1.eere.energy.giv/vehicleandfuels/pdfs/program/fctt_roadmap_june2013.pdf
5 Carbontrust, "Polymer Fuel Cells-Cost reduction and market potential", Sep.2012 http://www.carbontrust.com/media/195742/pfcc-cost-reduction-and-market-potential.pdf
6 M K. Debe, "Review-Electrocatalyst approaches and challenges for automotive fuel cells", Nature 486, 43-51 (2012) doi:10.1038/nature11115 http://www.deskeng.com/pics/1107//1107_DesigningFuel1_305.jpg   DOI
7 B.D. James, et al., "Fuel Cell Transportation Cost Analysis", Strategic Analysis, 2012 http://www.fuelcellseminar.com/media/51421/mot23-3-4.pdf
8 S. Yamane and T. Ohnishi, "Toyota Sees FuelCells as Future of Car Industry", Jan. 6, 2014 http://business.nikkeibp.co.jp/article/eng/20140106/257827/
9 N. Brigugliol, et al., "Fuel Cell Hybrid Electric Vehicles", http://www.intechopen.com/books/electric-vehicles-the-benefits-and-barriers/fuel-cell-hybrid-electric-vehicles
10 FCCJ, "固体高分子形燃料電池の劣化機構解析と劣化現象の解明", FCCJ HP(2008) http://fccj.jp/pdf/20_ kt.pdf
11 内田裕之, 宮武健治, 野原慎土, 渡辺政贋, "燃料電池開發の現状と今後の展望", 應用物理(日本), 81(7), 2012, pp.563-568
12 内田 誠, 柿沼 克良, 渡辺政贋, "固体高分子形燃料電池の触媒層のPt削減と耐久性 向上のための開発の歴史と将来設計", 粉 砕 No. 56, 3-11 (2013)
13 N.M.Markovic & V.R.Stamenkovic, "Nanosegrateted Cathode Catalysts with Ultra-Low Platinum Loading", 2013 DOE Hydrogen and Fuel Cells Program Review, www.hydrogen.energy.gov/pdfs/review13/fc008_markovic_2013.o.pdf
14 M.K.Debe, "Catalysts Working Group Kick-Off Meeting: Personnel Commentary", 2012 Annual Merit Review, DOE Hydrogen and Fuel Cell and Vehicle Technology Program, May 14, 2012 http://www1.eere.energy.gov/hydrogen andfuelcells/pdfs/5_cwg_may2012_debe.pdf
15 R.Atanasoki, "Catalysts Degradation during Transient Condition",2nd Int'l. workshop on Degradation Issue of Fuel Cells, 21-23 Sep, 2011, Thessaloniki, Greece http://iet.jrc.ec.europa.eu/fuel-cells/sites/fuel-cells/files/files/document s/events/catalyst_degradation_during_transient_conditions_-_r.atanasoski.pdf
16 M.K.Debe, et al, " High voltage stability of nanostructured thin film catalysts for PEM fuelcells", Journal of Power Sources, 161(2006) 1002-1011   DOI   ScienceOn
17 J. Imamura & Y. Tarutani, "固體高分子形燃 料電池セパレタ用ステンレ鋼箔" 新日鐵住 金技報 第396號, 111-116(2013)
18 S.Hamrock, "3M, Membranes and MEAs for Dry, Hot Operating Conditions, DOE Hydrog en and Fuel Cell Program 2011 Annual Progr ess Report, http://www.hydrogen.energy.gov/pdfss/progress11/v_c_hamrock_2011.pdf
19 L.Lipp, "High Temperature Membrane with Humidification- Independent Cluster Structure", May 18, 2012 http://www.hydrogen.energy. gov/pdfs/review12/fc040_lipp_2012_o.pdf
20 S. Hirano, et al., "Advanced Metallic Bipolar Plate Technology for Automotive Fuel Cell Stack", 2011 Fuel Cell Seminar & Exposition, Oct.31-Nov.3, 2011 Orlando, FL USA http://www.fuelcellseminar.com/media/8859/dem24-5%20hirano.pdf
21 "FCXクラリティ搭載の新燃料電池スタック", Honda R&D Technical Review Vol.21 No.1 p.1-23 https://www.hondarandd.jp/point.php?pid=143&lang=jp,
22 USDRIVE, "Hydrogen Storage Technical Team Roadmap", www1.eere.energy. ㅎㅐㅍ/vehiclesandfuels/pdfs/program/hstt_roadmap_june2013.pdf
23 USDOE Office of Energy Efficiency and Renewable Energy, "Financial Assistance Funding Opportunity Announcement Number: DE-FOA-0000827,
24 C.D.Warren, "Development of low-cost, high strength commercial Textile precursor(PAN-MA), May 13-16, 2013 http://www.hydrogen.energy.gov/pdfs/review13/st099_warren_2013_o.pdf
25 "High Strength Carbon Fibers for Hydrogen Storage", http://web.ornl.gov/sci/hfcitprogram/Manufacturing/H2%20FS%2007%20Paulauskas.pdf3-4.
26 J. Mueller, M. Leesch, J. Liebold, " Modular 7-speed Hybrid Dual-Clutch Transmission", 自動車技術, vol.67, No. 09, 2013, pp56-62
27 次世代パワー半導体 GaN SiC が競演(2/2) http://eetimes.jp/ee/articles/1307/18/news019.html
28 M. Bek, G. Horsak, K-H Ketteler, M. Lochner, "Electric Axle Drive Car Applications", Applications", 自動車技術, vol.67, No. 09, 2013, pp63-67