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Issues in Energy Storage for Electric-Based Transportation

Published online by Cambridge University Press:  31 January 2011

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Abstract

The key to market success for electric vehicles (EVs) has always been the energy-storage device, which limits driving range and vehicle acceleration. In many respects, rechargeable lithium batteries are the most attractive technology for storing energy and delivering it on demand in an automobile. Past and ongoing efforts to develop electric-based automotive propulsion systems are chronicled in this article.

Type
Research Article
Copyright
Copyright © Materials Research Society 2002

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References

1.Kawai, T., Toyota Tech. Rev. 50 (1) (September 2000) p. 6;Google Scholar
Tanaka, T., Ohta, K., and Arai, N., J. Power Sources 97–98 (2000) p. 2;Google Scholar
Broussely, M., Herreyre, S., Biensan, P., Kasztejna, P., Nechev, K., and Staniewicz, R.J., J. Power Sources 97–98 (2000) p. 22;Google Scholar
Kezuka, K., Hatazawa, T., and Nakajima, K., J. Power Sources 97–98 (2000) p. 755;Google Scholar
Nishikawa, M., Japan 21st Century (August 1994) p. 70;Google Scholar
Yao, N.P. and Birk, J.R., in Proc. 10th InterSociety Energy Conversion Engineering Conf. (Institute of Electrical and Electronics Engineers, New York, 1975) p. 20.Google Scholar
2.Schwartz, H.J., in Proc. 27th Power Sources Symp. (Elsevier Science, New York, 1976) p. 20.Google Scholar
3.Gross, S., Energy Convers. 15 (1964) p. 161.Google Scholar
4.Hazama, T., Miyabashi, M., Andol, H., Ishikawa, R., Furuta, S., Ishihara, H., and Shonaka, D., J. Power Sources 54 (1995) p. 306.CrossRefGoogle Scholar
5.Aragane, J., Matsui, K., Andoh, H., Suzuki, S., Fukuda, H., Ikeya, H., Kitaba, K., and Ishikawa, R., J. Power Sources 68 (1997) p. 13.CrossRefGoogle Scholar
6.Takei, K., Terada, N., Iwahori, T., Tanaka, T., Mishima, H., and Takeuchi, K., J. Power Sources 68 (1997) p. 78.Google Scholar
7.Yuasa, T., Japan 21st Century (October 1996) p. 41.Google Scholar
8.Morita, A., Japan 21st Century (August 1996) p. 46.Google Scholar
9.Yoda, S. and Ishihara, K., J. Power Sources 68 (1997) p. 3.Google Scholar
10.Suda, T., Sci. Technol. Jpn. 54 (1998) p. 2.Google Scholar
11.Hamilton, W., Electric Automobiles, Energy, Environment, and Economic Prospects for the Future (McGraw-Hill, New York, 1980) p. 333.Google Scholar
12.Smart, M.C., Ratnakumar, B.V., Huang, C.-K., and Surampudi, S., in Proc. SAE Aerospace Power Systems Conf., SAE-P-322 (Society of Automotive Engineers, Warrendale, PA, 1998) p. 7.Google Scholar
13.Chagnon, G., in Proc. SAE Aerospace Power Systems Conf., SAE-P-1251 (Society of Automotive Engineers, Warrendale, PA, 1998) p. 35;Google Scholar
Broussely, M., Planchat, J.P., Rigobert, G., Virey, D., and Sarre, G., J. Power Sources 68 (1997) p. 8.Google Scholar
14.Abe, S., Tojima, K., Kotani, T., Shamoto, S., Ibaraki, R., and Sakai, A., Toyota Tech. Rev. 47 (1998) p. 47.Google Scholar
15.Miura, T., Kawabata, Y., Kubo, K., and Yamada, E., Toyota Tech. Rev. 46 (1996) p. 16.Google Scholar
16.Miyaki, Y., Kubota, T., and Miyasaka, T., European Patent Application No. EP0651450A1 (May 3, 1995).Google Scholar
17.Nazri, G.A., U.S. Patent No. 5,604,057 (November 27, 1995).Google Scholar
18.Hunt, G., IEEE Spectrum (November 1998) p. 21.CrossRefGoogle Scholar
19.Ozawa, K. and Yokokawa, M., in Proc. 10th Int. Seminar on Primary and Secondary Battery Technology and Application (1993) p. 1.Google Scholar
20.Dunckly, M., J. Power Sources 42 (1993) p. 291.Google Scholar
21.Tanjo, Y., Abe, T., Horie, H., Nakagawa, T., Miyamoto, T., and Katayama, K., SAE-01–1155 (Society of Automotive Engineers, Warrendale, PA, 1999).Google Scholar
22.Marcoux, L. and Bruce, G., SAE-1250 (Society of Automotive Engineers, Warrendale, PA, 1998) p. 27.Google Scholar
23.Kelly, C.O., Friend, H.D., and Keen, C.A., SAE-98–1248 (Society of Automotive Engineers, Warrendale, PA, 1998) p. 15.Google Scholar
24.Majima, M., Hanafusa, K., Oka, Y., Tanaka, G., Yoshida, H., Yagasaki, E., and Tada, T., J. Power Sources 68 (1997) p. 448.CrossRefGoogle Scholar
25.Baudry, P., Lascaud, S., Majaster, H., and Bloch, D., J. Power Sources 68 (1997) p. 432.CrossRefGoogle Scholar
26.Bentley, W.F. and Heacock, D.K., in Proc. 11th IEEE Annu. Battery Conf. on Applications and Advances (1996) p. 223.Google Scholar
27.Chase, J. and Stolitzka, D., in Proc. 11th IEEE Annu. Battery Conf. on Applications and Advances (1996) p. 213.Google Scholar
28.Tsenter, B. and Golod, M., IEEE-SAE Sys. Mag. (September 1998) p. 23.Google Scholar
29.Oman, H., Adv. Batt. Technol. 32 (1996) p. 6.Google Scholar
30.Ozawa, K., Solid State Ionics 69 (1994) p. 212.CrossRefGoogle Scholar
31.Nagaura, T., Prog. Batt. Solar Cells 10 (1991) p. 218.Google Scholar
32.Nagaura, T. and Ozawa, K., Prog. Batt. Solar Cells 9 (1990) p. 209.Google Scholar
33.Laman, F.C., Gee, M.A., and Denovan, J., J. Electrochem. Soc. 140 (1993) p. L51.CrossRefGoogle Scholar
34.Abraham, K.M., Pasquaiello, D.M., and Willstaedt, E.B., J. Electrochem. Soc. 137 (1990) p. 1856.Google Scholar
35.Cha, C.S., Ai, X.P., and Yang, H.X., J. Power Sources 54 (1995) p. 255.CrossRefGoogle Scholar
36.Golovin, M.N., Wilkinson, D.P., Dudley, J.T., Holonko, D., and Simon, W., J. Electrochem. Soc. 139 (1992) p. 5.Google Scholar
37.Adachi, M., Tanaka, K., and Sekai, K., J. Electrochem. Soc. 146 (1999) p. 1256.CrossRefGoogle Scholar
38.Subbarao, S., Deligiannis, F., Shen, D., and Halpert, G., 4th International Meeting on Lithium Batteries, Extended Abstracts (1988) p. 54.Google Scholar
39.Levy, S.C., 4th International Meeting on Lithium Batteries, Extended Abstracts (1988) p. 57.Google Scholar
40.Anderson, R.B., Elec. Vehic. Prog. 13 (1991) p. 1.Google Scholar
41.DeNeufville, R., Connors, S.R., Field, F.R., Marks, D., Sadoway, D.R., and Tabors, R.D., Technol. Rev. (January 1996) p. 32.Google Scholar
42.Weinstein, C.W., SAE-98–1278 (Society of Automotive Engineers, Warrendale, PA, 1998) p. 211.Google Scholar
43.Wyezalek, F.A., in Proc. 31st Int. Energy Conversion Engineering Conf. (Institute of Electrical and Electronics Engineers, Piscataway, NJ, 1996) p. 1919.Google Scholar
44.Bimal, B.K., in Proc. 31st Int. Energy Conversion Engineering Conf. (Institute of Electrical and Electronics Engineers, Piscataway, NJ, 1996) p. 1893;Google Scholar
Raissi, T., in Proc. 31st Int. Energy Conversion Engineering Conf. (Institute of Electrical and Electronics Engineers, Piscataway, NJ, 1996) p. 2280.Google Scholar
45.Tanoue, K., Miyazaki, H., Kawabata, Y., Yamamoto, T., Hirose, T., and Nakagawa, H., Toyota Tech. Rev. 47 (1998) p. 61.Google Scholar
46.Miura, T., Kawabata, Y., Kubo, K., and Yamada, E., Toyota Tech. Rev. 46 (1996) p. 161.Google Scholar
47.Nishikawa, N., Japan 21st Century (August 1994) p. 70.Google Scholar
48.Huang, B., Cook, C.C., Mui, S., Soo, P.P., Staelin, D.H., Mayes, A.M., and Sadoway, D.R., J. Power Sources 97–98 (2001) p. 674.Google Scholar
49.Narayanan, S.R., in Proc. 11th Annu. Battery Conf. on Application and Advances (Institute of Electrical and Electronics Engineers, Piscataway, NJ, 1996) p. 113.Google Scholar
50.Lewinson, T., Elec. Vehic. Prog. 20 (1998) p. 1.Google Scholar
51.Gotthold, J., in Proc. IEEE WESCON '95 (Institute of Electrical and Electronics Engineers, New York, 1995) p. 574;Google Scholar
Isaev, Y.V., Novikov, Y.N., and Volpin, M.E., Synth. Met. 5 (1982) p. 23.Google Scholar
52.Thaller, L., in Proc. 9th Int. Energy Conversion Engineering Conf. (1994) p. 924.Google Scholar
53.Atwater, T.B., IEEE-SAE Sys. Mag. (September 1998) p. 36.CrossRefGoogle Scholar
54.Electric Vehicle Battery Test Procedures Manual, Appendix G: USABC Criteria for Advanced Battery Technologies, http://www.uscar.org/consortia&teams/USABC/manualPDFs/USABC_Manual_App_G.pdf (accessed July 2002).Google Scholar