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Investigation of Parameter Effect to Performance of Battery's Cooling System

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Abstract:

With the heightened concern for energy consumption and environment conservation, the interest on fuel cell HEV (hybrid electric vehicle) has been greatly increased. In this study, a numerical model for the cooling system of batteries was constructed. Using the constructed analysis model, the material of the cartridge and the cartridge width were checked for improving the performance of the cooling system of batteries. The performance was changed by using different cartridge material, and the cartridge width also has an effect to the performance of the cooling system of batteries as shown in the analysis results. The constructed model and method can be used to investigate the performance of the cooling system of batteries.

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Materials Processing Technology II View Preview

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Periodical:

Advanced Materials Research (Volumes 538-541)

Pages:

2015-2019

DOI:

https://doi.org/10.4028/www.scientific.net/AMR.538-541.2015

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Online since:

June 2012

Authors:

Zhen Zhe Li, Xiao Ming Pan, Ming Ren, Mei Qin Li, Gui Ying Shen

Keywords:

Battery, Cooling System, Heat Conduction, Heat Convection

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© 2012 Trans Tech Publications Ltd. All Rights Reserved

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References

[1] X.Z. Wei, G.N. Zou and Z.C. Sun. Chinese J. of Power Sources Vol. 28 (2004), p.605.

Google Scholar

[2] A.A. Pesaran. J. of Power Sources Vol. 110 (2002), p.377.

Google Scholar

[3] N. Sato and K. Yagi. JSAE Review Vol. 21 (2000), p.205.

Google Scholar

[4] K. Smith and C.Y. Wang. J. of Power Sources Vol. 160 (2006), p.662.

Google Scholar

[5] R. Sabbah, R. Kizilel, J.R. Selman et al. J. of Power Sources Vol. 182 (2008), p.630.

Google Scholar

[6] A. Mills et al. J. of Power Sources Vol. 141 (2005), p.307.

Google Scholar

[7] R.A. Bajura et al. ASME J. of Fluids Engineering Vol. 98 (1976), p.656.

Google Scholar

[8] S.H. Choi, S. Shin and Y.I. Cho. Int. Communications of Heat and Mass Transfer Vol. 20 (1993), p.221.

Google Scholar

[9] G.F. Jones and N. Lior. Solar Energy Vol. 52 (1994), p.289.

Google Scholar

[10] O. Tonomura. Chemical Engineering Journal Vol. 101 (2004), p.397.

Google Scholar

[11] M.H. Hu, D.T. Qin, W.K. Shi and Y.L. Yang. Automotive Engineering Vol. 29 (2007), p.37.

Google Scholar

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