Application Analysis and Capacity Configuration of Battery Energy Storage in Renewable Generation System

Abstract:

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In this paper, the characteristics and applications of various battery energy storage systems (BESS) are compared. The lead acid batteries are emphatically summarized, involving categories, principles and critical techniques. According to the running condition and performance needs of energy storage in renewable energy power generation system, appropriate lead acid battery is selected. The energy storage system control method based on low-pass filter is systematically expatiated. Finally, the deployment of energy storage in micro-grid is also calculated by supplying reliable power for the consumer within certain time.

Info:

Periodical:

Advanced Materials Research (Volumes 608-609)

Edited by:

Yongguang Li, Yong Li and Weiguo Pan

Pages:

1028-1033

Citation:

J. L. Ye et al., "Application Analysis and Capacity Configuration of Battery Energy Storage in Renewable Generation System", Advanced Materials Research, Vols. 608-609, pp. 1028-1033, 2013

Online since:

December 2012

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Price:

$38.00

[1] X. Y. Zhen, Z. D. Yin, S Zhou: Electric AGE. Vol. 1 (2011), p.44(In Chinese).

[2] B. X. Sun, J. C. Jiang, W. Shi: Modern Electric Power. Vol. 6(2010), p.62(In Chinese).

[3] P. Zhao, H. M. Zhang, H. Wang: Transactions of Shenyang Ligong University. Vol. 28(2009), p.1(In Chinese).

[4] Y. Yang: Advanced Materials Industry. Vol. 10 (2010), p.11(In Chinese).

[5] W. Li, Y. Hu: Manufacturing Information Engineering of China. Vol. 40 (2011), p.70(In Chinese).

[6] Q. S. Zhou, D. L. Kong, S. N. Hua: China Electrical Equipment Industry. Vol. 3 (2011), p.43(In Chinese).

[7] W. Chen, H. Shen, Y. J. Deng: Chinese Labat Man. Vol. 1 (2006), p.21(In Chinese).

[8] Y. Zhao. Research on Stand-alone Photovoltaic Power Systems[D]. Dalian: Dalian University of Technology, 2009(In Chinese).

[9] X. D. Jin. The Application of VRLA Batteries in Distributed Generation System[D]. Hefei: Hefei University of Technology, 2008(In Chinese).

[10] J. F. Wang, X. F. Li, H. P. Yang: Chinese Labat Man. Vol. 2(2002), p.51(In Chinese).

[11] Chinese National Standardization Technical Committee for Voltage, Current Rating and Frequencies. GB/T15945-2008 Power Quality-Frequency Deviation for Power System. Beiking: Standards press of China(In Chinese).

[12] Y. Katsuhisa, N. Toshiya, U. Yoshiha, et al. New Control Method for Regulating Stage-of-Charge of a Battery in Hybrid Wind Power, IEEE/PES and China Electric Power Research Institute. Battery Energy Storage System, Hangzhou,China, Oct. 24-28, (2010).

DOI: https://doi.org/10.1109/psce.2006.296485

[13] National Standardization Technical Committee of Electricity Regulation. Technical rule for connecting wind farm to power sysyetm(A draft for discussing) (In Chinese).

[14] M. Ding, N. Z. Xu, R. Bi: Automation of Electric Power Systems. Vol. 35 (2011), p.66(In Chinese).

[15] S. L. Yang, D. Hui, J. L. Li : Electric Power Construction. Vol. 31(2010), p.1(In Chinese).

[16] H. Yu, Z. Q. Zhang, T. F. Yuan, et al. The Relationships Between the Efficiency of Stabilizing Wind Power Fluctuations and Capacity of Storage System, Conference on Chinese Society for Electrical Engineering, Tianjin, China, November 25-27, 2009(In Chinese).

[17] T. Sercan,M. E. Baran, A. Q. Huang : IEEE Transactions on Energy Conversion. Vol. 24(2009), p.725.

[18] Y. Katsuhisa, N. Toshiya, U. Yoshiha, et al. New Control Method for Regulating Stage-of-Charge of a Battery in Hybrid Wind Power, Battery Energy Storage System, Hangzhou, China, October 24-28, (2010).

DOI: https://doi.org/10.1109/psce.2006.296485

[19] J. X. Wei, Y. P. Lu, J. Qin: Chinese Journal of Power Sources. Vol. 34 (2010), p.676(In Chinese).

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