Research of rapid charging method with variable current for all vanadium redox battery

Chemical Industry and Engineering Progree ›› 2012, Vol. 31 ›› Issue (04): 820-824.

Previous Articles Next Articles

Research of rapid charging method with variable current for all vanadium redox battery

YAO Dunping^1，2，TANG Yaogeng¹，XIE Xiaofeng²，WANG Jinhai²，WANG Shubo²，WANG Yaowu²

¹College of Electrical Engineering，University of South China，Hengyang 421001，Hunan，China；
²Institute of Nuclear and New Energy Technology，Tsinghua University，Beijing 100084，China

Received:2011-06-22 Revised:2011-11-08 Online:2012-04-05 Published:2012-04-05

钒液流电池变电流快速充电方法

姚敦平¹^，2，唐耀庚¹，谢晓峰²，王金海²，王树博²，王要武²

¹南华大学电气工程学院，湖南衡阳 421001；²清华大学核能与新能源技术研究院，北京 100084

通讯作者: 姚敦平

Abstract

Abstract: In order to attain rapid-charging for all vanadium redox battery，an intermittent charging method with variable current and constant-voltage was introduced. A better charging effect was achieved under a series of charging and discharging tests. Compared with the constant-current and constant-voltage charge method，the proposed method not only got the same discharge capacity，but also reduced half of charging time. Its discharge rate reached up 100%. Moreover，its discharge capacity did not decrease after many recharge cycles.

Key words: ,

all vanadium redox battery；polarization effect；variable current；rapid charge

摘要： 基于电池快速充电基本原理，采用了变电流间歇恒压充电方法，并结合正交试验方法，对自制单片钒液流电池进行了一系列的充放电测试，获得了最佳充电参数。结果表明：采用变电流间歇恒压充电方法，充电时间相比恒流恒压充电方法缩短近50%；且获得了大致相同的放电容量，放电比率为100%；多次充放电循环后，放电容量未见衰减，取得了良好充电效果。

关键词: ,

钒液流电池；极化效应；变电流；快速充电

CLC Number:

TK 02

YAO Dunping1，2，TANG Yaogeng1，XIE Xiaofeng2，WANG Jinhai2，WANG Shubo2，WANG Yaowu2 . Research of rapid charging method with variable current for all vanadium redox battery[J]. Chemical Industry and Engineering Progree, 2012, 31(04): 820-824.

姚敦平，唐耀庚，谢晓峰，王金海，王树博，王要武. 钒液流电池变电流快速充电方法[J]. 化工进展, 2012, 31(04): 820-824.

[1]	. [J]. Chemical Industry and Engineering Progress, 2019, 38(01): 0-0.
[2]	YU Qiang，ZHUANG Xinshu，YUAN Zhenhong，QI Wei，WANG Qiong，TAN Xuesong，. Research progress on fuel and chemicals production from lignocellulose biomass [J]. Chemical Industry and Engineering Progree, 2012, 31(04): 784-791.
[3]	LI Yuntao，DU Yungui，HUANG Rui. Effect of TiO₂ properties of the manufacture of SCR deNO_xcatalyst [J]. Chemical Industry and Engineering Progree, 2012, 31(04): 948-951.
[4]	Lü Wenjie，YANG Qiang，WANG Hualin，SHEN Qisong，ZUO Peng. Research on the method and equipments for the separation of slag in lime-milk preparation process [J]. Chemical Industry and Engineering Progree, 2012, 31(04): 943-947.
[5]	TAN Weiyi，ZHANG Zhihui，CHEN Qun，HE Mingyang. Synthesis of N-propylaniline with the caprolactam ionic liquids as catalysts [J]. Chemical Industry and Engineering Progree, 2012, 31(04): 896-900.
[6]	XIE Youli，ZHANG Meng，ZHOU Yonghong. Progress in the organic modification of montmorillonite [J]. Chemical Industry and Engineering Progree, 2012, 31(04): 844-851.
[7]	PENG Wei，YAN Hua，GUAN Changfeng，DING Yumei，YANG Weimin. Experimental study on the heat transfer enhancement of tubes with rotor assembly inserts [J]. Chemical Industry and Engineering Progree, 2012, 31(04): 749-753.
[8]	WEI Guoqiang1，2，HE Fang1，HUANG Zhen1，ZHAO Kun1，LI Xin’ai1，2，LI Haibin1. Research development in chemical-looping combustion [J]. Chemical Industry and Engineering Progree, 2012, 31(04): 713-725.
[9]	YAN Yi，XUE Weiming，REN Hanyu，Lü Qing，FU Yunlu，LIN Yu. Optimization of the preparation of cyclosporine SLN [J]. Chemical Industry and Engineering Progree, 2012, 31(04): 878-883.
[10]	HE Meiru，JIN Zhihua，HU Sheng，ZHANG Lijing. Optimization of fermentation medium of daptomycin by response surface methodology [J]. Chemical Industry and Engineering Progree, 2012, 31(04): 873-877.
[11]	. Recent developments in treatment technology for highly saline organic wastewater [J]. Chemical Industry and Engineering Progree, 2012, 31(04): 920-926.
[12]	MA Hongting，WANG Fangchao，YANG Guoli，HAO Sufeng，WANG Minghui. Differential thermal analysis during the thermal decomposition of three typical medical wastes [J]. Chemical Industry and Engineering Progree, 2012, 31(04): 933-937.
[13]	LIANG Juanjuan，LI Xiaodong，YAN Mi，LU Shenyong，YAN Jianhua. Inorganic chlorine released from typical components of medical waste in pyrolysis/incineration [J]. Chemical Industry and Engineering Progree, 2012, 31(04): 927-932.
[14]	SHEN Youbin，LIU Xiaoguo . Synthesis of water-solubility carbon nanotube graftmodified epoxy resin [J]. Chemical Industry and Engineering Progree, 2012, 31(04): 857-860.
[15]	LI Ruili，YANG Siyuan，LIU Ying. Isomerization to improve the low temperature fluidity of biodiesel from jatropha oil [J]. Chemical Industry and Engineering Progree, 2012, 31(04): 813-819.

Research of rapid charging method with variable current for all vanadium redox battery

钒液流电池变电流快速充电方法

Knowledge

Abstract

Cite this article

share this article

References

Related Articles 15

Recommended Articles

Metrics

Comments