Combined effect of acrylic fibers and carbon in negative active mass of lead-acid battery

Zimakova Jana; Fryda Daniel; Vaculik Sebastian; Petr Baca

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Combined effect of acrylic fibers and carbon in negative active mass of lead-acid battery

机译：丙烯酸纤维和碳在铅酸蓄电池负极活性物质中的联合作用

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This work deals with the study of influence of additives added to the negative active mass of the lead-acid battery electrode. Specifically, it's studied the influence of acrylic fibers (1,5 wt.%) and different amounts of carbon CR 2996 on the final properties. Carbon was added in an amount of 0.15; 0.46; 0.78; 1.4; 2.65 and 5.15 wt.%. It was performed formation, depth of discharge cycles (DoD) and partial state of charge cycling (PSoC). After 12 DoD cycles it was drained excess of electrolyte from the battery and it was performed another 7 DoD cycles. Thanks to these cycles it was possible to verify the actual capacity of electrodes. The results are shown in relevant graphs.

机译：这项工作致力于研究添加剂对铅酸电池电极负极活性物质的影响。具体来说，它研究了丙烯酸纤维（1.5 wt。％）和不同数量的碳CR 2996对最终性能的影响。碳的添加量为0.15。 0.46； 0.78; 1.4; 2.65和5.15重量％。进行了形成，放电循环深度（DoD）和部分充电循环状态（PSoC）。经过12个DoD循环后，从电池中排出了过多的电解质，然后再进行7个DoD循环。由于这些循环，可以验证电极的实际容量。结果显示在相关图中。

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来源
《Journal of Energy Storage》 |2017年第3期|372-377|共6页
作者
Zimakova Jana; Fryda Daniel; Vaculik Sebastian; Petr Baca;
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作者单位

Department of Electrical and Electronic Technology, The Faculty of Electrical Engineering and Communication, Brno University of Technology, Czech Republic;

Centre for Research and Utilization of Renewable Energy, Brno University of Technology, FEEC, Czech Republic;

Department of Electrical and Electronic Technology, The Faculty of Electrical Engineering and Communication, Brno University of Technology, Czech Republic;

Department of Electrical and Electronic Technology, The Faculty of Electrical Engineering and Communication, Brno University of Technology, Czech Republic;

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正文语种 eng
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关键词
Additives; Carbon; Acryl fibers; Active mass; Deep of discharge; Partial state of charge;

机译：添加剂;碳;丙烯纤维;活动质量;放电深;部分充电状态;

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1. In-situ AFM observations of the effect of addition of glass fibers and lignosulfonates on performance of the negative active mass of a lead-acid storage battery [J] . Vanysek Petr, Baca Petr, Zimakova Jana, Journal of Energy Storage . 2020,第Juna期

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2. Understanding the functions of carbon in the negative active-mass of the lead-acid battery: A review of progress [J] . Patrick T. Moseley, David A.J. Rand, Alistair Davidson, Journal of Energy Storage . 2018,第OCTa期

机译：了解碳在铅酸电池负极活性物质中的功能：进展回顾
3. Enhanced performance of Zn(II)-doped lead-acid batteries with electrochemical active carbon in negative mass [J] . Xiang Jiayuan, Hu Chen, Chen Liying, Journal of power sources . 2016,第OCTa1期

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4. Combined Effect of Acryl Fibers and TiO_2 in Negative Active Mass of Lead-acid Accumulator [C] . J. Zimakova, S. Vaculik, D. Fryda, International Conference on Advanced Batteries, Accumulators and Fuel Cells . 2016

机译：丙烯酸纤维和TiO_2在铅酸蓄能器中负极活性物质中的综合作用
5. Modeling and analysis of lead-acid batteries with hybrid lead and carbon negative electrodes. [D] . Gou, Jun. 2012

机译：具有铅和碳负极的铅酸蓄电池的建模和分析。
6. In-situ Electrodeposition of Highly Active Silver Catalyst on Carbon Fiber Papers as Binder Free Cathodes for Aluminum-air Battery [O] . Qingshui Hong, Huimin Lu -1

机译：高活性银催化剂在铝纤维电池无粘结剂阴极上的碳纤维纸上原位电沉积
7. Investigation of carbon effect in negative active mass on lead-acid accumulator for HEV. [O] . Tonar Karel 2010

机译：混合动力车铅酸蓄电池负活性物质中碳的影响研究。

Combined effect of acrylic fibers and carbon in negative active mass of lead-acid battery

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