Empirical sulfation model for valve-regulated lead-acid batteries under cycling operation

Franke Marcel; Kowal Julia

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Empirical sulfation model for valve-regulated lead-acid batteries under cycling operation

机译：阀控铅酸电池循环运行下的经验硫酸化模型

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An empirical sulfation model for valve-regulated lead-acid (VRLA) batteries is presented. The model is based on measurements of the internal resistance during cycling in different state of charge (SOC) ranges. Further influence factors like voltage, current and depth of discharge (DOD) are varied and their effect on the gradient of the internal resistance is investigated. The behavior of the internal resistance correlates to the charge acceptance which is related to the sulfation of the battery. The model is tested by separate measurements.

机译：提出了阀控铅酸（VRLA）电池的经验硫酸盐化模型。该模型基于不同充电状态（SOC）范围内循环期间内阻的测量。进一步影响电压，电流和放电深度（DOD）等影响因素，并研究其对内部电阻梯度的影响。内部电阻的行为与电荷的接受有关，电荷的接受与电池的硫酸化有关。该模型通过单独的测量进行测试。

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来源
《Journal of power sources》 |2018年第15期|76-82|共7页
作者
Franke Marcel; Kowal Julia;
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作者单位

Tech Univ Berlin, Dept Energy & Automat, Elect Energy Storage Technol, Einsteinufer 11, D-10587 Berlin, Germany;

Tech Univ Berlin, Dept Energy & Automat, Elect Energy Storage Technol, Einsteinufer 11, D-10587 Berlin, Germany;

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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);美国《生物学医学文摘》(MEDLINE);
原文格式 PDF
正文语种 eng
中图分类
关键词
Lead-acid battery; Sulfation; Charge acceptance; Modeling;

机译：铅酸电池;硫化;充电接受;建模;

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1. Effects of electrochemically active carbon and indium (Ⅲ) oxide in negative plates on cycle performance of valve-regulated lead-acid batteries during high-rate partial-state-of-charge operation [J] . Li Zhao, Baishuang Chen, Dianlong Wang Journal of power sources . 2013,第JUNa1期

机译：负极板中电化学活性炭和铟（III）氧化物对高速率部分充电状态下阀控铅酸电池循环性能的影响
2. Development of a new design of valve-regulated lead-acid battery (new Model YT4B) for motorcycle use [J] . E.Kato, S.Tanaka Journal of power sources . 2000,第1期

机译：开发用于摩托车的阀控铅酸电池的新设计（新型YT4B）
3. Carbon reactions and effects on valve-regulated lead-acid (VRLA) battery cycle life in high-rate, partial state-of-charge cycling [J] . Kathryn R. Bullock Journal of power sources . 2010,第14期

机译：高速，部分充电状态下的碳反应及其对阀控式铅酸（VRLA）电池循环寿命的影响
4. Development of long cycle life valve-regulated lead-acid battery for large-scale battery energy storage system to utilize renewable energy [C] . Shinichi Sano, Yoshiaki Ito, Yoshikazu Hirose, IEEE International Telecommunications Energy Conference . 2015

机译：开发长寿命阀控铅酸蓄电池，用于大规模利用可再生能源的电池储能系统
5. Pulse charging lead-acid batteries to improve performance and reverse the effects of sulfation. [D] . Cooper, Robert B. 2002

机译：脉冲充电铅酸电池可改善性能并逆转硫酸化的影响。
6. Study on synthesis and application of tetrabasic lead sulfate as the positive active material additive for lead-acid batteries [O] . Myonghak Kim, Mungi Kim, Cholnam Ri, 2019

机译：四元硫酸铅作为铅酸蓄电池正极活性物质添加剂的合成与应用研究
7. Modelling and evaluation of valve-regulated lead-acid batteries [O] . Tenno Ander 2004

机译：阀控式铅酸蓄电池的建模与评估
8. Reliability of valve-regulated lead-acid batteries for stationary applications. [R] . 2004

机译：用于固定应用的阀控铅酸蓄电池的可靠性。

Empirical sulfation model for valve-regulated lead-acid batteries under cycling operation

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