铅炭电池负极板制备工艺探讨
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摘要
储能场景下的铅酸电池部分荷电状态循环失效的主要原因为负极硫酸盐化,而负极铅膏中加入适当含量的炭材料可以有效地解决上述问题。因此,就铅炭技术的选择、掺炭量、和膏工艺进行了探讨。
The negative sulfation is a main reason of circulatory failure of energy storage lead-acid battery under the partial state of charge(PSo C). If a suitable amount of carbon material is added to the negative paste,the above problem may be effectively solved. Therefore, the selection of lead carbon technology, carbon content, and paste mixing technology are discussed in this paper.
The negative sulfation is a main reason of circulatory failure of energy storage lead-acid battery under the partial state of charge(PSo C). If a suitable amount of carbon material is added to the negative paste,the above problem may be effectively solved. Therefore, the selection of lead carbon technology, carbon content, and paste mixing technology are discussed in this paper.
引文
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[2]国家电网公司“电网新技术前景研究”项目咨询组.大规模储能技术在电力系统中的应用前景分析[J].电力系统自动化,2013,37(1):3–8.
[3]叶季蕾,薛金花,王伟,等.储能技术在电力系统中的应用现状与前景[J].中国电力,2014,47(3):1–5.
[4]胡信国,王殿龙,戴长松.铅碳电池[M].北京:化学工业出版社,2015.
[5]朱松然.蓄电池手册[M].天津:天津大学出版社,1998.
[6]张浩,曹高萍,杨裕生.炭材料在铅酸电池中的应用[J].电源技术,2010(7):729–733.