阳极电解液和阴极电解液的循环和下流管安装在反应器组件的外部。
Circulating and flowing-down tube of anolyte and that of catholyte are installed outside the reactor components.
电解质:呈凝胶状态,电解液无分层、电池循环性能好;电解液密度低、减缓对板栅腐蚀,电池浮充寿命长。
Electrolyte: in gel state, no delamination, battery electrolyte circulation performance is good; The electrolyte density low, slow on board gate corrosion, floating battery life is long.
中间相石墨体系,结构稳定,与电解液的适配性好,循环寿命长。
Mesophase graphite type, Stable structure, Suitable for more kinds of electrolyte, Long cycle life.
对磷酸作为VRLA电池电解液添加剂进行了初期容量和循环寿命试验研究。
Phosphoric acid as an electrolyte additive for VRLA battery was studied by testing the battery initial capacity and cycle life.
对使用不同电解液的电池的初始充放电效率、内阻、循环性能、电压平台、低温性能等进行了测试分析。
The initial efficiency of discharge-charge, resistance, cycle performance, voltage platform and low temperature performance of Li-ion batteries with different electrolyte was studied.
在电解液中同时添加氧化铟和氧化锌可提高电池的充放电效率和荷电保持能力,电池的循环寿命也得到提高。
Especially, the battery with electrolyte saturated by zinc oxide and indium oxide shows excellent charging-discharging performance and charge retention capacity as well as its cycle life.
矿业:金属熔炼(送及循环电解液)废液的洗涤处理。
Mining industry: metal melting (transportation and circulation of electrolyte); washing of liquid waste.
碳作为正负极活性物质和电解液的添加剂能提高蓄电池的容量和循环寿命。
As additives of electrode materials and electrolytes, the carbon can improve the capacity and cycle life of battery.
研究了六甲基二硅氮烷(HMDS)对电解液稳定性和锂离子电池循环性能的影响。
The effects of hexamethyldisilazane(HMDS)to the stability of electrolyte and cycle performance of Li-ion battery were studied.
电解液经正己烷萃取和活性炭吸附可再生循环使用8次以上。
The electrolytic liquor can be repeatedly used over 8 times by regeneration after (extraction) by n-hexane and adsorption by activated carbon.
电解液经正己烷萃取和活性炭吸附可再生循环使用8次以上。
The electrolytic liquor can be repeatedly used over 8 times by regeneration after (extraction) by n-hexane and adsorption by activated carbon.
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