1·The anode effect is a characteristic phenomenon in molten salts electrolysis, especially in aluminium electrolysis.
阳极效应是融盐电解中的一种特殊现象。尤其是在铝电解中,最为普遍。
2·The bath temperature, liquidus and anode effect were controlled by adjusting the AlF3 additions, aluminum tapping magnitude, cell voltage set-point and the alumina feeding interval.
通过调整氟化铝添加量、出铝量和设定电压,以及氧化铝下料间隔的自修正,实现对电解槽温度、初晶温度、效应系数的控制。
3·The electrolytic cell is the main production equipment in the aluminum production process, and it is also the main object of analysis and monitoring to the anode effect prediction system.
在铝电解的生产过程中,电解槽是最主要的生产设备,也是铝电解故障预测系统的主要分析和监控的对象。
4·This article analyses the electric energy loss of adjusting the line current by stages, which has a bigger wave motion when the anode effect happens-a phenomenon peculiar to aiu-minium reduction.
分析了由于铝电解的一种特有现象——阳极效应的发生造成铝电解系列电流波动较大,在对系列电流分段调整时铝电解电能的损失情况。
5·The anode and cathode materials, electrolyte and its additives, structure of battery and manufacture process had important effect on the safety of Li-ion battery.
正负极材料、电解液及其添加剂、电池的结构以及制备工艺条件都对锂离子电池的安全性有重要的影响。
6·Test result shows that the circuit decreases the effect of temperature to anode current, improves the stability of neutron yield.
测试结果表明,该电路减小了温度对阳极电流的影响,改善了中子产额的稳定性。
7·The effect of the current density and fuel cell temperature, humidified temperature of cathode and anode, porosity of porous diffusion layer on the results mentioned above are discussed.
讨论了质子交换膜燃料电池运行电流密度和温度、阴极和阳极加湿温度、气体扩散层孔隙率等参数对以上结果的影响。
8·The effect of sintering temperature on the anode porosity was investigated.
研究了烧结温度对阳极孔隙度的影响。
9·The Zinc and Aluminum anode protector can prevent the Cr-Mo steel from corrosion. However, it has the obvious effect of accelerating the crack propagation.
采用锌阳极和铝阳极的防止腐蚀方法虽能防止铬钼钢腐蚀,但对其裂纹的扩展起明显的加速作用。
10·The effect of pore structure in the anode catalyst layer on the performance of direct methanol fuel cell(DMFC) was investigated using ammonium carbonate as a pore former.
采用碳酸铵作为造孔剂,研究了阳极催化层孔结构对直接甲醇燃料电池(DMFC)性能的影响。