The electrolyzing current efficiency rises by 12%.
电解电流效率相对提高约12%。
Current efficiency and specific energy consumption were given.
文中给出了电流效率和比能耗。
Low zinc content, scattered capacity is good, but the current efficiency decline.
锌含量偏低,分散能力好,但电流效率下降。
The current efficiency of the anode significantly dropped with the increasing ac density.
阳极电流效率随交流电流密度的逐步增大而明显下降。
Electric current efficiency, energy consumption, concentration and purity of product are studied.
系统研究了制备过程中的电流效率、能耗、产品浓度和纯度等技术指标。
A rotating disc electrode system was designed to recover Cd and the current efficiency was over 90%.
设计出新型旋转圆盘电极体系回收金属镉,电流效率达到90%以上。
Electrolytic rate is more than 99%, average current efficiency is 20.17% using the improved equipment.
采用改进后的设备,电积率在99%以上,平均电流效率为20.17%。
The electric current efficiency was influenced by many kinds of factors in the process of electrodeposition.
采用电沉积法制备氧化镍薄膜电极材料的过程中,电流效率受多种因素的影响。
In the low cyanide solution content is too high, the current efficiency drops, and even has cavernous coating.
在低氰镀液中含量太高则电流效率下降,甚至其成海绵状镀层。
The process features simple operation, wide operating range, high current efficiency and fast deposition speed.
该工艺操作简单,工艺范围宽,电流效率高,沉积速度快。
This paper discusses the influence of current efficiency in various electrodes, temperature and current density.
并对不同电极、温度和电流密度对反应电流效率影响进行了研究。
The energy consumption rate of aluminum electrolytic bath is related with the average voltages and current efficiency.
铝电解槽的电能消耗率同平均电压和电流效率两个因素有关。
The current efficiency of the Br - oxidation on graphite electrodes is normally over 80% with the highest being 88. 5%.
溴离子在石墨电极上氧化的电流效率一般在80%以上,最高可达88.5%。
The study shows that gelatin can increase cathodic superpotential, cathodic current efficiency and specific resistance.
研究表明:明胶能增大阴极过电位,能提高阴极电流效率,提高电解液的比电阻。
Low liquidus temperature enables low bath temperature. The current efficiency increases with the decreasing of bath temperature.
低液相线温度允许低电解温度,而降低电解温度可大大提高电流效率。
The factors influencing electricity consumption in copper electrowinning are the voltage and current efficiency in electrolyzer.
影响铜电积电耗的因素是槽电压和电流效率。
The current efficiency during charging is important for the seal of nickel-metal hydride secondary battery and the saving of energy.
镍氢电池负极用贮氢合金电极材料的充电电流效率对电池的密封以及能源节约都具有重要的意义。
Experimental results show that current efficiency of this process is high and ions can keep equilibrium during the circulate process.
实验数据显示本电解工艺的电解电流效率高,各离子在循环电解过程中能基本保持平衡。
And the relationship between time and substrate concentration in each compartment of ion exchange and current efficiency is discussed.
并对各室对应物的浓度以及电流效率与时间的关系进行了探讨。
The current efficiency record for this technology is 19.5%, which is why many start-ups, such as Nanosolar and miasole, are pursuing it.
此技术目前的效率记录是19.5%,许多初创公司如Nanosolar和miasole对它甚为感兴趣。
Electrodeposition of zinc from alkaline baths occurred at a lower cell voltage with less energy consumption and higher current efficiency.
从碱性溶液中电解制备锌可以降低能耗和槽压,提高电流效率。
When powders aluminium oxide is electrolyzed, how to raise the current efficiency in electrolytic cell and reduce cost is studied in this paper.
对采用粉状氧化铝电解时如何提高电解槽电流效率,降低成本进行了探讨。
The paper describes the impact of metal ions impurities on current efficiency and electrolytic zinc quality of long cycle electrowinning process.
阐述了长周期锌电积过程中金属离子杂质对电流效率和电锌质量等方面的影响。
The results show that the anode passivation can be decreased through the mechanical force of the drum anode, and the current efficiency can be improved.
结果表明:转鼓阳极的机械力作用可以缓和阳极钝化,提高硬质合金废料电解的电流效率。
The relationships among conversion, current efficiency and bath voltage with electrodes, current density, temperature and electrolysis time were studied.
同时还研究了电解过程中电极、电流密度、温度、反应时间等对反应物转化率、电流效率、槽压的影响规律。
Compared between low and high aluminum level production, it is proved that high aluminum level was very important to improve the electric current efficiency.
通过对低铝水平生产和高铝水平生产的长期比较,证明了高铝水平对电流效率的提高具有非常重要的作用。
The electrochemical and chemical steps were investigated separately in order to determine operating conditions providing a high current efficiency and high yield.
对其电化学过程和化学氧化过程分别进行了研究,并优化出了在高电流效率和高产率条件下的最佳反应条件。
The results of studies show: the current efficiency, the energy consumption and the size of nickel powder can be controlled by changing the electrolytic parameters.
研究结果表明:可以通过改变电解过程参数实现对电流效率、能耗以及镍粉粒度的控制。
The results of studies show: the current efficiency, the energy consumption and the size of nickel powder can be controlled by changing the electrolytic parameters.
研究结果表明:可以通过改变电解过程参数实现对电流效率、能耗以及镍粉粒度的控制。
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