anode efficiency

英 [ˈænəʊd ɪˈfɪʃnsi] 美 [ˈænoʊd ɪˈfɪʃnsi]

网络  阳极效率

电力



双语例句

  1. The influences of anode material and supporting electrolyte and proton exchange membrane on amount and current efficiency of electrochemically generated ozone were reviewed emphatically.
    重点综述了阳极材料、支持电解质和质子交换膜对电化学生成臭氧的产量和电流效率的影响,并简要介绍了电化学生成臭氧在水处理中的应用。
  2. Spemet does not only supply a container for soluble anode, but also builds the full functions of anode baskets to help users reach the top quality and highly efficiency to plating easily.
    大盈设计制作的阳极篮,不只是装填溶解性阳极的容器,它更俱备完整功能,让电镀品质更好、效率更高。
  3. The quality of the anode has direct influence on the density and efficiency of the electric current in the cell.
    阳极质量直接影响阳极电流密度的提高及电解系列强化电流;
  4. The effects of inorganic supporting electrolytes, anode structure and varying current electrolysis on the current efficiency and selectivity for glyoxalic acid in the process of electro synthesis of glyoxalic acid from glyoxal were investigated.
    研究了支持电解质、阳极类型和变电流电解方式等因素对电解乙二醛合成乙醛酸过程的电流效率和乙醛酸选择性的影响。在选用的支持电解质中盐酸是最合适的支持电解质;
  5. 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。
  6. According to the calculation, it was pointed out that it was necessary to increase oxygen overpotential on anode and the selectivity of ion-exchange membrane in order to raise current efficiency.
    通过计算,提出要提高电流效率,一方面要提高阳极的析氧过电位,另一方面要提高膜的选择性。
  7. Furthermore, benefiting from the passivating effects of the stable interface film formed through DOL pretreatment, the pretreated lithium anode has higher efficiency in the repeated charge/ discharge cycles.
    进而,由于预处理在锂电极表面生成稳定的界面膜所具有的钝化作用,经过该处理的锂电极在连续的充放电循环中,显示出更高的循环效率。
  8. With the increase of wet-dry cycles, the working potential of the zinc alloy anode moved gradually in the positive direction, while the electrochemical activity of the anode reduced and its current efficiency decreased significantly.
    随着干湿交替次数的增加,锌合金阳极的工作电位逐渐正移,发出电流的能力逐渐减弱,阳极活性逐渐降低,电流效率明显下降。
  9. A great attention has been paid on Solid Oxide Fuel Cell ( SOFC) including solid anode, cathode and electrolyte for the advantages of high efficiency, clean, economic, and safety.
    固体氧化物燃料电池(SOFC)由于具有高效、清洁、经济、安全等优点而受到广泛的关注,单电池由阳极、阴极、电解质组成。
  10. Experimental works were carried out to compare various characteristics of the arcs in different anode arc root positions, including torch efficiency, pressure inside the nozzle, and voltage-current characteristics.
    本研究比较了阳极弧根在不同的阳极表面形成的情况下,电弧的伏安特性,喷枪的内部压力,以及喷枪的热效率。
  11. Studies on inert anode and inert cathode materials were carried out in laboratory. The current efficiency of aluminium electrolysis in a 100 A cell was about 90%, and the electrodes worked well enough.
    在实验室制备了惰性阳极和阴极材料,应用于冰晶石一氧化铝熔盐电解,获得了良好的结果,电流效率达90%。
  12. This article not only explained theoretically reducing anode carbon consumption for aluminium can increase current efficiency, increase aluminium output and decrease electrical consumption, but also listed the practice examples at home and abroad which proved above-mentioned theory.
    本文不但从理论上,说明降低铝用炭阳极消耗会提高电流效率、增加铝产量和降低电耗,而且列举国内外的实例证明上述理论。
  13. The processing precision and surface quality of diehead spiral gear are improved, resulting in an improvement in the quality of aluminum electrolysis carbon anode, by which higher efficiency and lower cost are reached.
    该工艺铣削出的模头螺旋齿的尺寸精度和表面质量有了大幅度提高,进而提高了铝电解碳阳极的质量,提高了工效,降低了生产成本。
  14. Polymer film formed on the metal surface obstructed both cathodic and anode reactions. This made its corrosion inhibiting efficiency attain to 99%.
    在金属表面形成的聚合物膜阻滞了阴、阳极反应,其缓蚀率达99%。
  15. Mathematical grey-box interrelation analysis method was used to study the correlation between five selected alloy elements and open circuit potential, working potential, anode depletion rate, coating consume thickness, current efficiency and corrosion uniformity.
    本论文还应用灰箱分析法研究了所选择的五类元素形成合金后与开路电位、工作电位、阳极消耗率、镀层消耗厚度、电流效率和腐蚀均匀性的关联度。
  16. An intermittent negative square wave pulsed on the anode was capable of effectively improving the oxide film elimination on the anode surface, with distinct increase of current efficiency.
    实验结果表明,对阳极加间歇式脉冲方波,可有效地去除阳极上的氧化膜,电流效率明显提高。
  17. The theories of reducing carbon anode net consumption resulted from increasing current efficiency and aluminum productivity, reducing electrical consumption and bath temperature were proved by industrial test results.
    工业试验结果证明了降低炭阳极净消耗会提高电流效率和铝产量,降低铝电解电耗和电解质温度的理论;
  18. The magnetic Fe nanowire arrays fabricated by electro-deposition of Fe 2+ onto one piece of anode oxidated alumina membrane has excellent microwave absorption efficiency.
    利用阳极氧化铝膜模板组装磁性铁纳米线阵列,具有优异的宽频微波吸收性能。
  19. Effects of electrolyte composition, process conditions and anode types on particle size and output of electrolytic copper powder, current efficiency and the consuming of electric energy were studied, and surface morphology and phase structure of electrolytic copper power were analyzed.
    研究了电解液组成、工艺条件及阳极种类对电解铜粉粒度、产量、电流效率和电耗的影响,分析了电解法制备的超细铜粉的表面形貌和相结构。
  20. In China, the early stage developed ribbon anode is Magnesium anode but its application is limited due to its low efficiency and short life.
    国内早期开发出来的带状阳极是镁阳极,由于镁阳极的效率低、寿命短,使其使用受到限制。
  21. The newly designed rotating system of anode increased the efficiency of plating and the quality of plating layer was guaranteed as well.
    新设计的阳极旋转系统提高了镀覆效率,保证了镀层质量。
  22. Thermal treatment increases the cathode phase, the anode efficiency decreases with the cathode increasing and dropping.
    固溶处理增多了铝合金阳极的阴极相,阴极相的增加及脱落,增大了自腐蚀,使阳极效率降低。
  23. Results showed that the potential of Al-Zn-In anode shifted towards negative and its electrical efficiency descended with increasing amount of indium in alloy;
    结果表明:铟量增加,使铝阳极电位负移,电流效率下降;
  24. The research of improving electrochemical properties on Al-Zn-Sn-based anode alloy which current efficiency is just 70%~ 80% with the methods of micro alloying and heat treatment may developing new aluminum base anodes materials and would provide new options for engineering application.
    对目前电流效率仅在70%~80%左右的Al-Zn-Sn系阳极材料进行进一步的合金化和热处理研究,提高合金的电化学性能,使其具有推广价值,为铝基牺牲阳极材料提供一种新的选择。
  25. Mathematical grey interrelation analysis method was used to study the correlation between Al anode elements and working potential, current efficiency, corrosion uniformity.
    用灰箱分析法研究了各元素与工作电位、电流效率、腐蚀产物均匀性的关联性。
  26. As the resistances of three-phase interface in DSSCs with zinc oxide as anode are much larger through impedance analysis, their efficiency is lower than those of the cells with titanium oxide as anode.
    通过复阻抗分析,以ZnO作阳极的DSSC三相界面电阻很大,因此其光电转化效率较低于TiO2作阳极的DSSC。
  27. Moreover, it was found that the Darcy number of porous anode could regulate the output efficiency of MFC.
    此外,还发现多孔阳极的达西数能够影响MFC的输出功率。
  28. Then, this sample as an anode applied to the OLED device, and with the same resistivity of the ITO anode prepared by the efficiency of OLED devices for comparison. The results showed that both devices showed typical diode characteristics.
    与相同电阻率的ITO阳极制备的OLED器件对比看出,两种器件都表现出典型的二极管特性。
  29. The Al-based anode with low density, high current efficiency, much power generated, moderate potential applied to iron and steel, is a rapidly developed new sacrificial anode material.
    铝基阳极比重小、电流效率高、发生电量大、对钢铁驱动电位适中、来源丰富。是一种迅速发展起来的新型牺牲阳极材料。
  30. The results showed that, at the same temperature, the open-circuit potential and work potential were positive move with the Al content increase of alloy anode, and the electric current efficiency decreased, the corrosion uniformity was even worse, and the electrochemistry protection declined.
    发现同一温度下,合金阳极随着合金中Al元素含量的增加,合金的开路电位和工作电位正移,电流效率降低,腐蚀均匀性变差,电化学性能下降。