n. 电解器;电解槽
- To explore the therapeutic effect of the Trichiasis electrolyzer on congenital lacrimal fistula.
目的探讨电解倒睫器对先天性泪囊瘘管的治疗作用。 - Reasons Analysis and Solvents for the Continual Pressure Increase of Electrolyzer
电解槽槽压持续升高的原因分析及解决方法 - Summary on service of ML-211 bipolar type ionic membrane electrolyzer
ML-211型复极式离子膜电解槽检修总结 - All kinds of the factors of anode polarization in fluorine electrolyzer were discussed, and solutions to diminish anode polarization were put forward.
阐述了制氟电解槽引起阳极极化的各种因素、预防措施以及发生阳极极化后的消除办法。 - Effects of cathode and anode protective devices on bipolar type ion-exchange membrane zero polar distance electrolyzer
铁基牺牲阳极性能及其对12Cr钢管的阴极保护阴阳极保护装置在复极离子膜零极距电解槽上的作用 - The distribution and optimization of flow field is one of the key points for the scale up of magnesium electrolyzer.
镁电解槽流场的分布和优化是镁电解槽大型化的关键问题。 - Reversible proton exchange membrane fuel cell ( RPEMFC) is an electrochemical cell working both as the water electrolyzer ( charging) and fuel cell ( discharging).
可逆质子交换膜燃料电池(RPEMFC)是一种在同一装置上实现水电解(充电)和燃料电池发电(放电)两种功能的储能电池。 - Objective To study the efficiency of the selfmade trichiasis electrolyzer in the treatment of nonentropion trichiasis and to provide a simple treating method.
目的探讨自制电解倒睫器治疗非内翻性倒睫的临床疗效,提供治疗倒睫的简便易行的方法。 - Application of 70 kt/ a natural circulation electrolyzer
7万t/a自然循环电槽的应用及配套装置的改进 - A bipolar type ion-exchange membrane electrolyzer
复极式离子膜电解槽 - Conclusions The selfmade trichiasis electrolyzer is effective in treating trichiasis and is worth promoting in hospitals at primary level.
结论自制电解倒睫器治疗倒睫效果较好,制作成本低廉,值得基层医院推广。 - The process of acceptance brine by bittern of Ye county were introduced. Calculations showed that the concentration of secondary brine met the requirements of electrolyzer.
介绍了利用叶县卤水制合格盐水的工艺。通过计算证明二次盐水浓度可满足电解槽的工艺要求。 - The hazards caused by transient voltage loss for electrolyzer are introduced, and the preventative measures are proposed.
介绍了瞬间失压对电解槽的危害,提出了相应的预防措施。 - Structure characteristics of Uhde electrolyzer and De Nora electrolyzer, design fixing and the improvement on the basis of the situation of Yangzhou pesticide and chemical Co.
介绍了伍迪电解槽的结构、设计安装特点以及结合扬州农药化工公司自身情况所做的改进工作。 - The problems in current increase of diaphragm electrolyzer and the countermeasures were introduced.
介绍了在隔膜电解槽电流提升过程中所遇到的问题及采取的解决方法和措施。 - And the cost of ionic membrane caustic soda were decreased with the electrolyzer.
运行情况表明此种电解槽可降低离子膜碱的生产成本。 - ConclusionThe Trichiasis electrolyzer is convenient, safe, effective without bleeding, infection, and scaring for congenital lacrimal fistula.
结论电解倒睫器治疗先天性泪囊瘘管,简便、安全、无出血、无感染、无瘢痕,效果好。 - Operation effects of two kinds of high current density ion exchange membrane electrolyzer
两种不同类型高电密离子膜电解槽的运行效果 - When wind energy and solar energy are sufficient, wind turbine and photovoltaic arrays can satisfy load demand and at the same time they can feed electrolyzer;
当风能与太阳能充足时,风机与光伏阵列可满足负荷的需要,同时还可向电解池供电; - Reasons on Rise of Electrolyzer Voltage in Ion-exchange Membrane Caustic Soda
离子膜烧碱电解槽电压升高之原因分析 - Be used in Aluminium electrolyzer, it functions in both conducting electricity and generating chemical reaction.
用于铝电解槽,起着导电和参与化学反应的双重作用。 - Since the electrode reaction has been changed, The voltage of the electrolyzer has been reduced by about1V.
这改变了电极反应,使电解槽的槽电压降低1.0伏左右。 - A mathematical model of electric field in electrolyzer is built.
建立了计算电解槽内部电场的数学模型; - 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 application of the home-made ion-exchange membrane electrolyzer in China is introduced as well as its present technical situation.
介绍了国产化离子膜电解槽在我国的推广应用情况和技术现状。 - Putting some TiO2 into aluminum electrolyzer can make aluminum ingot produced by electrolysis containing low content titanium.
向铝电解槽添加一定量的二氧化钛可使生产的铝锭中含有少量的钛。 - The present status of high voltage of rectification equipment in bipolar type ion-exchange membrane electrolyzer was introduced.
介绍了复极式离子膜电解装置整流设备的电压值偏高的现状。 - Developing progress for hydrogen making process by water electrolysis, its process technology and the design of industrialized electrolyzer were introduced; the progressive situation for improvement and study of modern electrolytic technology was described.
介绍了水电解制氢工艺的开发历程、工艺技术和工业化电解槽的设计,阐述了现代水电解技术的改进和研究进展状况。 - The development of F4 diaphragm electrolyzer with S-3000 press filter is summarized.
总结了S-3000型压滤式F4隔膜电解槽的开发研制过程。