A new chlorate cell system with a DSA anode and an oxygen cathode was set up.
利用氧阴极与DSA阳极组装成一种新型氯酸盐电解槽。
A multi- pole type oxygen cathode ion membrane electrolysis unit tank belongs to the chlor-alkali industrial technology field.
复极式氧阴极离子膜电解单元槽,它属于氯碱工业技术。
The ions and electrons met at the cathode, and combined with the oxygen to form lithium oxide that filled the pores in the carbon.
离子和电子在负极相遇,和氧气结合从而形成填入碳层的锂氧化物。
Thus, distinguishes between two kinds of battery electrolyte "fixed" way and provide oxygen to the cathode channel differently, thus the performance of the two kinds of battery also.
由此看出,两种电池的区别就在于电解液的“固定”方式和提供氧气到达负极通道的方式有所不同,因而两种电池的性能也也。
In the cathode, substances such asmolecular oxygen or hydrogen peroxide are subsequently reduced in this processand so, in combination with the reaction at the anode, generate electricalpower.
阴极物质主要为氧分子或者过氧化氢,随后在电池反应中消耗,与阳极反应共同产生电能。
Oxygen ions from a cold cathode ion-gun have been used tor bombarding the growing thin films.
用一个冷阴极离子枪产生的氧离子轰击淀积过程中的薄膜表面。
The oxygen reduction reaction that takes place at the fuel cell's cathode creates water as its only waste and it is there that up to 40 percent of a fuel cell's efficiency is lost.
对氧还原反应,发生在燃料电池的阴极地方创建作为其唯一的废水和它的存在,多达40燃料电池的效率是百分之丢失。
Experimental study has been made on substituting polytetrafluoroethylene oxygen electrode with silver catalyst for hydrogen cathode in chlorine-alkali electrolyzer in common use today.
本文试验了用含有银催化剂的聚四氟乙烯氧电极,代替目前氯碱电解槽中所使用的氢阴极。
It was suspected that NO2 - ions, formed at the cathode by reduction, May have an adverse effect on the oxygen content of the sample.
人们曾经怀疑,在阴极通过还原作用而形成的NO2-离子可能对样品的氧含量有不利的影响。
The cathode catalyst for oxygen reduction reaction is one of the most important factors that can affect the performance of fuel cell.
氧还原反应阴极催化剂对燃料电池的性能起着非常关键的作用。
The oxygen reduction catalyst can be applied to the fields of proton exchange membrane fuel batteries, direct methanol fuel batteries, metal-air battery cathode materials and the like.
本发明的氧还原催化剂可应用于质子交换膜燃料电池、直接醇类燃料电池和金属-空气电池阴极材料等领域。
The results show that: increasing temperature will lead to more methanol to permeate to the cathode, and increase the charge transfer resistance of cathodic oxygen reduction reaction;
只有采用大的空气流量,才会有效地防止水淹,加大氧气向催化剂层的传质,促进阴极反应的进行;
The results show that: increasing temperature will lead to more methanol to permeate to the cathode, and increase the charge transfer resistance of cathodic oxygen reduction reaction;
只有采用大的空气流量,才会有效地防止水淹,加大氧气向催化剂层的传质,促进阴极反应的进行;
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