本文主要从三个方面对该电解海水防污系统中的有效氯进行研究。
This article discusses the researches of the chlorine in the seawater electrolysis antifouling system.
根据试验研究发现,电解海水产生的氯可杀灭大部分海生物和细菌。
According to experiments, it was discovered that the chlorin generated by electrolyzing sea water can kill almost all of the sea species and germs.
电解海水防污技术作为防止冷却水系统生物污损最安全、有效的方法,己在国内外得到广泛关注。
The technology of seawater electrolysis antifouling is the safe and effective method in prevented bio-fouling of cooling water system, and the technology is adverted widely.
综述了电解海水用金属氧化物涂层阳极的研究现状和发展趋势,以及该阳极的电化学特性与微观组织结构的关系。
The recent status and trend of the development of metal oxide coated anode are reviewed with relationships between its electrochemical properties and microstructure discussed.
提出了基于需盐脱硫弧菌以含乳酸盐的海水培养基为电解液的微生物燃料电池。
A microbial fuel cell of laboratory scale employing Desulfovibrio salexigens in lactate based seawater substrate was proposed.
海水包含高浓度的离子,非常类似于电池的电解液。
Seawater has a high concentration of ions, much like the battery's electrolyte.
根据这些问题,本文主要从三个方面对海水直接电解制氯过程进行研究。
According to these problems, this article discusses the process of producing chlorine from seawater direct electrolysis from three aspects.
产品广泛用于石油化工、电解电镀、机械船舶、海水淡化、体育用品、钛工艺品等领域。
Products are widely used in petrochemical, electrolytic plating, machinery of the ship, sea water desalination, sporting goods, handicrafts, such as titanium in the area.
主要讨论海水温度的变化对海水电解用阳极过程的影响。
The influence of temperature on the anodic process of seawater electrolysis are discussed.
目的观察海水中火器伤早期血电解质、蛋白、血糖和晶体渗透压的变化,为早期救治方案的拟定提供实验依据。
Objective to investigate the changes of serum osmotic pressure and electrolyte balance in the early stages of gunshot wound of dogs in seawater for exploring early treatment protocol.
产品广泛用于石油化工、电解电镀、机械船舶、海水淡化、体育用品、钛工艺品等领域。
Products are widely used in petrochemical, electrolytic plating, mechanical ships, desalination, sporting goods, handicrafts and other fields of titanium.
同时对实际生产中存在的问题,如电流效率低、阳极寿命短等的原因进行了分析,并指出海水电解技术广阔的应用前景。
The problems existing in the application of the technique, such as the current efficiency was low and the lifetime of the node was short were discussed. Its wide application prospect were pointed out.
同时对实际生产中存在的问题,如电流效率低、阳极寿命短等的原因进行了分析,并指出海水电解技术广阔的应用前景。
The problems existing in the application of the technique, such as the current efficiency was low and the lifetime of the node was short were discussed. Its wide application prospect were pointed out.
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