论述了复极式离子膜电解槽运行过程中的维护。
The maintenance of bipolar ion-exchange membrane electrolyzer during its operation is discussed.
对国产离子膜电解槽的技术、应用情况进行了介绍。
The situation of technology and use of domestic ion-exchange membrane electrolyzers is introduced.
介绍了38dd350型离子膜电解槽复极元件的结构。
The structure of bipolar components of 38dd350 type ion-exchange membrane electrolyzer is introduced.
介绍了离子膜电解槽在生产运行过程中的腐蚀现象,讨论了产生腐蚀的原因。
The corrosion phenomenon of ionic membrane electrolyzer in production process was introduced. The reasons of corrosion were also discussed.
就迪诺拉公司29DD350 型离子膜电解槽在生产中的运行情况进行技术总结。
The operation of DeNora 29DD350 ion-exchange membrane electrolyzer during the production are summarized.
介绍了采用新工艺精制离子膜电解槽盐水的工艺概况、特点及参数。指出了存在的问题及注意事项。
Process, characteristics and parameters of refined brine by new process for ionic membrane electrolyzer were introduced. The existing problem and points for attention were pointed out.
以离子膜电解槽为例,介绍了串级控制系统的形成,分析了串级控制系统的工作过程、结构及特点。
Taking electrobath of hydronium film as an example, this paper introduces the form of cascade control system, and analyzes its working process, structure and characteristics.
在应用研究中,本文结合离子膜电解槽控制的实际课题,设计了集优化、GPC控制和前馈为一体的先进控制系统。
As the part of application research of the thesis, an advanced control system combined with optimization, GPC and feedforward is designed for the project of ion exchange membrane electrolytic bath.
本研究先用带离子膜电解槽电解氧化生成碘酸钾,然后反应液与氯化钙反应得到符合饲料添加剂标准的碘酸钙产品。
Potassium iodate was synthesized by electrochemical method first, then the product reacted with calcium chloride to get the calcium iodate.
分析了离子膜烧碱生产过程中30dd350型电解槽电压的主要影响因素:膜电压降、降和溶液电压降。
The main factors influencing the cell voltage of electrolyzers of 30dd350 type are analyzed. They are membrane voltage drop, unit cell voltage drop, and solution voltage drop.
在由离子膜分隔的电解槽中电解溴化钠溶液,所产生的含溴阳极液和碱性阴极液,分别是由全氟丙烯合成全氟环氧丙烷的环氧化剂和皂化剂。
A divided flow cell is used for electrolysis of NaBr aqueous solution. The anolyte containing Br 2 and catholyte containing NaOH are produced simultaneously and in turn to epoxide HFP to HFPO.
在由离子膜分隔的电解槽中电解溴化钠溶液,所产生的含溴阳极液和碱性阴极液,分别是由全氟丙烯合成全氟环氧丙烷的环氧化剂和皂化剂。
A divided flow cell is used for electrolysis of NaBr aqueous solution. The anolyte containing Br 2 and catholyte containing NaOH are produced simultaneously and in turn to epoxide HFP to HFPO.
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