This paper summarizes the application of ion exchange membrane technique in tungsten metallurgy industry, and forecasts it's broad prospects.
综述了离子膜技术在钨冶金中的应用,展望了它的应用前景。
Therefore, when the electrodes are used for the ion exchange membrane fuel cells, the electrodes with higher platinum contents are more favourable for electrochemical reaction process.
因此,将铂炭复合材料作为离子膜燃料电池电极材料时,铂含量高的铂炭复合电极更有利于电化学反应的进行。
The determination of material structure, performance parameters and membrane resistance, membrane diffusion coefficient of the F4112 ion exchange membrane were introduced.
介绍了F4112离子交换膜的材料结构、性能参数及膜电阻、膜中扩散系数的测定方法。
The principles and characteristics were briefly described on the methods of acid dissolution, alkali dissolution, ion exchange and membrane separation for aluminum salt recovery.
简述了铝盐回收的主要方法,分别为酸溶法、碱溶法、离子交换法和膜分离法,对每一种方法的原理和特点作了介绍。
In the picture, ion-exchange membrane with lines and indicate they allow, said the ion species through.
在图中,离子交换膜用竖线表示,并标明它们允许通过的离子种类。
The ion exchange membrane electrolysis has good development because of iron permselectivity of membrane in separating abio-iron and concentrating acid and alkali.
离子交换膜电解技术,由于膜的离子选择透过性,在分离无机离子和浓缩酸碱方面具有良好的发展前景。
The pair of Yin and ion exchange membrane between filling mixed ion exchange resin was formed a EDI unit.
在一对阴阳离子交换膜之间充填混合离子交换树脂就形成了一个EDI单元。
Yin and Yang ion exchange membrane by ion exchange resin mixed between the space occupied called freshwater room.
阴阳离子交换膜之间由混合离子交换树脂占据的空间被称为淡水室。
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.
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。
This thesis mainly explores the possibility of applying the bipolar membrane technology to displace the traditional ion exchange process.
这篇论文主要探索双极膜替代这传统离子交换工艺的可能性。
In this paper, ion-exchange membrane used for EDI is studied, and flow field distribution modeling of dilute chamber with computational fluid dynamics (CFD) software is studied for the first time.
本文主要对EDI设备中的离子交换膜进行研究,并首次采用计算流体力学(CFD)软件对淡水室隔板的流场分布进行模拟。
The maintenance of bipolar ion-exchange membrane electrolyzer during its operation is discussed.
论述了复极式离子膜电解槽运行过程中的维护。
The extraction of amino acids by ion-exchange, liquid membrane and reverse micelle and their applications in the separation of hair-hydrolyzed amino acids are summarized.
总结了氨基酸制备中的三大萃取技术:离子交换反应萃取,液膜分离萃取和反相胶团萃取及其在毛发水解氨基酸萃取分离方面的应用。
The hardware components and software configuration for emergency shut-down control device in ion-exchange membrane caustic soda production are introduced, and the debugging modes are described.
介绍了离子膜烧碱工艺中紧急停车控制系统的硬件构成及组态软件,并阐述了其运行调试方法。
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。
The dynamic behaviour of the extraction of L lysine by the use of the hollow fiber membrane is studied with combination of ion exchange method and membrane ultrafiltration method.
采用离子交换与膜超滤耦合法,研究了用中空纤维膜提取L-赖氨酸的动力学行为。
The structure of bipolar components of 38dd350 type ion-exchange membrane electrolyzer is introduced.
介绍了38dd350型离子膜电解槽复极元件的结构。
The operation of DeNora 29DD350 ion-exchange membrane electrolyzer during the production are summarized.
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 application of DCS in the production process of ion-exchange membrane caustic soda, the realization of common controlling plans and the practical results are introduced.
介绍了DCS在离子膜制碱工艺中的应用及常用控制方案的实现和运行效果。
Theories, making processes and performances of ion exchange membrane are described through discussions on regenerative membrane used in electrodialysis of desulfurization waste liquid.
通过对脱硫废液电渗析再生用膜的探讨,说明了离子交换膜的理论、制法和性能。对电渗析所采用之膜的性能特点和制备工艺作了分析。
Within our reclaim technologies, we strive to apply Membrane processes which in turn lower the usage of chemicals or other addition usually needed when applying ion - exchange or other technologies.
在回收水技术中,我们引进膜技术以减少化学品和其他添加剂的使用;这些化学品和添加剂通常在离子交换和其他技术都有采用。
The ion exchange membrane technique, a kind of potential separation method, have broad prospects in the treatment of liquid waste.
离子交换膜技术是一种很有潜力的分离方法,在废水处理方面有广阔的应用前景。
The situation of technology and use of domestic ion-exchange membrane electrolyzers is introduced.
对国产离子膜电解槽的技术、应用情况进行了介绍。
The main mechanisms in these processes are surface adsorption, ion-exchange, chola gathers, membrane separation and infiltration.
物理化学法处理含铜废水的主要机理为表面能吸附、离子交换、螯合、膜分离、渗透等。
The main mechanisms in these processes are surface adsorption, ion-exchange, chola gathers, membrane separation and infiltration.
物理化学法处理含铜废水的主要机理为表面能吸附、离子交换、螯合、膜分离、渗透等。
应用推荐