本文介绍了离子交换膜的渗透汽化研究工作。
The study of pervaporation through ion exchange membranes is reviewed.
以离子交换膜为基础,进行预处理和化学改性。
采用具有选择透过性的均质阴离子交换膜进行金电解。
A homogeneous anion exchange membrane with selective permeability was been applied to gold electrolysis.
而阳离子交换膜只允许阳离子透过,不允许阴离子透过。
And cation exchange membrane only allow cationic through, does not allow anionic through.
对废水中离子通过离子交换膜的极化现象和迁移性也做了研究。
Also, the ionic mobility and polarization of the ions in waste water...
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。
In the picture, ion-exchange membrane with lines and indicate they allow, said the ion species through.
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。
Yin and Yang ion exchange membrane by ion exchange resin mixed between the space occupied called freshwater room.
利用交流阻抗谱测定技术,建立一种离子交换膜导电性能评价方法;
Using AC impedance measurement, this study proposed a method to investigate ion exchange membrane area resistances;
阴离子交换膜扩散渗析技术已被成功地应用于钢铁废酸的回收处理工程。
Diffusion dialysis using anion exchange membrane has been successfully used in separating waste steel pickle liquor.
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。
The pair of Yin and ion exchange membrane between filling mixed ion exchange resin was formed a EDI unit.
其中,将被处理水供给至在阴极(3)和阳离子交换膜(4)之间的空 间内。
The water to be treated is supplied in a space between the cathode (3) and the cation exchange film (4).
阴离子交换膜在金电解造液过程中的技术指标,其优于素烧坩埚金电解造液技术指标。
The indexes were compared with those ones in gold electrolyte preparation with bisque firing crucible process.
阴离子交换膜在金电解造液过程中的技术指标,其优于素烧坩埚金电解造液技术指标。
The indexes were compared with those ones in gold electrolyte bisque firing crucible process.
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 determination of material structure, performance parameters and membrane resistance, membrane diffusion coefficient of the F4112 ion exchange membrane were introduced.
本发明提供的全氟离子交换膜能够同时满足机械强度和离子交换容量的需求并且热稳定性好。
The perfluorinated ion exchange resin provided by the invention can simultaneously satisfy the requirements of mechanical strength and ion exchange volume and has favourable thermostability.
中空纤维离子交换膜广泛应用于蛋白质的分离纯化、重金属离子的去除以及酶催化反应等众多领域。
Hollow fiber ion-exchange membrane is widely used in many areas such as protein separation and purification, removal of heavy metal ion and enzyme immobilization.
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 ion exchange membrane electrolysis has good development because of iron permselectivity of membrane in separating abio-iron and concentrating acid and alkali.
碱性阴离子交换膜(AAEM)是AAEMFC的核心部件,其性能好坏直接影响到AAEMFC的性能。
Alkaline anion exchange membrane (AAEM) is the core component of AAEMFC, its properties directly affect the performance of AAEMFC.
作者综述了电渗析法、 离子膜电解法和扩散渗析法等离子交换膜技术处理冶金工业废液的研究与应用现状。
The study and application of it have been summarized in treating metallurgy liquid waste with the technique such as electrodialysis, electromembrane processing and diffusion dialysis, etc.
在此基础上揭示阳离子交换膜、阴离子交换膜对离子的不同吸附特性,以及膜面电阻对电解质溶液浓度依存特性。
The measured results revealed the various adsorption behaviors of cation and anion exchange membranes, and showed membrane area resistance dependence upon electrolyte solution concentration.
含氟磺酸型质子交换膜是一类具有高热稳定性、化学稳定性及良好机械性能的离子交换膜,具有极其广阔的应用前景。
Fluoride sulfonic proton exchange membrane has a much bright future for its high thermal stability, high chemical stability and good mechanical strength.
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。
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.
采用循环伏安法研究了全钒离子液流电池正极溶液的浓度及添加剂对正极反应的影响。 研究了两种离子交换膜对钒电池性能的影响。
The effect of concentration and additive of vanadium ion redox flow battery on positive reaction was investigated by the means of cycle voltammetry.
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。
Theories, making processes and performances of ion exchange membrane are described through discussions on regenerative membrane used in electrodialysis of desulfurization waste liquid.
介绍废酸在阴离子交换膜中扩散行为的研究进展及扩散渗析法在湿法冶金中的应用情况,并简要评述扩散渗析法在湿法冶金中的应用前景。
The waste acids performance in anion-exchange membrane and the application of diffusion dialysis in hydrometallurgy were introduced. The prospect of diffusion dialysis technology was also inducted.
以质子交换膜燃料电池为例,必须通过减少用量或发现新材料而取代目前使用的催化剂、离子交换膜和双极板,才能大幅度降低电池的价格。
The price of proton exchange membrane fuel cell, for example, could be lowing down by developing new catalyst, solid polymer electrolyte and bipolar plate.
研究了一种新的黄腐酸提纯工艺方法,采用异相离子交换膜进行黄腐酸的电渗析提纯,黄腐酸经电渗析后的纯度可达95% ,收率为88.47% ;
Proposed is a process for purification of yellow humic acid by heterophase cation-exchange membrane. After electrophoresis, its purity was up to 95% and recovery, 88.47%.
通过初步试验,探讨了用离子交换扩散渗析膜有选择性地回收酸分离铀的机理及影响因素。
Based on experiments, the diffusion mechanism and influential factor of selective uranium separation and acids recovery with ion exchange diffusion dialysis membranes are introduced.
通过初步试验,探讨了用离子交换扩散渗析膜有选择性地回收酸分离铀的机理及影响因素。
Based on experiments, the diffusion mechanism and influential factor of selective uranium separation and acids recovery with ion exchange diffusion dialysis membranes are introduced.
应用推荐