Recently, a bipolar membrane process has become one of the most attractive fields in the world.
双极膜是近年来国际上研究比较活跃的一种新型膜。
Bipolar membrane electrodialysis is used to recover acetic acid from dilute waste water containing 0.2% acetic acid.
探索了用双极性膜电渗析法处理含质量分数为0 . 2 %醋酸废水的可行性。
Optimization of materials for making acid and base by water splitting in three-compartment with bipolar membrane is studied.
采用三室法以氯化钠溶液为对象,对利用双极膜水解离制备酸碱的有关材料进行优化。
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。
Bipolar membrane electrodialysis was found to be a feasible method for separation of acid and sugar produced from acidic hydrolysis of biomass.
提出了双极性膜电渗析用于生物质水解液糖酸分离的方法,通过实验验证了该方法的可行性。
In the bipolar membrane electrodialysis (BMED) operation, sodium lactate was converted into lactic acid and sodium hydroxide of high purity was obtained.
在双极膜电渗析中,乳酸钠转化为乳酸,并得到纯度比较高的氢氧化钠。
The means using two-compartment electrodialysis consisting ofABSTRACTanion-selective and bipolar membrane to treat the absorbed dilute SO2 solution is put forward for the first time .
在双极膜电渗析法处理低浓度SO_2吸收液的研究中,首次提出了用阴膜和双极膜组成二室结构的电渗析器处理低浓度SO_2吸收液的新方法。
A three-chambered bipolar membrane electrodialysis pilot module was used to recover organic acid from butyl-acrylate wastewater. Influence of operation voltage on the process was investigated.
采用具有三隔室重复单元的电渗析中试装置从丙烯酸丁酯废水中回收有机酸,考察了操作电压对转化过程的影响。
Bipolar membrane electrodialysis (BME) is used to convert sodium amino acetate to amino acetic acid and sodium hydroxide in the dehydrogenation oxidation of ethanolamine to produce amino acetic acid.
通过双极性膜电渗析技术,把一乙醇胺脱氢氧化生产氨基乙酸过程中产生的氨基乙酸钠盐转化为氨基乙酸和氢氧化钠。
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 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 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 performance of Bipolar Plate directly affects the reliability, stability and longevity of proton exchange membrane fuel cell (PEMFC).
双极板性能的优劣直接影响着质子交换膜燃料电池(pemfc)的可靠性、稳定性和寿命。
Bipolar plate is one of the critical components of proton exchange membrane fuel cell (PEMFC).
双极板是质子交换膜燃料电池(pemfc)的关键部件之一。
Bipolar plate is one of the important parts in fuel cells which distributes fuel and oxidant to the membrane electrode and provides electrically connection between neighboring single cells.
聚合物膜燃料电池中的双极板向膜电极分配燃料和氧化剂并串连相邻单电池,是重要部件之一。
The price of proton exchange membrane fuel cell, for example, could be lowing down by developing new catalyst, solid polymer electrolyte and bipolar plate.
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。
Research progress in PEMFC including catalyze, electrode, proton exchange membrane, electrolyte, bipolar board and carbon nano-tube were described.
综述了包括催化剂、电极、质子交换膜、电解质、双极板和碳纳米管在内的质子交换膜燃料电池的研究进展。
The basic structure of AK modified bipolar ionic membrane element, its method of check and test, and essentials of repair were introduced.
介绍了旭化成复极单元槽的基本结构,检查试验方法和修理技术要领。
The membrane electrode assembly (MEA) and the bipolar plate were the key components of proton exchange membrane fuel cell (PEMFC).
膜电极和双极板是质子交换膜燃料电池(pemfc)的关键组件。
The membrane electrode assembly (MEA) and the bipolar plate were the key components of proton exchange membrane fuel cell (PEMFC).
膜电极和双极板是质子交换膜燃料电池(pemfc)的关键组件。
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