渗析原理的应用是除半咸水中的盐。
The dialysis principle can be used for demineralization of brackish water.
描述了电渗析技术的应用研究。
葡萄糖监测是一种微量渗析技术。
KEMA公司对于它的首个电渗析电站有两个候选地址。
KEMA has two possible sites for its first electrodialysis plant.
该方法简单准确,不需要对样品进行渗析处理。
This method is simple and accurate and there is no need to filtrate the samples.
电渗析淡化法是使用一种特别制造的薄膜实现的。
Electrodialysis desalination method is to use a special manufacturing thin-film achieved.
设计了二泵式电渗析器,测试了其主要性能参数。
A two-pump electrodialysis device is designed and main parameters of the device are tested.
不足处是反向电渗析产生的是直流电,而世界上主要使用交流电。
The disadvantage is that reverse electrodialysis produces direct current, whereas the world runs mostly on alternating current.
膜用在微滤、超滤,渗析和反渗透以及别的一些过程中。
Membranes are used for micro and ultrafiltration, dialysis and reverse osmosis, amongst other processes.
国际糖尿病:与传统的技术相比,微量渗析技术有哪些优点?
International Diabetes: What are the advantages of the microdialysis technique as compared to the conventional techniques?
塞股将演出积分除盐过程中的电解法,电渗析法和离子交换。
CEDI unit will perform a integral demineralization process of electrolysis, electrodialysis and ion-exchange.
这类隔膜以电渗析原理工作,与超滤器不同,他们不需要压力。
These membranes work on the principle of electrodialysis. Unlike ultrafilters, they do not require pressure.
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。
In the bipolar membrane electrodialysis (BMED) operation, sodium lactate was converted into lactic acid and sodium hydroxide of high purity was obtained.
通过不同方案试验对比,提出了合理的等电流操作电渗析的膜对数组合。
Compared with different schemes of experiments, a kind of reasonable mem-brance couples of Ed with equal electric current is raised.
结果 微渗析实验中,回收率随灌注液流速的增大而减小,绝对回收率则相反。
RESULTS In microdialysis in vitro, the recovery decreased as the perfusion rate was increased, but the absolute recovery increased.
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。
Bipolar membrane electrodialysis is used to recover acetic acid from dilute waste water containing 0.2% acetic acid.
本文介绍了电渗析膜技术在烧碱生产和锅炉给水处理中的应用效益及其设备生产厂家。
This paper introduced the technology of electroosmosis film used in the production of caustic soda and boiler supply water treatment, its profits, together with the equipment producers.
为改进微生物发酵法生产谷氨酰胺的流程,提出用电渗析方法来分离谷氨酰胺和谷氨酸。
In order to improve the microorganism fermentation process of producing glutamine, an electrodialysis method was developed to separate glutamic acid and glutamine.
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.
本文概述了家用电渗析纯水器的研制,得出了主要部件的技术参数和整机部份性能检测结果。
The paper summarizes the development of household electrodialysis pure water device and introduces the technical parameters of main parts and the their performance test results.
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。
Bipolar membrane electrodialysis was found to be a feasible method for separation of acid and sugar produced from acidic hydrolysis of biomass.
本文论证了电渗析脱盐机理,探讨了影响电渗析脱盐的诸多因素,自行开发出全自动纯水器。
Desalination mechanism of electrodialysis is explained in this paper. Influential factors for desalination used by electrodialysis are discussed. Automatic water puri-fier is developed.
目的考察微渗析探针回收率的影响因素,研究体外微渗析和经皮微渗析回收率的计算方法。
OBJECTIVE To study the factors affecting the recovery of microdialysis probe and the methodology of the recovery determination of in vitro microdialysis and cutaneous microdialysis.
使用特定尺寸的隔膜或使用在高电荷密度下运行的阳极液(电渗析)隔膜,可以达到这种状况。
This condition can be achieved by using size-exclusion membranes or by using anolyte (electrodialysis) membranes which operate in the presence of dense electric charges.
针对以上的问题,首次采用三室双阳膜电解和双极膜电渗析法处理了低浓so_2钠碱吸收液。
Aimed at the problems above, the three-compartment cation selective membrane electrolysis and dipolar membrane electrodialysis technique are used to deal with the dilute SO2 absorbed solution.
本文较详细地介绍了国外净化天然气的最新方法——薄膜渗析工艺,以及该工艺参数的计算方法。
This paper describes in detail the latest membrane processing system abroad in purification of gas and its calculational method of process parameters.
微生物电解电池涉及一种被称为“反渗析”原理,利用盐水和淡水里的盐度即盐含量差,产生能量。
The MECs use something called "reverse electrodialysis" (RED), which refers to the energy gathered from the difference in salinity, or salt content, between saltwater and freshwater.
微生物电解电池涉及一种被称为“反渗析”原理,利用盐水和淡水里的盐度即盐含量差,产生能量。
The MECs use something called "reverse electrodialysis" (RED), which refers to the energy gathered from the difference in salinity, or salt content, between saltwater and freshwater.
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