1)membrane process膜过程
1.Analysis of coupled heat and mass transfer in membrane process;膜过程中热质耦合传递分析
2.Advances in dendritic polymers based membranes and membrane processes;基于树枝型聚合物的膜与膜过程研究进展
3.A review of the 7th international congress on membranes and membrane processes;第七届膜与膜过程国际会议概述
英文短句/例句
1.Control and Optimization of Membrane Morphology in Phase Inversion Process;相转化法制膜过程的膜结构形态调控与优化
2.Study on the Module Performance and Dynamic Process of Membrane Distillation;膜蒸馏的膜组件性能及动态过程研究
3.Parameters Relationships in the Diafiltration Process with Various Permeation Coefficient of Microsolute不同透过率下膜洗滤过程的参数关系
4.Study on Characterics of Filtration and Membrane Fouling in Nanofiltration Process;纳滤膜水处理过程中膜污染分析及膜过滤特性研究
5.Seawater desalination by membrane distillation:a comparison of three processes膜蒸馏海水淡化过程研究:三种膜蒸馏过程的比较
6.Mass Transport and Stability of Supported Liquid Membrane;支撑液膜分离过程传质与膜稳定性研究
7.Studies on Membrane Fouling in Clarification of Traditional Chinese Medicine Extract Using Ceramic Membrane;陶瓷膜澄清中药水提液过程中膜污染的研究
8.Experimental Study on RO Membrane Fouling Process and Membrane Cleaning反渗透膜污染过程与膜清洗的实验研究
9.Progress in research on transfer mechanism in membrane distillation (Ⅲ) Vacuum membrane distillation膜蒸馏过程传递机理研究进展(Ⅲ)真空膜蒸馏
10.DEVELOPMENT OF UF MEMBRANE FOULING IN TREATING SURFACE WATER超滤膜处理地表水过程中膜污染的研究进展
11.Progress of research on transfer mechanism in membrane distillation (Ⅱ) Air gap membrane distillation膜蒸馏过程传递机理研究进展(Ⅱ)气隙式膜蒸馏
12.The progress in search on controlling and cleaning of membrane pollution in ultrafiltration separation超滤过程中膜污染控制和膜清洗的研究进展
13.Research Advances in Membrane Pollution Control in Membrane Bioreactor膜生物反应器运行过程的膜污染防治研究进展
14.This process suffers mainly from clogging the membrane.这种过程的主要问题是滤膜的堵塞。
15.Spores form a lipid membrane during the process of reproducing.孢于在生殖过程中形成类脂膜。
16.molecules of a gas form a thin film on the surface of a solid.气体分子在固体表面形成薄膜的过程。
17.A STUDY ON MASS TRANSFER PROCESS IN EXTRACTION OF CHROMIUM FROM WASTE WATER WITH LIQUID MEMBRANES液膜法萃取含铬废水传质过程的研究
18.Study on HYSYS Simulation System for Gas Membrane Separation Process;气体膜分离过程HYSYS模拟系统的研究
相关短句/例句
Deposition process镀膜过程
1.The deposition process of thin film has been thoroughly studied in terms of theories and experiments.本论文概述了利用计算机来直观模拟多弧离子镀的镀膜过程。
3)film formation成膜过程
1.In order to investigate the influence of the composition and structure of core-shell type emul- sions on the film formation and the property of the coatings,a series of polystyrene/poly(butyl acry- late-co-methyl methacrylate)composite emulsions were prepared by semi-continuous emulsion poly- merization under monomer starved conditions.为考察苯乙烯-丙烯酸酯(简称苯-丙核壳型)乳液的组成与结构对成膜过程及涂膜性能的影响,采用分阶段饥饿态加料的半连续乳液聚合法以苯乙烯和丙烯酸酯为原料制备了一系列苯-丙核壳型乳液。
4)Electropolymerization成膜过程
1.The electropolymerization of nickel tetraaminophthalocyanine(NiTAPc) on gold electrode was studied by cyclic voltammetry and electrochemical quartz crystal microbalance(EQCM).采用循环伏安法(CV)和石英晶体微天平技术(QCM)对四氨基镍酞菁(NiTAPc)在金电极上的聚合成膜过程进行了研究,讨论了扫描速率、溶剂、支持电解质及单体浓度对其成膜过程的影响,考察了该聚合膜在无单体电解质溶液中的氧化还原行为及稳定性。
2.The electropolymerization of Cobalt tetraaminophthalocyanine(CoTAPc) on gold electrode has been studied by cyclic voltammetry and electrochemical quartz crystal microbalance(EQCM).采用循环伏安法和石英晶体微天平 (QCM)技术对四氨基钴酞菁 (CoTAPc)在金电极上的聚合成膜过程进行了研究 ,考察了扫描速度、溶剂、支持电解质及单体浓度对其成膜过程的影响 ,同时初步探讨了聚合膜分别在非水溶液和水溶液中的氧化还原行为及稳定性 ,其中借助EQCM重点讨论了在这些过程中溶液中离子在膜中传输的机理。
5)film formation process成膜过程
1.The film formation process of corrosion inhibitors on copper in neutral solutionswas studied by combination of photoelectrochemical technique with electrochemical quartzcrystal microbalance(PECQCM).使用光电化学与电化学石英晶体微天平联用(PECQCM)技术对中性介质铜缓蚀剂成膜过程进行了现场研究。
6)integrated membrane process集成膜过程
1.Oily wastewater treatment and reuse by integrated membrane process;用集成膜过程对含油废水进行资源化回收利用处理
2.Study on the integrated membrane process of dehumidification of compressed air and gas phase dehydration of ethanol;压缩空气脱湿和乙醇气相脱水的集成膜过程研究
延伸阅读
正规过程和倒逆过程 讨论完整晶体中声子-声子散射问题时,由于要求声子波矢为简约波矢(见布里渊区),所得到的总波矢守恒条件会相差一个倒易点阵矢量G)。例如对于三声子过程有下列条件 , (1) 式中q1和q2是散射前的声子简约波矢, q3为散射后声子波矢,式(1)中G)的取值应保证q3也是简约波矢。这时会出现两种过程,其一是当q1+q2在简约区内时,可以取倒易点阵矢量G)=0,式(1)则简化为总波矢守恒条件,称为正规过程或N过程。其二是当q1+q2超出简约区时,所取G)应保证q3仍落于简约区内,由于q3与q1+q2相差G),显然q3位于q1+q2的相反一侧,这时散射使声子传播方向发生了倒转,故称为倒逆过程或U过程。U过程总波矢不守恒,但总能量守恒,因为声子频率是倒易点阵的周期函数,而q3与q1+q2只相差一个倒易点阵矢量。N过程在低温长波声子的散射问题中起主要作用。当温度升高,简约区边界附近的声子有较多激发时,U过程变得十分显著,它对点阵热导有重要贡献。 在能带电子与声子散射问题中存在着与式 (1)相仿的总波矢条件 k+G=k┡±q, (2) 式中k与k┡分别为散射前后电子的简约波矢,±号分别对应于吸收或发射q声子。类似的在热中子-声子散射以及晶体中一切波的相互作用过程中,总波矢变化都相差一个倒易点阵矢量G),因此也都有N与U过程之分。这是晶体和连续媒质不同之处,连续媒质对无穷小平移具有不变性,才能求得总波矢守恒,而晶体只具有对布喇菲点阵的平移不变性,因此总波矢守恒条件会相差一个倒易点阵矢量。
