考虑了气体分离膜应用和气体传递机理的各种技术。
The various technologies for gas separation application and the gas transport mechanisms are reviewed.
由于膜分离过程是一种省能型操作,近年来,气体分离膜的研究受到关注。
Membranes for gas separation have recently attracted much attention since membrane separation is one of the promising energy-saving operations.
全面综述了近几年气体分离膜研究的最新进展,主要包括气体分离膜材料、制膜方法、表征方法三个方面。
This review is focused on the recent progress in the researches and developments of the gas separation membranes including membrane materials, preparation methods and characteristics.
实验数据表明; 由该共聚物制成的膜具有良好的气体分离性能。
The data indicates that the film made of copolymer has good gas separation property.
对高分子聚合膜渗透分离油中溶解气体的基本原理进行了深入分析。
Resolve inside to the high polymers membrane permeation separation oil the basic principle of the gas proceeded the thorough analysis.
主要探讨了一些表面活性剂对气体分离用聚砜中空纤维膜表面涂敷上的作用。
This paper discusses mainly the coating technics of polysulfone hollow fiber membrane for gas separation by the effect of some surface active agents.
并发现以紧密而孔径小的闭口空胞组成的过渡层对不对称膜的气体分离有利。
It is found that the transition layer composed of closed-cell with tight and smaller pore-size pores makes the asymmetriC membrane benefit of gas separation.
结果表明,高分子膜能将油中溶解气体分离。
Experimentsshow that the dissolved gas can be separated from oil by using polymer membrane.
自从氢气回收和富氧分离大规模工业化以来,人们对气体在膜中的渗透机理进行了大量的研究。
Since hydrogen recovery and oxygen enrichment are industrialized on large scale, a lot of researching work have been done on gas permeation mechanism in membrane.
考察了气体在膜催化反应器中的渗透性能与分离性能。
Gas permeability and permselectivity of the inorganic membrane catalytic reactor have been investigated.
通过热固性硅树脂膜的控制裂解和活化,开发出一种新型的可用于高温气体分离的硅膜。
A new silicon membrane, which is employable in gas separation at higher temperature, is developed by control pyrolysis and activation of a thermosetting.
膜吸收技术是将膜分离技术与传统气体吸收技术相耦合的新型分离技术。
Membrane absorption technology is novel separate technology that combine membrane separation technology and traditional gas absorption technology.
本文讨论了二元混合气体通过微孔金属膜扩散分离的过程。
The diffusional separation processes of binary gas mixtures through microporous metal membranes were discussed in this paper.
系统论述了聚苯胺自支撑膜和复合膜对气体的分离性能。
The gas separation performance of free standing and composite polyaniline membranes are generally reviewed.
本发明还涉及这种膜用于分离极性气体和蒸汽的用途。
The invention further relates to the use of this membrane for separating polar gases and vapors.
本发明涉及一种用于分离酸性气体的强化聚乙烯胺固定载体复合膜及其制备方法。
The invention relates to a strengthened polyethylene imine fixed carrier composite membrane for separating acid gas and a preparation method thereof.
通过热固性硅树脂膜的控制裂解和活化,开发出一种新型的可用于高温气体分离的硅膜。
A new silicon membrane, which is employable in gas separation at higher temperature, is developed by control pyrolysis and activation of a thermosetting. silicon resin membrane.
本文综述了气体膜分离技术的分离机理、使用的膜材料及在各行业中的应用。
The paper reviews separation mechanism, membrane materials and application of membrane technology of gas separation in industries.
本文综述了分子筛复合膜的制备方法,介绍了分子筛复合膜在混合气体分离中的应用及分离机理。
The preparation of zeolite composite membranes has been reviewed in details. Their application in gas separation and the mechanism of separation have been discussed briefly.
用h_2 - n_2二元混合气体通过微孔金属膜进行了扩散分离实验,实验结果与计算值符合很好。
The experiments of diffusional separation were made with H_2-N_2 binary gas mixtures through microporous metal membranes. The experimental results agreed well with the calculated values.
热固性硅树脂的化学组成及其结构,裂解及活化条件是影响最终生成的高温气体分离用硅膜性能的关键因素。
The chemical structure and composition, the conditions of pyrolysis and activation of the thermosetting silicon resin are the key factors which affect properties of the resulted silicon membranes.
综述了气体混合物通过炭膜时传递和分离性能的影响因素(如孔结构及孔径大小、操作压力、温度、组分组成等);
The effect of the various factors, which is the structure and size of the pore, pressure, temperature, and feed composition is investigated in detail.
以酚醛树脂为原料制备了炭支撑膜和炭-炭复合膜,研究了其气体分离性能。
Carbon supported membrane and carbon-carbon composite membrane were prepared from phenol-formaldehyde resin and their gas separation properties were investigated.
钙钛矿型致密透氧膜作为一类重要的无机膜,在高温气体分离和膜催化反应中有巨大的潜在研究价值。
As a very important inorganic membrane, perovskite-type dense oxygen permeable membranes have great potential applications in high temperature gas separation and membrane catalytic reaction research.
NMP炭膜既有良好的柔韧性,又表现出较高的气体分离选择性,制备工艺也相对简单,因此是制备PPESK炭膜的最佳溶剂。
One prepared with NMP had outstanding mechanical property and selectivity, with easy craft. Thus, NMP was the optimum solvent to prepare PPESK carbon membranes.
NMP炭膜既有良好的柔韧性,又表现出较高的气体分离选择性,制备工艺也相对简单,因此是制备PPESK炭膜的最佳溶剂。
One prepared with NMP had outstanding mechanical property and selectivity, with easy craft. Thus, NMP was the optimum solvent to prepare PPESK carbon membranes.
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