碳分子筛

详细考察了，不同量的高分子聚合物和炭化工艺对碳分子筛的孔结构的影响。

The influence of contents of polymer and carbonization technology on the pore structure of CMS was discussed in detail .

O2，N2，CH4在碳分子筛上的扩散系数计算

Diffusion of o_2 , n_2 , ch_4 on carbon molecular sieve

便携式生保系统碳分子筛净化CO2的数值模拟

Numerical Simulation of CO_2 Removal with Carbon Molecular Sieve for Use in Portable Life Support System

高效PLOT碳分子筛石英毛细管柱的研制及其性能研究

Preparation of High Performance Carbon Molecular Sieve PLOT Column and Its Behavior Evaluation

结果表明，碳分子筛可有效地吸附脱除混合气中的CO2。

The result showed that carbon dioxide can be adsorbed and removed from the mixture .

微孔碳分子筛表面含氧基团对H2O2催化分解的动力学影响

Kinetic effect of the surface oxygen groups of microporous carbon molecular sieve on the catalytic decomposition of H_2O_2

不同孔径的介孔碳分子筛对VB（12）的吸附性质研究

Adsorption Behavior of VB_ ( 12 ) on Mesoporous Carbon Molecular Sieves with Different Pore Diameters

碳分子筛吸附分离CH4/N2混合物的研究进展

Research Progresses of Separation of Methane and Nitrogen by Adsorption on Carbon Molecular Sieve

填充碳分子筛的PDMS膜渗透蒸发分离性能研究

Study on pervaporation performance of CMS-filled PDMS membranes

选用碳分子筛作吸附剂，用液相沉淀法涂渍出高效PLOT碳分子筛石英毛细管色谱柱，并对其色谱性能进行了考察。

The High performance porous _ layer open tubular ( PLOT ) column was prepared with carbon molecular sieve adsorbent by means of liquid phase deposition method and its chromatographic behaviors were investigated .

综述了国内外表征碳分子筛（CMS）微结构包括微孔结构、表面形态与形貌的主要方法。

The characterization methods for the microstructure , including micropore structure , surface morphology and topography of carbon molecular sieves ( CMS ), were reviewed in this paper .

采用化学气相沉积法（ChemicalVaporDeposition，简称CVD）实现对微孔结构控制，制备出孔径均一的碳分子筛，微孔率为93%，且对CO2与CH4具有良好的筛分能力。

Chemical vapor deposition ( CVD ) technique of benzene was employed to control the micropore structure . Carbon molecular sieve with uniform micropore structure was obtained , of which the micropore portion was higher than 93 % .

用碳分子筛TDX-01作吸附剂分析测定大气中超痕量的C6-C8苯系物空气总氚采样器的采样效率刻度

Use of carbon molecular sieve as adsorbent for sample collection in the determination of c_6 to c_8-benzenoid hydrocarbons in air calibration for collection efficiency of total airborne tritium sampler

碳分子筛的制法、性质和用途

The Preparation Method , Behaviour and Application of Carbon Molecular Sieve

PSA/N2用碳分子筛性能的测定

Determination of properties of carbon molecular sieves for PSA N 2

碳分子筛多孔层毛细管柱的研制及其应用

Preparation of plot with carbon molecular sieve and its application

碳分子筛分离氧氩过程的实验研究

Experimental study on separation of oxygen and argon by carbon molecular sieves

应用碳分子筛气调机气调贮藏苹果对虎皮病的控制效果

Effect of using carbon molecular sieve nitrogen generator to control apples superficial scald

碳分子筛气调贮藏猕猴桃的研究

Study on the Kiwifruits in CA Storage by Carbon Molecular Sieve Nitrogen Generator

601碳分子筛的研制

Research and Preparation of 601 Carbon Molecular Sieve

碳分子筛变压吸附制氮机在酮苯脱蜡装置中应用的可行性探讨

Advisable discussion on applying pressure swing adsorption nitrogen gas generator in ketone-benzol dewaxing unit

酚醛树脂基碳分子筛的研究

Study on molecular sieves from Phenol-Formaldehyde Resin

用新型碳分子筛分析永久气体

Chromatographic analysis of permanent gases by use of a new type of carbon molecular sieve

碳分子筛膜气体分离机理模拟的研究进展

Development of computer simulation on the mechanism of gas separation through carbon molecular sieve membranes

结果表明：以酚醛树脂为原料，可制得选择吸附系数大，吸附容量大，强度好的优质碳分子筛，其性能已达到或超过日本样品碳分子筛水平。

The results indicated that CMS prepared from phenol formaldehyde resin had good adsorption ability .

碳分子筛制备及其研究Ⅱ、碳化物的孔隙结构特性

Preparation and Study of Carbon Molecular Sieves ⅱ . Tne Pore Structure Characteristic of Carbide

以焦粉为原料制备空分制氮用碳分子筛的研究

Study on the preparation of carbon molecular sieve made with coke fines applied in air-nitrogen

实验研究了流程形式、清洗比、吸附时间对碳分子筛分离氧氩过程性能的影响。

The effects of PSA cycle , rinse-ratio and adsorption duration on the performance of adsorption processes were investigated .

基于碳分子筛动态吸附机理，建立了分离氧氩的实验装置。

The experimental apparatus for the separation of oxygen and argon was established based on the kinetic adsorption of carbon molecular sieves .

600m~3/h制氮设备碳分子筛失效原因及改进措施

Source of failure in connection with CMS used for 600m ~ 3 / h nitrogen plant and measures to be taken for improvement