When membrane pore size was decreased of 7%, the water flux of modified micro-membrane increased significantly, reaching the largest value of 151.8%.
在微滤膜孔径减小7%的情况下,改性后的微滤膜水通量有显著的提高,最大提高幅度为151.8%。
Effects of the membrane pore size, membrane thickness, transmembrane pressure and emulsion composition on demulsification performance were investigated.
为此研究了膜孔径、膜厚度、透膜压力和乳化液组成对破乳效果的影响。
The fouling can be diminished by controlling membrane pore size, module structure, flow speed and the temperature of feed solution as well as the pressure.
通过膜孔径、膜材料、膜结构、组件结构、料液温度、流速和压力的控制可以减轻或控制污染。
The results showed that the grafting yield heavily affected water flux, responsiveness coefficient and thermo-responsive gating factor of membrane pore size.
结果表明,开关膜的接枝率对膜的过滤通量、温度感应开关系数和膜孔径感温变化倍数都有十分重要的影响。
Membrane pore size in a few nanometers to tens of nanometer range, the main material used for separation of colloidal and molecular weight of more than 500 molecules.
超滤膜的孔径在数个纳米到数十个纳米的范围内,主要被用于分离胶体物质和分子量大于500的大分子。
It was found that the membrane pore size and transmembrane pressure affect demulsification performance remarkably while other factors have slight or almost no effect.
结果表明,膜孔径和透膜压力明显影响破乳效果,而其它条件对破乳效果几乎没有影响。
Fabricating the nanoporous silicon membrane with nanotechnology and Bio-MEMS technology, the thickness of membrane, pore size and distribution, geometry shape and porosity can precisely controlled.
采用纳米技术和生物微电子机械系统技术制备纳米多孔硅膜,可准确控制膜的厚度、几何形状、孔大小、孔分布和孔隙率。
The effect of coal particle sizes on pore structure of coal-based carbon membrane was studied by measuring the pore size distribution and SEM of carbon membrane.
通过炭膜的孔径分布及SEM结果分析,研究探讨了原料煤的颗粒度对煤基炭膜孔结构性能的影响。
RESULTS: the pore size and materials of membrane affected the total filtration resistance and its distribution in clarification.
结果:膜孔径和膜材料对过滤阻力及其分布有影响。
The effects of preparation conditions such as alkalinity, crystallizing temperature, pretreated method and pore size of the support membrane, on zeolite membrane were also investigated.
最后考察了不同的合成条件包括碱度、晶化温度、多孔载体膜的孔径大小及其予处理方法对分子筛膜的影响。
The influence of pore size distribution on mass transfer in direct contact membrane distillation (DCMD) was investigated.
文中考察孔径分布的存在对直接接触式膜蒸馏跨膜传质速率的影响。
Additionally, small Angle Xray scattering (SAXS) method was used to measure the pore size distribution and average pore size of the PES membrane.
用小角X射线散射法测定PES超滤膜的孔径分布及其平均孔径。
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.
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。
Rising temperature of casting solution will increase the water flux, porosity and average pore size of PVDF membrane.
制膜液温度升高,得到微孔膜的孔隙率、通量及平均孔径都增大。
The pore size and the pore size distribution of CA and PAN UF membrane were determined by liquid-liquid displacement method.
利用液-液置换法测定了醋酸纤维ca超滤膜及聚丙烯腈pan超滤膜的孔径及孔径分布。
It was shown that average pore size of membrane, which determined the mechanisms of mass transfer through the membrane, was the substantial factor of the membrane separation characteristics.
可以看出,决定透过膜传质机理的平均孔径,是膜分离特性的决定性影响因素。
The influence of the pore size of the carbon membrane were discussed when the different binder were add to coal.
重点考察了两种粘结剂对煤基炭膜的孔径分布的影响。
The small pore size PVDF UF membrane with high Flux was studied in this paper.
本文主要研究了高通量小孔径PVDF超滤膜。
Porous anodic alumina membrane is an ideal template for highly ordered nanomaterials because of its low cost, high temperature resistance, uniform pore arrays and controllable pores size.
多孔阳极氧化铝具有耐高温、成本低、空洞分布均匀有序且大小可控等优点,是制备高度有序纳米材料的理想模板。
Porous anodic alumina membrane is an ideal template for highly ordered nanomaterials because of its low cost, high temperature resistance, uniform pore arrays and controllable pores size.
多孔阳极氧化铝具有耐高温、成本低、空洞分布均匀有序且大小可控等优点,是制备高度有序纳米材料的理想模板。
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