1) supported liquid membrane
支撑体液膜
2) solid-supporting liquid membrane
固体支撑液膜
1.
The system of solid-supporting liquid membrane was tested in treating the waste water of electroplating and removing cadmium from wet phosphoric acid.
固体支撑液膜在湿法冶金和现代环境保护中应用十分广泛,是工业废水处理的一种有效的新技术,尤其对含有金属盐类的废水的处理有其独特的优势。
3) supported liquid membrane
支撑液膜
1.
On line supported liquid membrane enrichmentflow injection spectrophotometric determination of trace cadmium(Ⅱ) in water;
支撑液膜在线萃取富集-流动注射分光光度法测定水中痕量镉(Ⅱ)
2.
Research progress of stability of supported liquid membranes;
支撑液膜稳定性研究进展
3.
Extraction of the citric acid by supported liquid membrane;
支撑液膜法提取柠檬酸——膜配方的研究
4) supporting liquid membrane
支撑液膜
1.
The citric acid was extracted from citric acid solution by polypropylene supporting liquid membrane, and its mass transfer conditions in the technological process were studied.
用聚丙烯支撑液膜从柠檬酸溶液中提取柠檬酸,通过正交实验考察和分析料液相浓度、反萃取相浓度、搅拌速率、温度等因素的影响,得到最佳传质条件料液相浓度为0。
2.
The transferring behaviour of Cd(Ⅱ)ion through supporting liquid membrane was studied with porous polyproplylene membrane as supporting body and PC-88A/CHCl3 as carries;the effect of carries concentration,pH value,temperature and beginning concentration in feed phase etc.
本文以多孔聚丙烯膜为支撑体,PC-88A/CHCL3为膜载体,研究了重金属离子Cd(Ⅱ)的支撑液膜传输的行为。
5) supported liquid membranes
支撑液膜
1.
Application of ionic liquids in supported liquid membranes;
离子液体在支撑液膜中的应用
2.
Advances in separation mechanism , explanations for instability and methods for stability improvement in supported liquid membranes during the last thirty years were reviewed in this paper, and some researches on flue gas desulfurization(FGD) using this technology were also reported.
支撑液膜技术作为一种高选择性和高渗透性的膜分离技术得到了越来越多的应用。
3.
The losing behavior of liquid in supported liquid membranes(SLMs) was studied by electrochemical impedance spectroscopy(EIS) method in this paper.
采用电化学阻抗法研究支撑液膜膜液的流失行为,并采用等效电路法分析得到的交流阻抗图谱。
6) carbon membrane support
碳膜支撑体
1.
A tube carbon membrane support was prepared by carbonization of apricot shell with additive.
以杏壳为原料,通过碳化法制备了碳膜支撑体,利用泡压法表征了支撑体的孔径分布。
补充资料:多孔陶瓷支撑体膜
分子式:
CAS号:
性质:在多孔陶瓷体上附着的微孔陶瓷膜层。膜层厚度一般在几微米到几十微米,外径孔径一般为0.1~0.5μm,个别也有厚度达3~5μm、孔径10μm的。多采用氧化铝、二氧化钛和二氧化锆等作膜材料。制法是:用电机带动陶瓷支撑体旋转,当溶胶液(膜材料)滴落在支撑体上,就会迅速地敷覆到支撑体表面,待溶剂蒸发、凝胶化和干燥成膜后,经热处理而制成氧化物薄膜。现已为食品(含饮料)、医药、生物技术和环境保护等领域开发利用。
CAS号:
性质:在多孔陶瓷体上附着的微孔陶瓷膜层。膜层厚度一般在几微米到几十微米,外径孔径一般为0.1~0.5μm,个别也有厚度达3~5μm、孔径10μm的。多采用氧化铝、二氧化钛和二氧化锆等作膜材料。制法是:用电机带动陶瓷支撑体旋转,当溶胶液(膜材料)滴落在支撑体上,就会迅速地敷覆到支撑体表面,待溶剂蒸发、凝胶化和干燥成膜后,经热处理而制成氧化物薄膜。现已为食品(含饮料)、医药、生物技术和环境保护等领域开发利用。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条