The article deals with principle, solvents and entrainers of supercritical fluids extraction.
本文介绍了超临界萃取的原理,溶媒及挟带剂。
The extraction mechanism of ultrasound-enhanced supercritical fluids was studied theoretically and experimentally.
从实验和理论上对超声强化超临界流体萃取的机理进行了研究。
In this paper, the progress on the techniques of micronizing drug particles with supercritical fluids was revie...
本文对超临界流体药物微粒化技术的研究进行了综述。
The program can be used to provide the basic data for the development and design of the supercritical fluids process.
该程序可以为超临界流体过程开发和设计提供基础数据。
Additionally, the experimental data on diffusion coefficients of liquids and supercritical fluids is scarce relatively.
除此之外,液体和超临界流体扩散系数的实验数据还比较缺乏。
Solubility of solids in supercritical fluids with or without cosolvent was studied by a chemical association reaction method.
用化学缔合方法对固体物质在超临界流体中的溶解度进行了研究,考虑到了含和不含夹带剂两种情况。
Supercritical Anti-Solvent (SAS) process has been proposed recently to prepare micro-and nano-particles by supercritical fluids.
超临界反溶剂过程是近年来提出的一种利用超临界流体制备超细粉体的新工艺。
This paper introduced the physical and chemical characteristics of supercritical fluids including relative density, viscosity and …
介绍了超临界流体的密度、粘度、扩散系数等物理化学性质及其对化学反应的影响。
Besides, some typical reactions concerning the application of supercritical fluids in catalytic reactions in recent years are also introduced.
本文还介绍了近年来超临界流体在催化反应中应用的典型反应。
This paper introduced the characteristics of the Supercritical Fluids Property Database, as well as its structure, function and the query method.
介绍“超临界流体物性数据库”的特点、结构功能及查询方法的建立过程。
The concept and merits of micro-cellular and Supercritical fluids were discussed. the development status and application of Supercritical fluids were dissertated.
介绍了超临界流体技术和微孔聚合物的概念及优点。
Excellent solubility and mass transfer of supercritical fluids improve greatly molecular fluidity, and enhance hydrogen transfer and engaging in free radical reaction.
自由基重组、自由基歧化。超临界流体优异的溶解能力和传质性能,增强了分子的流动性,提高了氢原子自由转移并参加自由基反应的能力。
As a recently developed separation technology, the unique advantage of supercritical fluids extraction was discussed systematically, comparing with the traditional separation methods.
本文论述了超临界流体萃取作为一种新兴的分离技术,与传统的水蒸气蒸馏法和溶剂浸提法相比较,所具有的独特的优势。
Compressed or supercritical fluids are excellent extraction solvents. They have got wide applications in food processing and storage, medicine making, as well as biomaterials processing.
压缩或超临界流体作为良好的萃取溶剂,在食品加工与保藏、制药和生物材料加工等领域有广阔的应用前景。
An expanded liquid model (ELM) for solid solute solubility in supercritical fluids was proposed based on the assumption that the supercritical fluid was considered as an expanded liquid.
将超临界流体视为膨胀液体,根据溶液理论,建立了计算溶质在超临界流体中溶解度的膨胀液体模型。
The process, principle and characteristics of preparing organic membrane by supercritical fluids inducing phase separation are described and compared with the traditional wet phase inversion process.
介绍了超临界流体诱导相分离过程制备有机膜的工艺流程、原理及特点,并与传统的沉浸凝胶相转化制膜方法进行了比较。
The process, principle and characteristics of preparing organic membrane by supercritical fluids inducing phase separation are described and compared with the traditional wet phase inversion process.
介绍了超临界流体诱导相分离过程制备有机膜的工艺流程、原理及特点,并与传统的沉浸凝胶相转化制膜方法进行了比较。
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