本文概述了矿物在超临界溶液中的溶解度理论计算。
This paper summarizes the theoretical calculations of mineral solubilities in supercritical aqueous solution.
超临界溶液快速膨胀技术是一种新兴的超细粒子包覆技术。
The rapid expansion of supercritical solution (RESS) process for particle encapsulation is a recently developed technology.
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。
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.
快速膨胀超临界流体溶液(RESS)过程和以超临界流体为稀释膨胀剂(GAS)过程是制备微细颗粒的新技术。
The rapid expansion of supercritical solution (RESS) and the gas anti-solvent (gas) precipitation are the new and promising methods of microparticle formation.
分别介绍了熔融接枝、溶液接枝、固相接枝、紫外光辐射接枝、等离子体接枝、超临界二氧化碳接枝的工艺及设备的开发情况。
The processes and equipments of melt graft, solvent graft, solid phase graft, UV radiate graft, supercritical CO_2 graft and solid-phase mechanochemistry graft were introduced.
分别介绍了熔融接枝、溶液接枝、固相接枝、紫外光辐射接枝、等离子体接枝、超临界二氧化碳接枝的工艺及设备的开发情况。
The processes and equipments of melt graft, solvent graft, solid phase graft, UV radiate graft, supercritical CO_2 graft and solid-phase mechanochemistry graft were introduced.
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