1) spontaneous emulsification
自发乳化
1.
It is much higher than those of alkali flooding,surfactant flooding and polymer flooding the experiment shows that spontaneous emulsification flooding has good flooding ability.
研究了模拟油在岩心中的自发乳化驱油效果及提高采收率机理。
2.
The spontaneous emulsification is alsopresented.
还对自发乳化作用作了介绍。
3.
Visual microscopic model system was used for oil displacement, the microscopic mechanism of spontaneous emulsification flooding was studied on the basis of analyzing the video of flooding prismatic residual oil, island residual oil, residual oil film and residual oil in dead-end after water flooding.
利用可视化的微观光刻模型,通过显微观察和录像手段,直接观测了自发乳化驱油方法驱替水驱后的柱状残余油、岛状残余油、膜状残余油和盲端残余油时发生的现象,详细研究了自发乳化驱油方法提高原油采收率的微观机理,即:减小毛管力、界面扰动"拉油"、弹性变形"挤油"、降低界面张力和乳化液滴通过堵塞孔喉提高波及系数等,进一步完善了自发乳化驱油方法理论体系。
2) Autonomous endosperm
自发胚乳
3) modified-SESD
改良自乳化溶剂挥发法
1.
【Methods】 TFO-NPs were prepared by modified spontaneous emulsion solvent diffusion method (modified-SESD).
【方法】采用改良自乳化溶剂挥发法(modified-SESD)制备TFO-NPs,对其形态、包封率、载药量及体外释放特点进行鉴定。
4) Self-Emulsification/Solvent Evaporation Method
自乳化溶剂蒸发法
5) self-emulsifying microemulsion
自乳化微乳
1.
OBJECTIVE To prepare 9-nitrocamptothecin self-emulsifying microemulsion and investigate the protection effect of self-emulsifying microemulsion on 9-NC lactone form in vitro and in vivo.
目的制备9-硝基喜树碱(9-nitrocamptothecin,9-NC)自乳化微乳(自微乳),并考察其对9-NC内酯型的体内外保护效应。
6) self-emulsification
自乳化
1.
The Experiment Research on the Formulation of Self-emulsification Flooding System;
自乳化体系驱油配方研究
2.
The anionic waterborne polyurethane was synthesized by the reaction of toluene diisocyanate(TDI) with polyester glycol and dimethylolpropionic acid(DMPA) with the process of prepolymerization step by step and self-emulsification.
采用甲苯二异氰酸酯(TDI)、聚酯多元醇和二羟甲基丙酸(DMPA)为主要原料,经分步预聚后在水中自乳化合成了阴离子型水性聚氨酯胶粘剂。
3.
Water-borne polyurethane (WBPU) of self-emulsification was synthesized by diisocyanate, polyether, and dimethylol propionic acid (DMPA).
以二异氰酸酯、聚醚二元醇和二羟甲基丙酸(DMPA)合成了自乳化型水性聚氨酯(WBPU),利用其在乳化过程中一些物化性质———电导率和粘度的改变,研究了它的相转变过程,并建立了三阶段结构模型(TSSM),对相转变过程进行模拟。
补充资料:非自发性催化剂
分子式:
CAS号:
性质: 在环境温度下不能使肼单组元推进剂自动分解的催化剂。将活性金属铁、钻、镍、铬和铜的氧化物或它们的混合物涂渍在氧化铝、活性炭、二氧化硅或二氧化钛等载体上,并经特殊处理而制得。一般与自发性铱催化剂等组合用于单组元推进剂肼的催化分解。
CAS号:
性质: 在环境温度下不能使肼单组元推进剂自动分解的催化剂。将活性金属铁、钻、镍、铬和铜的氧化物或它们的混合物涂渍在氧化铝、活性炭、二氧化硅或二氧化钛等载体上,并经特殊处理而制得。一般与自发性铱催化剂等组合用于单组元推进剂肼的催化分解。
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