使用高压半渗透隔板法测得的毛细管压力数据在实验室内可以系统地评价地层伤害的程度。
This paper presents a method for evaluating formation damage by the use of capillary pressure data in laboratory obtained with the high pressure semipermeable-membrane.
应用砂岩的毛细管压力曲线(压汞法)资料定量研究砂岩孔隙空间结构特征参数,以便更好地进行砂岩评价。
Sandstone evaluation can be better carried on, using sandstone capillary pressure curve(pressuring mercury way) data to quantitatively study sandstone pore structure characteristic parameters.
通过压汞法毛细管压力曲线和铸体图象分析方法分析孔隙、喉道大小、分布及其几何形状,建立孔隙结构模型。
With mercury injection capillary curve and thin section, hole porosity and throats with their shapes and distributions are studied and porosity structure model is set up.
毛细管破碎法微球制备装置的关键技术为压力控制技术、振动破碎装置选择以及二者的匹配。
The sticking point of installations based on CVM is the pressure control system, vibration & dispersing system and the matching of the two systems.
毛细管破碎法微球制备装置的关键技术为压力控制技术、振动破碎装置选择以及二者的匹配。
The sticking point of installations based on CVM is the pressure control system, vibration & dispersing system and the matching of the two systems.
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