1) breakthrough capillary pressure
突破时毛细管压力
2) capillary pressure
毛细管压力
1.
Relationship between NMR T_2 cutoff and capillary pressure.;
核磁共振T_2截止值与毛细管压力的关系
2.
Relationship among capillary pressure,saturation and phases interfacial area;
毛细管压力、饱和度和相界面积间的关系
3.
It is more useful to utilize the fractal dimension as a bridge to implement the transformation between capillary pressure .
把分维值作为桥梁,实现了毛细管压力曲线和相渗曲线之间的相互转化,这比传统的只能利用毛细管压力曲线求相对渗透率曲线的手段更有优势,从而说明分形理论有可能成为研究岩心孔隙结构的重要手段。
3) capillary compression tube
毛细压力管
4) dynamic capillary pressure
动力毛细管压力
5) breakthrough pressure
突破压力
1.
Determination of the plugging position of water shutoff agent by breakthrough pressure method.;
用突破压力法确定堵剂在油藏中的封堵位置
2.
Exploration practices in the Jiyang Depression of the Bohai Bay Basin have indicated that,under the same dynamic condition of oil and gas pool forming,resistivity(breakthrough pressure) of entrance and exit interface is different,so fluid enters reservoir and pore respectively.
渤海湾盆地济阳坳陷的勘探实践表明,同一成藏动力条件下,油气充注成藏过程中油气等流体突破储层进/出口界面的抵抗力(突破压力)存在差异,导致选择性地进入储集体和孔隙。
3.
8% after the water of 50 PV is injected;The breakthrough pressure gradient is not lower t.
8%,突破压力梯度一般不低于3。
6) capillary pressure curve
毛细管压力曲线
1.
Based on the results of mecury injection and gas absorption analytical methods of caprock,the complete pore diameter distribution diagram of caprock and the capillary pressure curve can be obtained.
将压汞法和气体吸附法2种测定结果换算相衔接可得到完整的盖层全孔隙结构孔径分布图及其毛细管压力曲线,结合全驱岩样饱和水模拟实验即可直接测定岩样突破压力。
2.
Based on secondary migration mechanism of hydrocarbon compound and gas reservoir s initial gas-water distribution controlled by capillary resistance of buoyancy and rock in the static water condi- tions, it is described that the gas saturation determined by capillary pressure curve is close to the gas saturation of gas reservoir in this paper.
本文根据烃类二次运移机理、静水条件下气藏的原始气水分布受控于浮力和岩石的毛细管阻力等,用毛细管压力曲线确定气藏含气饱和度,使之更接近于气藏的原始含气饱和度。
3.
Calculated fake capillary pressure curve almost accords with the result measured by intrusive mercury curve in lab.
通过大量的实验室核磁共振T2谱和压汞曲线的对比分析,提出了利用二维分段等面积法计算T2谱与压汞曲线之间刻度转换系数横向刻度系数,以及大、小孔径的纵向刻度系数,使计算得到的伪毛细管压力曲线与实验室压汞测量的毛细管压力曲线的一致性得以大大提高。
补充资料:硫化压力
分子式:
CAS号:
性质:橡胶制品硫化时须施加压力,其作用是提高胶料的致密性,避免硫化时产生气孔,可使胶料易于流动而充满模型,提高胶料与纤维材料的密着力,并提高硫化胶的物理性能。硫化加压的方法有四种:一是以液压泵或水压机对硫化机加压,使压力通过硫化模型传递给胶料;二是用蒸汽或压缩空气向硫化罐内的产品加压;三是用注压机对模型内的胶料加压;四是用热辊筒或胶囊对产品加压。根据制品不同采用的加压方式或压力不同。
CAS号:
性质:橡胶制品硫化时须施加压力,其作用是提高胶料的致密性,避免硫化时产生气孔,可使胶料易于流动而充满模型,提高胶料与纤维材料的密着力,并提高硫化胶的物理性能。硫化加压的方法有四种:一是以液压泵或水压机对硫化机加压,使压力通过硫化模型传递给胶料;二是用蒸汽或压缩空气向硫化罐内的产品加压;三是用注压机对模型内的胶料加压;四是用热辊筒或胶囊对产品加压。根据制品不同采用的加压方式或压力不同。
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