根据毛细管压力理论,分析了具有复杂孔隙结构的非均质储层油气聚集和分布规律。
Based on capillary pressure theory, the accumulation and distribution of hydrocarbon in inhomogeneous sandstone reservoir with complicated pore structures were analyzed.
近年来填充床反应器CFD数学模型韵几个研究重点是动量交换系数、毛细管压力以及床层空隙率的非均匀分布性。
Several of the focuses of CFD model in packed-bed reactors were studied, namely, the momentum exchange coefficient, the capillary pressure and the void fraction.
在古流体势模拟计算过程中,考虑到储层毛细管力和断层连通性的影响。
The capillary pressure of reservoir bed and the conductive efficiency of fault are considered in the analogue calculation.
在运载层中推动油气运动的作用力主要是浮力和毛细管力,而盖层则起着毛细管阻力作用。
In delivery layers, the efforts driving hydrocarbon are mainly buoyancy and capillary force, and caprock plays an role of capillary resistance.
该区储层具有较低的排驱压力和毛细管压力中值,微观孔隙结构发育良好,属于中-粗孔喉。
The reservoir also features in low displacement pressure, low median capillary pressure, well-developed microscopic pore structure, and medium-to-large pore throat.
渗层的形成主要是依靠渗剂颗粒之间毛细管的毛细吸附作用,加上基体金属液和渗剂元素之间的互扩散作用。
The form of composite layer depends on capillary among the infiltrate grain and pervasion between liquid metal and infiltrate element.
通过改装毛细管流变仪建立了专门的实验装置,研究高温高压下熔体在纤维床层中的流动行为。
A special apparatus was constructed by modifying capillary rheometer to study polymer melt flow behavior through fiber beds.
基质渗透率的降低、润湿性的改变以及毛细管压力的增大是储层驱油效率降低的主要因素。
Decrease of the oil displacement efficiency of the damaged reservoirs is mainly resulted from the reduction of matrix permeability, change of wettability and increase of capillary pressure.
基质渗透率的降低、润湿性的改变以及毛细管压力的增大是储层驱油效率降低的主要因素。
Decrease of the oil displacement efficiency of the damaged reservoirs is mainly resulted from the reduction of matrix permeability, change of wettability and increase of capillary pressure.
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