2) pore fluid pressure
孔隙流体压力
1.
In this paper the authors discuss the relationship between the pore fluid pressure and the fluid expulsion under the compaction, and suggests that the abnormal pore fluid pressure results from the increase of the capilary force due to the change of permeability and that a dynimic balance is maintained between them during the pregnancy of the fluid pressure.
本文讨论了在压实作用下孔隙流体压力的形成以及与流体排驱的关系,指出异常孔隙流体压力是因岩石渗透率变化引起毛细管力增加而产生的,且二者之间在流体压力孕育过程中一直维持一个动态平衡状态。
3) high pore fluid pressure
高孔隙流体压力
1.
It is a quite universal phenomenon that abnormal high pore fluid pressure (overpressure) occurs in oil gas-bearing basins, overpressure is one of the major earth kinetic reasons of the reservoir formation which is a kind of highly complicated self-organizing phenomenon.
含油气盆地中发现异常高孔隙流体压力(超压)是一个相当普遍的现象,它可能是油气藏形成即一种高度复杂的自组织现象的主要地球动力学原因之一。
4) pore fluid
孔隙流体
1.
Computation of seismic properties of pore fluid.;
孔隙流体地震特性的计算
2.
An uniform mechanism of natural hazards in geotechnical engineering involving pore fluid is put forward.
涉及流体的岩土工程自然灾害统一机制的过程可以分为 4个阶段 :(1)在孔隙流体存在的条件下岩土材料分叉 ,应变局部化启动 ;(2 )应变局部化导致岩土材料剪胀或剪缩 ;(3)剪胀或剪缩引起孔隙流体的流向应变局部化区或流出应变局部化区的渗流运动 ;(4 )在流体作用下岩土结构失稳。
3.
Based on analysis of effects of temperature and pressure on seismic properties of pore fluid and porosity and velocity of sandstone.
在分析储层温压变化对孔隙流体地震特性、岩石孔隙度和速度等影响的基础上 ,以油藏注水地震监测为例说明了油藏地震监测中考虑温压变化的重要性 。
5) excess pore pressure
超孔隙压力
1.
A quantitative evaluation for excess pore pressure and wellbore stress around a cased well under steam injection;
热采过程中地层超孔隙压力与井眼应力的定量评价
6) exceed pore pressure
超过孔隙压
补充资料:冲击波超压与动压