1) large-cavity strata
大孔隙地层
2) porous formation
孔隙地层
1.
Based on the generalized Biot's theory in anisotropic porous formation and Kuijian's theory of multipole acoustic logging, full waveform acoustic logging in transversely isotropic porous formation is discussed.
基于多孔介质中的广义Biot波动理论和Kuijian等人的多极子声波理论,讨论横向各向同性孔隙地层的声波全波测井问题。
5) Transversely isotropic porous formation
TI孔隙地层
6) formation pore pressure
地层孔隙压力
1.
Study on predicting method of formation pore pressure for car-bonate rock;
碳酸盐岩地层孔隙压力预测方法研究
2.
An approach to determining pre-drilling formation pore pressure with credibility for deep water exploration wells
深水探井钻前含可信度的地层孔隙压力确立方法
3.
When well kicks during drilling, it is a common practice to shut in the well, calculate the formation pore pressure , and determine the proper kill fluid density.
在钻井作业中发生溢流时,一般是通过关井求得地层孔隙压力,从而确定合理的压井钻井液密度,这种传统的方法对高渗透储层是可靠的,然而对于低渗透储层要获得准确的结果需要等待较长的时间,这样会影响压井作业时间。
补充资料:催化剂孔隙度(degree of catalyst pole)
分子式:
CAS号:
性质:又称催化剂孔隙度(degree of catalyst pole)。多孔性催化剂颗粒内微孔的总体积,单位是ml/g。其大小由催化剂制备条件决定。
CAS号:
性质:又称催化剂孔隙度(degree of catalyst pole)。多孔性催化剂颗粒内微孔的总体积,单位是ml/g。其大小由催化剂制备条件决定。
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