1) side-bed resistivity
围岩电阻率
2) shale resistivity
泥岩电阻率
1.
This paper considers the formation causes of calcareous interbeds, shale resistivity differences and the relation of reservoir resistivity to altitude, on the basis of log curve morphological characteristics, core observation, founding slice, X-diffraction a.
通过测井曲线形态特征、岩心观察、铸体薄片、X衍射、扫描电镜分析、FMI测井资料,对工区内钙质夹层成因、泥岩电阻率差异、储层电阻率和海拔深度关系进行了研究。
3) rock resistivity
岩石电阻率
1.
Frequency dispersion of rock resistivity and its influence 0n Archie parameters;
岩石电阻率频散及其对阿尔奇参数影响实验研究
2.
This paper uses an advanced rock resistivity test technique simulating reservoir environment and pressure maintaining sealed coring technique to obtain reservoir characteristic core maintaining original formation saturation status.
应用先进的模拟储层条件下岩石电阻率测试技术 ,利用保压密闭取心技术取得具有保持原始地层饱和状态的储层特征岩心 ,在储层环境下系统地研究了岩石电阻率与温度、压力、饱和度等参数之间的变化规律 ,同时对饱和原油及饱和水样品进行对比分析 ,从理论上探讨了不同流体饱和介质在岩石电阻率测试中所产生的影响。
4) core resistivity
岩心电阻率
1.
Experimental study of the impact of fluid flow on low permeability core resistivity
流体流动对低渗岩心电阻率的影响实验研究
5) lithological-electrical parameters
岩石电阻率参数
6) rock resistivity measurement
岩石电阻率测量
补充资料:围岩
见矿体。
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