The different development feature of various tight reservoir are owing to the complexity of petrophysics and pore structure.
不同低渗透油藏的开发特征表现出的差异与岩石物性、孔隙结构复杂有密切相关。
Introduced are the ideas, purpose, model analysis methods and establishment patterns for the creation of petrophysics experiments data managing system.
介绍了岩石物理实验数据库管理系统的构思、建立目的、模型分析、构建方式及在岩石物理实验方面的应用。
The basic content of seismic reservoir prediction covers a large prediction range from petrofacies, lithology, petrophysics, to oil and gas distribution.
地震储集层预测的基本内容可以归结为岩相预测、岩性预测、物性预测及含油气性预测。
Introduced are the principle, methods of low field nuclear magnetic resonance (NMR) imaging technology and it's application in rock petrophysics experiment.
主要介绍了低场核磁共振成像技术的原理、方法及在岩石物理实验方面的应用。
To study reservoir petrophysics by using seismic data does not only require the improvement of resolution, but also the improvement of fidelity of seismic data.
利用地震资料研究储层物性不但要求提高分辩率,还要提高讯号的保真度。
The other is to make quantitive description of reservoir and recognition of reservoir fluids by using the series of seismic and its combination with petrophysics.
利用开发地震技术系列,与岩石物理相结合,实现对储集层的定量描述及对储集层内流体的识别。
Iterative forward modeling allows the log analyst to use local knowledge and petrophysics to select between the many possible solutions that are mathematically correct.
迭代循环模拟允许测井分析家使用经验值和岩石物理知识从众多的数学上正确的解决方案中选择正确的校正方法。
The petrophysics is essentially basic information for connecting geologic and geophysics in the geophysics research field. The petrophysics is also the foundation of building geophysical models.
岩石物性是地球物理研究必需的重要基础资料,是联系地质与地球物理的纽带与桥梁,是地球科学研究建立地质地球物理模型的基础。
The petrophysics is essentially basic information for connecting geologic and geophysics in the geophysics research field. The petrophysics is also the foundation of building geophysical models.
岩石物性是地球物理研究必需的重要基础资料,是联系地质与地球物理的纽带与桥梁,是地球科学研究建立地质地球物理模型的基础。
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