高度层状地层的高分辨率机械地球模型。以厘米尺度测量弹性特性

H. Pourpak, A. Padin
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引用次数: 0

摘要

在这项工作中,我们从概念上证明了一种岩心到测井的方法,该方法为基于测井的弹性提供了一种快速校准方法。在毫米尺度下,我们测量了与超声表面波速度(P和S)的动态测量平行的回弹硬度,然后通过在桥塞上进行的离散三轴测试校准结果,代表所有相关的岩性相,最后将结果与基于测井的参数进行比较。我们的工作表明,这种集成有助于在整个岩心长度中建立稳健的岩心-拓扑弹性关系,最终为更好的刚度模型预测提供适当的基础,而成本和时间仅为传统岩心采集计划的一小部分。我们已经证明,在岩心尺度上校准的高分辨率测量可用于创建准确的动态与静态相关性,识别和表征裂缝生长的潜在障碍,以及在没有岩心数据的情况下,表征岩性相,以预测新井的弹性特性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
High-resolution Mechanical Earth Models in Highly Laminated Formations. Measuring Elastic Properties at the Centimetric Scale
Summary In this work, we concept-proved a core-to-log methodology that provides a fast calibration method for log-based elasticity. We measured rebound hardness in parallel to dynamic measurements of ultrasonic surface wave velocities (P and S) at the milimetric scale, then calibrated the results with discrete triaxial tests performed on plugs, representing all relevant lithological facies, and finally compared the results against log-based parameters. Our work shows that such integration helps at developing robust core-tolog elasticity relationships in the entire core length, eventually providing a proper foundation for better stiffness model prediction, at a fraction of the cost and time of traditional core acquisition programs. We have shown that calibrated high-resolution measurements at the core scale may be used to create accurate dynamic to static correlations, to identify and characterize potential barriers to fracture growth, and to characterize lithological facies for predicting their elastic properties at new wells when core data is not available.
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