The method and application of numerical simulation of high-precision stress field and quantitative prediction of multiperiod fracture in carbonate reservoir

IF 2.7 3区 地球科学 Q2 GEOCHEMISTRY & GEOPHYSICS
Pengyuan Han , Wenlong Ding , Hailong Ma , Debin Yang , Jing Lv , Yuntao Li , Tianshun Liu
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Abstract

Structural fractures in carbonate reservoirs contribute prominently to hydrocarbon migration and accumulation. In this paper, the accuracy of structural fracture prediction is improved by two aspects of numerical simulation of traditional tectonic stress field and fracture distribution prediction methods in carbonate reservoirs. (1) The grid generation of finite element models for geological models is prioritized. Next, uniaxial and triaxial compression tests, well logging data, and 3D seismic data volume inversion are used to create a 3D volume of heterogeneous rock mechanics data that accurately reflects the geological body. Then, using the data, attribute assignments are made in the finite element model to create the three-dimensional heterogeneous rock mechanics model. This enhancement significantly diminishes the error induced by attributing rock mechanics parameters to individuals. (2) The size and orientation of in-situ stress are measured using acoustic emission, paleomagnetic, and wave velocity anisotropy tests in combination with imaging logging data. By introducing an adaptive boundary condition method to precisely calculate the in-situ stress magnitude at the applied boundary, we simulate the paleo- and current tectonic stress fields within the study area. The fracture rates for tension and shearing are calculated using the Griffith and Coulomb-Mohr fracture criteria. Based on the statistical results of characteristic fracture parameters at the core and imaging logging scales in the study area, the proportion of tensile and shear fractures is determined, and then the comprehensive fracture coefficient of carbonate reservoirs is calculated. A model for quantitatively predicting the multiperiod linear density of fractures suitable for carbonate reservoirs is developed following a thorough analysis of the various effects of multiperiod tectonic stress on the formation and alteration of reservoir fractures. The utilization of this technique in quantitatively forecasting the linear density of multiperiod fractures in carbonate reservoirs in the Tahe Oilfield, Tarim Basin, exhibits favorable feasibility.

Abstract Image

碳酸盐岩储层高精度应力场数值模拟与多周期裂缝定量预测方法及应用
碳酸盐岩储层中的构造裂缝对碳氢化合物的迁移和积累具有重要作用。本文通过对碳酸盐岩储层传统构造应力场和裂缝分布预测方法进行数值模拟,从两个方面提高构造裂缝预测的准确性。(1) 优先考虑地质模型有限元模型的网格生成。其次,利用单轴和三轴压缩试验、测井数据和三维地震数据卷反演,建立能准确反映地质体的三维异质岩石力学数据卷。然后,利用这些数据在有限元模型中进行属性分配,创建三维异质岩石力学模型。这种改进大大减少了将岩石力学参数归属于个体所引起的误差。(2) 结合成像测井数据,利用声发射、古地磁和波速各向异性测试测量原位应力的大小和方向。通过引入自适应边界条件法精确计算应用边界的原位应力大小,我们模拟了研究区域内的古构造应力场和当前构造应力场。利用格里菲斯和库仑-莫尔断裂标准计算了拉伸和剪切的断裂率。根据研究区岩心和成像测井尺度的特征断裂参数统计结果,确定拉伸和剪切断裂的比例,进而计算碳酸盐岩储层的综合断裂系数。在全面分析多期构造应力对储层裂缝形成和蚀变的各种影响后,建立了适合碳酸盐岩储层的裂缝多期线性密度定量预测模型。利用该技术定量预测塔里木盆地塔河油田碳酸盐岩储层多周期裂缝线性密度具有良好的可行性。
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来源期刊
Tectonophysics
Tectonophysics 地学-地球化学与地球物理
CiteScore
4.90
自引率
6.90%
发文量
300
审稿时长
6 months
期刊介绍: The prime focus of Tectonophysics will be high-impact original research and reviews in the fields of kinematics, structure, composition, and dynamics of the solid arth at all scales. Tectonophysics particularly encourages submission of papers based on the integration of a multitude of geophysical, geological, geochemical, geodynamic, and geotectonic methods
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