基于微地震焦点机制和断裂网络的走向、倾角和倾斜数据的应力反演方法与应用

IF 0.7 4区 地球科学 Q4 GEOCHEMISTRY & GEOPHYSICS
Chao Xu, Ruizhao Yang, Zhengguang Zhao, Bin Guan, Lin Yang, Le He
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引用次数: 0

摘要

水平井水力压裂是非常规致密油气藏的一项关键激励技术。充分了解水平井的近井应力场有助于优化新井的水力压裂设计和压裂井的再压裂设计。根据水力压裂引发的微地震事件的焦点机制或水力压裂网络的压裂属性得出的方位角和倾角数据可用于新井应力场反演。在这项工作中,我们提出了一种新的应力反演方法,该方法综合了来自水力压裂诱发微地震事件的焦点机制和水力压裂网络的压裂属性的方位角、倾角和斜角数据。对于有足够可靠的微震焦点机制的阶段,将微震焦点机制得出的走向、倾角和斜角数据作为应力反演的输入数据。同时,对于那些没有微地震事件或可靠的微地震聚焦机制不充分的阶段,应力反演将使用从预建水力压裂网络的断裂属性中获得的方位角和倾角数据,以及从具有充分可靠的微地震聚焦机制的其他阶段获得的方位角、倾角和斜角数据。因此,无论是否有水力诱发的微震事件,都可以反演每个阶段的近井应力场。新方法已应用于水力压裂激励过程中的油田地表微地震数据集。结果显示,反演的近井应力场与声波测井的剪切波分裂分析得出的应力方向一致。这一结果表明,基于微地震焦点机制和裂缝网络得出的走向、倾角和斜角数据的应力反演方法可以正确获得最大和最小水平应力的方位角。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Method and Application of Stress Inversion based on Strike, Dip, and Rake Data from Microseismic Focal Mechanisms and Fracture Network

The hydraulic fracturing of horizontal wells is a key stimulation technology for unconventional tight oil/gas reservoirs. Good knowledge of the near-well stress field of a horizontal well can be helpful for the hydraulic fracture design optimization of new wells and refrac design optimization of fractured wells. Azimuth and dip data derived from either focal mechanisms of hydraulic fracturing-induced microseismic events or fracture attributes of hydraulic fracture networks can be used for new-well stress field inversion. In this work, we present a novel stress inversion method integrating azimuth, dip, and rake data from the focal mechanisms of hydraulically induced microseismic events and fracture attributes of hydraulic fracture networks. For those stages having sufficient reliable microseismic focal mechanisms, strike, dip, and rake data derived from microseismic focal mechanisms are taken as input data for stress inversion. Meanwhile, for those stages that have no microseismic events or insufficient reliable microseismic focal mechanisms, azimuth and dip data derived from fracture attributes of prebuilt hydraulic fracture network are used for stress inversion, along with azimuth, dip, and rake data derived from other stages with sufficient reliable microseismic focal mechanisms. Thus, the near-well stress field of each stage can be inverted, regardless of whether or not it has hydraulically induced microseismic events. The new method has been applied in the field surface microseismic dataset during hydraulic fracture stimulation. The results reveal that the inverted near-well stress fields are consistent with the stress orientation derived from shear-wave splitting analysis for sonic logs. This finding demonstrates that the stress inversion method based on strike, dip, and rake data derived from microseismic focal mechanisms and fracture networks can correctly obtain the azimuths of maximum and minimum horizontal stress.

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来源期刊
Applied Geophysics
Applied Geophysics 地学-地球化学与地球物理
CiteScore
1.50
自引率
14.30%
发文量
912
审稿时长
2 months
期刊介绍: The journal is designed to provide an academic realm for a broad blend of academic and industry papers to promote rapid communication and exchange of ideas between Chinese and world-wide geophysicists. The publication covers the applications of geoscience, geophysics, and related disciplines in the fields of energy, resources, environment, disaster, engineering, information, military, and surveying.
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