基于不列颠哥伦比亚省东北部蒙特尼地区,应用监督机器学习评估和管理流体注入诱发的地震危害

IF 2.1 3区 地球科学 Q3 COMPUTER SCIENCE, INTERDISCIPLINARY APPLICATIONS
Afshin Amini, Erik Eberhardt, Ali Mehrabifard
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引用次数: 0

摘要

评估、管理和减轻与水力压裂和流体注入活动相关的诱发地震危害的主要挑战之一,是了解地质和作业特征如何影响事件发生的可能性和严重程度。地质特征是指影响油井产生诱发地震可能性的原有条件。相比之下,运行特征是可控的,可以通过工程设计来减轻和最大限度地减少潜在危害。近年来,随着数据可用性的提高和机器学习技术的快速发展,有人提出应用这些统计工具来研究诱发地震。然而,这就提出了这些方法的性能和可解释性问题,需要进行深入研究。本文介绍了利用不列颠哥伦比亚省东北部蒙特尼地区数据进行详细研究的结果,研究了几种机器学习算法在预测诱发地震可能性和严重性方面的稳健性,并比较了地质和运行特征对这些事件的触发和最大震级的重要性。分析包括地震监测、区域地质和完井数据,以及对地球物理测井数据的新颖使用,以提供更全面的地质特征数据库。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Application of supervised machine learning to assess and manage fluid-injection-induced seismicity hazards based on the Montney region of northeastern British Columbia

One of the key challenges in assessing, managing and mitigating induced-seismicity hazards related to hydraulic fracturing and fluid injection activities is understanding how geological and operational features influence the likelihood and severity of an event. Geological features point to the pre-existing conditions that affect a well’s susceptibility to generating induced seismicity. In contrast, operational features are controllable and can be engineered to mitigate and minimize potential hazards. In recent years, with increased data availability and the rapid development of machine learning techniques, the application of these statistical tools has been proposed to investigate induced seismicity. However, this raises the question of the performance and interpretability of these methods, which requires thorough investigation. This paper presents the results of a detailed study utilizing data for the Montney region of northeastern British Columbia that investigates the robustness of several machine learning algorithms in predicting induced seismicity likelihood and severity and compares the importance of geological and operational features on the triggering and maximum magnitude of these events. The analyses include seismic monitoring, regional geology and well completions data, and the novel use of geophysical well log data to provide a more comprehensive database of geological features.

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来源期刊
Computational Geosciences
Computational Geosciences 地学-地球科学综合
CiteScore
6.10
自引率
4.00%
发文量
63
审稿时长
6-12 weeks
期刊介绍: Computational Geosciences publishes high quality papers on mathematical modeling, simulation, numerical analysis, and other computational aspects of the geosciences. In particular the journal is focused on advanced numerical methods for the simulation of subsurface flow and transport, and associated aspects such as discretization, gridding, upscaling, optimization, data assimilation, uncertainty assessment, and high performance parallel and grid computing. Papers treating similar topics but with applications to other fields in the geosciences, such as geomechanics, geophysics, oceanography, or meteorology, will also be considered. The journal provides a platform for interaction and multidisciplinary collaboration among diverse scientific groups, from both academia and industry, which share an interest in developing mathematical models and efficient algorithms for solving them, such as mathematicians, engineers, chemists, physicists, and geoscientists.
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