Leveraging the ETAS model to forecast mining microseismicity

IF 2.8 3区 地球科学 Q2 GEOCHEMISTRY & GEOPHYSICS Geophysical Journal International Pub Date : 2024-07-08 DOI:10.1093/gji/ggae236
Mohammadamin Sedghizadeh, Matthew van den Berghe, Robert Shcherbakov
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Abstract

Mining operations result in changes of the subsurface stress field that can lead to the occurrence of microseismic events. The development of strategies for forecasting and avoidance of significant events is crucial for safe and efficient operations of mines. One such example, discussed here is the observed induced microseismicity in soft rock potash mines. It is primarily driven by the rock excavations but can also be triggered by preceding events or can result from the delayed effects of plastic creep of soft rocks. Therefore, it is important from seismic hazard assessment and risk mitigation points of view to understand the statistical aspects of microseismicity in potash or other types of mines. In this study, the temporal evolution of the induced microseismicity from a potash mine in Saskatchewan is analyzed and modeled. Specifically, the epidemic type aftershock sequence (ETAS) model is used to approximate the occurrence rate of the induced mining microseismicity. The estimated parameters signify that the microseismicity displays swarm-type characteristics with limited inter-event triggering. Moreover, the Bayesian predictive framework is used to compute the probabilities of the occurrences of the largest expected events above a certain magnitude for prescribed forecasting time intervals during the evolution of the sequence. This approach for computing the probabilities allows one to incorporate fully the uncertainties of the model parameters. The Markov Chain Monte Carlo (MCMC) sampling of the posterior distribution are used to generate parameter chains to quantify their variability. Furthermore, several statistical tests are conducted to assess the credibility of the obtained retrospective forecasts compared to the observed microseismicity. The obtained results show that the developed approach can accurately forecast the number of events and intensity of the sequence. It also provides a framework for computing the probabilities for the largest expected events.
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利用 ETAS 模型预测矿山微地震
采矿作业会导致地下应力场发生变化,从而引发微地震事件。制定预测和避免重大事件的策略对于矿山的安全高效运营至关重要。本文讨论的一个例子是在软岩钾盐矿中观察到的诱发微震。微地震主要由岩石挖掘引起,但也可能由之前的事件触发,或由软岩塑性蠕变的延迟效应引起。因此,从地震灾害评估和降低风险的角度来看,了解钾盐矿或其他类型矿山微震的统计方面非常重要。本研究分析了萨斯喀彻温省一个钾盐矿的诱发微震的时间演变并建立了模型。具体而言,采用流行型余震序列(ETAS)模型来近似计算诱发采矿微震的发生率。估算的参数表明,微地震表现出群集型特征,事件间的触发有限。此外,贝叶斯预测框架用于计算在序列演化过程中,在规定的预测时间间隔内,超过一定震级的最大预期事件的发生概率。这种概率计算方法可以充分考虑模型参数的不确定性。后验分布的马尔可夫链蒙特卡罗(MCMC)采样用于生成参数链,以量化其可变性。此外,还进行了若干统计测试,以评估与观测到的微震相比,所获得的回顾性预测的可信度。结果表明,所开发的方法可以准确预测地震序列的事件数量和强度。它还为计算最大预期事件的概率提供了一个框架。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Geophysical Journal International
Geophysical Journal International 地学-地球化学与地球物理
CiteScore
5.40
自引率
10.70%
发文量
436
审稿时长
3.3 months
期刊介绍: Geophysical Journal International publishes top quality research papers, express letters, invited review papers and book reviews on all aspects of theoretical, computational, applied and observational geophysics.
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