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Controlling fluid-induced seismicity during a 6.1-km-deep geothermal stimulation in Finland

机译：在芬兰6.1公里深的地热增产过程中控制流体诱发的地震活动

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We show that near–real-time seismic monitoring of fluid injection allowed control of induced earthquakes during the stimulation of a 6.1-km-deep geothermal well near Helsinki, Finland. A total of 18,160 m³ of fresh water was pumped into crystalline rocks over 49 days in June to July 2018. Seismic monitoring was performed with a 24-station borehole seismometer network. Using near–real-time information on induced-earthquake rates, locations, magnitudes, and evolution of seismic and hydraulic energy, pumping was either stopped or varied—in the latter case, between well-head pressures of 60 and 90 MPa and flow rates of 400 and 800 liters/min. This procedure avoided the nucleation of a project-stopping magnitude MW 2.0 induced earthquake, a limit set by local authorities. Our results suggest a possible physics-based approach to controlling stimulation-induced seismicity in geothermal projects.

机译：我们显示，对流体注入进行近实时地震监测可以控制在芬兰赫尔辛基附近6.1公里深的地热井的增产过程中的诱发地震。在2018年6月至2018年7月的49天内，总共将18,160 m ^{3 淡水泵入了晶体岩中。使用24站井眼地震仪网络进行了地震监测。利用有关地震发生率，位置，震级以及地震和水力能的演变的近实时信息，泵被停止或改变了（在后一种情况下，在60到90 MPa的井口压力与流量之间） 400和800升/分钟该程序避免了由地方当局设定的极限项目MW 2.0诱发地震的成核作用。我们的结果提出了一种可能的基于物理的方法来控制地热项目中的激振诱发地震活动。}

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期刊名称 Science Advances
作者
Grzegorz Kwiatek; Tero Saarno; Thomas Ader; Felix Bluemle; Marco Bohnhoff; Michael Chendorain; Georg Dresen; Pekka Heikkinen; Ilmo Kukkonen; Peter Leary; Maria Leonhardt; Peter Malin; Patricia Martínez-Garzón; Kevin Passmore; Paul Passmore; Sergio Valenzuela; Christopher Wollin;
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年(卷),期 2019(5),5
年度 2019
页码 eaav7224
总页数 11
原文格式 PDF
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1. Controlling fluid-induced seismicity during a 6.1-km-deep geothermal stimulation in Finland [J] . Grzegorz Kwiatek, Tero Saarno, Thomas Ader, Science Advances . 2019,第5期

机译：在芬兰6.1公里深的地热增产过程中控制流体诱发的地震活动
2. Seismicity during and after stimulation of a 6.1 km deep enhanced geothermal system in Helsinki, Finland [J] . Leonhardt Maria, Kwiatek Grzegorz, Martínez-Garzón Patricia, Solid Earth . 2021,第3期

机译：在芬兰赫尔辛基深增强地热系统刺激期间和刺激的地震性
3. Fault structure, stress, or pressure control of the seismicity in shale? Insights from a controlled experiment of fluid-induced fault reactivation [J] . De Barros Louis, Daniel Guillaume, Guglielmi Yves, Journal of geophysical research. Solid earth: JGR . 2016,第6期

机译：页岩地震活动的断层结构，应力或压力控制？流体诱导的断层再激活受控实验的见解
4. Controlling induced seismicity during hydraulic stimulation of a 6 km deep Enhanced Geothermal System in Finland [C] . Dresen G., Kwiatek G., Bohnhoff M., US Rock Mechanics/Geomechanics Symposium . 2019

机译：在芬兰6公里深增强地热系统的液压刺激过程中控制诱导的地震性
5. Modeling and Characterization of Hydraulic Stimulation and Induced Seismicity in Geothermal and Shale Gas Reservoirs [D] . McClure, Mark William. 2012

机译：地热刺激液压刺激的建模与表征，地热和页岩气水库诱导地震性
6. Machine learning reveals cyclic changes in seismic source spectra in Geysers geothermal field [O] . Benjamin K. Holtzman, Arthur Paté, John Paisley, 2018

机译：机器学习揭示了间歇泉地热场中震源频谱的周期性变化
7. Controlling fluid-induced seismicity during a 6.1-km-deep geothermal stimulation in Finland [O] . Grzegorz Kwiatek, Tero Saarno, Thomas Ader, 2019

机译：在芬兰6.1公里深的地热刺激期间控制流体诱导的地震性
8. Stress Control of Seismicity Patterns Observed During Hydraulic Fracturing Experiments at the Fenton Hill Hot Dry Rock Geothermal Energy Site, New Mexico [R] . Fehler, M. C. 1987

机译：新墨西哥州芬顿山热干岩地热能站场水力压裂试验中观测到的地震活动模式的应力控制

Controlling fluid-induced seismicity during a 6.1-km-deep geothermal stimulation in Finland

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