Green, yellow, red, or out of the blue? An assessment of Traffic Light Schemes to mitigate the impact of hydraulic fracturing-induced seismicity
Autor: | James P. Verdon, Julian J. Bommer |
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Rok vydání: | 2020 |
Předmět: |
Geochemistry & Geophysics
Induced seismicity Green yellow Magnitude (mathematics) 0404 Geophysics PRODUCTION-INDUCED EARTHQUAKES CAPABILITY Traffic signal MAGNITUDE Hydraulic fracturing Geochemistry and Petrology GAS-FIELD Event (probability theory) Science & Technology Hydrogeology WASTE-WATER INJECTION GRONINGEN HAZARD Traffic light schemes OKLAHOMA Geophysics Seismic hazard Physical Sciences Environmental science SICHUAN BASIN Earthquake forecasting FOX CREEK Seismology |
Zdroj: | Verdon, J P & Bommer, J 2020, ' Green, yellow, red, or out of the blue? An assessment of Traffic Light Schemes to mitigate the impact of hydraulic fracturing-induced seismicity ', Journal of Seismology . https://doi.org/10.1007/s10950-020-09966-9 |
ISSN: | 1573-157X 1383-4649 |
DOI: | 10.1007/s10950-020-09966-9 |
Popis: | Mitigating hydraulic fracturing-induced seismicity (HF-IS) poses a challenge for shale gas companies and regulators alike. The use of Traffic Light Schemes (TLSs) is the most common way by which the hazards associated with HF-IS are mitigated. In this study, we discuss the implicit risk mitigation objectives of TLSs and explain the advantages of magnitude as the fundamental parameter to characterise induced seismic hazard. We go on to investigate some of the key assumptions on which TLSs are based, namely that magnitudes evolve relatively gradually from green to yellow to red thresholds (as opposed to larger events occurring “out-of-the-blue”), and that trailing event magnitudes do not increase substantially after injection stops. We compile HF-IS datasets from around the world, including the USA, Canada, the UK, and China, and track the temporal evolution of magnitudes in order to evaluate the extent to which magnitude jumps (i.e. sharp increases in magnitude from preceding events within a sequence) and trailing events occur. We find in the majority of cases magnitude jumps are less than 2 units. One quarter of cases experienced a post-injection magnitude increase, with the largest being 1.6. Trailing event increases generally occurred soon after injection, with most cases showing no increase in magnitude more than a few days after then end of injection. Hence, the effective operation of TLSs may require red-light thresholds to be set as much as two magnitude units below the threshold that the scheme is intended to avoid. |
Databáze: | OpenAIRE |
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