What moved where?: The impact of velocity uncertainty on microseismic location and moment-tensor inversion
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In this paper, the authors present a framework for assessing these uncertainties and use it to demonstrate how velocity uncertainty translates into uncertainties on the recovered quantities of location and moment-tensor parameters.Abstract:
With the rise of unconventional resources, microseismic monitoring is becoming increasingly important because of its cost-effectiveness. This has led to significant research activity on how best to locate events and characterize their moment tensors. Locations tell us where fracturing is occurring, allow the tracking of fluid movement, and fracture propagation. Moment tensors help to determine the type of failure occurring, which is beneficial in planning and interpreting the results of hydraulic-fracturing jobs and in monitoring production. The rising number of methods to determine parameters raises important questions about how uncertainties in the input parameters are translated into uncertainties in the final locations and moment tensors. We present a framework for assessing these uncertainties and use it to demonstrate how velocity uncertainty — as well as uncertainties in arrival times and amplitudes — translates into uncertainties on the recovered quantities of location and moment-tensor parameters.read more
Citations
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Proceedings ArticleDOI
Experiment Study on Focal Mechanism Inversion of Shale Hydraulic Fracturing: Influence of Attenuation Changes
Book ChapterDOI
Additional Topics in Microseismic Data Processing
TL;DR: In this paper, the authors discuss several advanced topics in microseismic data processing, including the estimation of receiver orientation in deviated wells, velocity model calibration in VTI media, simultaneous inversion for velocities and hypocenters, moment tensor inversion and uncertainty analysis.
References
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Uncertainties in passive seismic monitoring
TL;DR: The use of passive seismic techniques to monitor oil field completion and production processes is on the rise as mentioned in this paper, and stress changes induced by such reservoir activities as hydraulic fracturing, water injection, or fluid extraction will often result in failure of the rocks with a concurrent release of seismic energy in the form of compressional (P) and shear (S) waves.
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Reverse time migration for microseismic sources using the geometric mean as an imaging condition
Nori Nakata,Gregory C. Beroza +1 more
TL;DR: A new approach of time-reversal imaging is developed that reduces the computational cost and the scanning dimensions from 4D to 3D (no time) and increases the spatial resolution of the source image.
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Focal mechanism determination of induced microearthquakes in an oil field using full waveforms from shallow and deep seismic networks
TL;DR: In this article, a relatively high frequency, full waveform matching method was used to study the focal mechanisms of small, local earthquakes induced in an oil field, which are monitored by a sparse near-surface network and a deep borehole network.
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Challenges For Microseismic Monitoring
TL;DR: In this article, the authors review important challenges in monitoring and interpretation of microseismic events and suggest potential solutions for these challenges, where available, where the solutions are available.