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Characterizing hydraulic fracture growth using distributed acoustic sensing-recorded microseismic reflections

Yuanyuan Ma, David W. Eaton, Chaoyi Wang, Alemayehu Aklilu

2023Geophysics17 citationsDOIOpen Access PDF

Abstract

ABSTRACT Hydraulic fracturing is crucial for enhancing hydrocarbon production from unconventional reservoirs. The characterization of fracture geometry and propagation has significant value in understanding reservoir response and designing more efficient completions. Distributed acoustic sensing (DAS) is a rapidly developing technology that can be used for this purpose because it provides wide-aperture observations of microseismic wavefields that contain direct P and S arrivals as well as converted and reflected waves. In addition to traditional approaches for microseismic event location and source mechanism analysis, the high spatial resolution of DAS microseismic recordings allows the imaging of induced fractures with reflected waves. Reflections are generated by waves radiated from microseismic events that impinge on hydraulic fractures created during prior treatment stages. We use a straightforward method based on f-k filtering and ray tracing to map reflected S waves from the time domain to reflectivity in the space domain. A case study of fracture imaging indicates that inferred fracture development, based on reflection imaging, is consistent with fracture-driven interactions observed using low-frequency DAS (LF-DAS) data. In addition, this study reveals reflection images of apparent distal fractures that do not reach the fiber and thus are not directly observed by LF-DAS. Fracture images obtained from several microseismic events during the same stage provide the opportunity to observe snapshots of dynamic fracture evolution processes.

Topics & Concepts

MicroseismGeologyFracture (geology)Reflection (computer programming)Hydraulic fracturingSeismologyAcousticsTime domainFrequency domainComputer scienceGeotechnical engineeringPhysicsProgramming languageComputer visionSeismic Imaging and Inversion TechniquesSeismic Waves and AnalysisGeophysical Methods and Applications
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