1887
ASEG2013 - 23rd Geophysical Conference
  • ISSN: 2202-0586
  • E-ISSN:

Abstract

Microseismic monitoring is attracting great interest due to the application of passive seismic to shale play completion activities and the successful expansion of the method from downhole to surface and near-surface acquisition geometries. Fundamental to this application is the science behind the interpretations: The inherent capabilities and limitations of downhole, surface and near-surface recording systems and the processing and imaging applications enabled by these recordings must be appreciated to understand the results.

These considerations inform issues such as: microseismic event detectability and position uncertainty; the characterization of geological features; sensitivity to hydraulic fracturing methods; rock failure modes; and well to pad to field-wide implications of large scale ‘horizontally drill and hydraulically fracture’ development programs.

Ultimately interpretation workflows determine microseismic event pointsets, modelling of discrete fracture networks and calculation of stimulated rock volumes.

As microseismic monitoring matures understanding the relationship of recording geometry, imaging capability and interpretation workflows will fuel expanded utilization.

Here the basic issues surrounding passive seismic acquisition methods and microseismic interpretation will be reviewed and discussed.

© 2013 ASEG
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/content/journals/10.1071/ASEG2013ab321
2013-12-01
2026-01-18

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References

  1. Duncan, P., L. Eisner, 2010, Reservoir characterization using surface microseismic monitoring, GEOPHYSICS, Vol. 75, No. 5, pp. 75A139-75A146.
  2. Sarkar, S., A. Jupe, J. Shemeta, R. Langan, A. Rosca, 2012, Uncertainty in microseismic event source locations associated with a fracture stimulation in a tight sand, Istanbul 2012 - International Geophysical Conference and Oil & Gas Exhibition: 1-4.
  3. Thornton, M., L. Eisner, 2011, Uncertainty in surface microseismic monitoring, Society of Exploration Geophysicists Technical Program Expanded Abstracts 2011: 1524-1528.
  4. Warpinski, N. R., J. Du, and U. Zimmer, 2012, Measurements of hydraulic-fracture-induced seismicity in gas shales: Society of Petroleum Engineers paper 151597.
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  • Article Type: Research Article
Keyword(s): Case Histories; Seismic Acquisition; Seismic Interpretation; Unconventional

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