4.6 Article

Relocating microseismicity from downhole monitoring of the Decatur CCS site using a modified double-difference algorithm

Journal

GEOPHYSICAL JOURNAL INTERNATIONAL
Volume 227, Issue 2, Pages 1094-1122

Publisher

OXFORD UNIV PRESS
DOI: 10.1093/gji/ggab255

Keywords

Downhole methods; Inverse theory; Time-series analysis; Earthquake source observations; Induced seismicity

Funding

  1. Norwegian Climit programme of Gassnova Project [618233]
  2. US-Norway bilateral cooperation agreement on CCS
  3. U.S. Department of Energy National Energy Technology Laboratory (NETL) via the Regional Carbon Sequestration Partnerships Initiative [DE-FC26-05NT42588]
  4. Illinois Department of Commerce and Economic Opportunity, Office of Coal Development through the Illinois Clean Coal Institute

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The text discusses the monitoring and relocation of microseismic activity at the Decatur carbon capture and storage site. By developing a modified relocation algorithm, 4293 events were successfully relocated, indicating potential improvements in recording microseismic event locations.
The injection of CO2 at the Decatur carbon capture and storage site has generated significant microseismic activity, which occurs in distinct spatial clusters up to approximately 2.2 km from the primary injection well. Accurate and precise event locations are vital for the characterization of the microseismicity to help understand the reservoir response to the CO2 injection, whilst enabling the identification of minor faults and fractures below the resolution of conventional active seismic imaging. However, microseismic monitoring of fluid injection sites, such as Decatur, is often performed using a network of borehole sensors often from a single well. While these downhole sensors have excellent detection capabilities, their poor azimuthal coverage limits the ability to precisely determine event locations. We have developed a modified double-difference relocation algorithm suitable for both 1-D and 3-D velocity models, and which incorporates differential back azimuth observations to allow the benefits of the original double-difference algorithm to be applicable to a downhole microseismic monitoring setting. Applying the modified double-difference algorithm to the microseismicity at Decatur, we have successfully relocated 4293 events. The relocation included over 59 million observations for 757 285 event pairs, split across seven geographic regions. Despite the majority of observations being recorded in only two boreholes, with an almost identical azimuthal coverage, the results have shown to be reliable with significantly reduced residuals and low uncertainties associated with the final locations. We have analysed the residuals in terms of their association with each geographic region, data type, station and individual events, to fully appreciate their influence in the inversion and the fit of the data to the final set of event locations. For each region, the relocated seismicity has become less diffuse with improved clustering, and with newly visible linear features often orientated in a NE-SW direction. These results show the potential improvements that can be made to microseismic event locations recorded by a borehole network with a limited and variable azimuthal distribution.

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