Earth System Science Data (Jun 2023)

The Weisweiler passive seismological network: optimised for state-of-the-art location and imaging methods

  • C. Finger,
  • M. P. Roth,
  • M. Dietl,
  • M. Dietl,
  • A. Gotowik,
  • A. Gotowik,
  • N. Engels,
  • R. M. Harrington,
  • B. Knapmeyer-Endrun,
  • B. Knapmeyer-Endrun,
  • K. Reicherter,
  • T. Oswald,
  • T. Reinsch,
  • E. H. Saenger,
  • E. H. Saenger,
  • E. H. Saenger

DOI
https://doi.org/10.5194/essd-15-2655-2023
Journal volume & issue
Vol. 15
pp. 2655 – 2666

Abstract

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Passive seismic analyses are a key technology for the exploration and monitoring of subsurface reservoirs. Searching for alternative resources in the framework of the energy transition is creating a surge for identifying as many potential sites as possible suitable for geothermal exploitation. The Lower Rhine Embayment, at the western border of North Rhine-Westphalia in Germany, is an extensional system with a very high potential for geothermal exploitation. The area experiences moderate but continuous natural seismicity. Here, we report on a passive seismic dataset recorded with 48 seismic stations centred at and around Eschweiler–Weisweiler (https://doi.org/10.14470/MO7576467356, Finger et al., 2022). Background seismic noise levels are high at this site due to high levels of anthropogenic noise and thick unconsolidated sedimentary layers. The final station layout is a compromise between targeted network design and suitably quiet locations. We show that the network design allows for the application of state-of-the-art methods including waveform-based source location methods and ambient-noise velocity imaging methods.