Sonic imaging improved geothermal production opportunities for district heating in the Paris Basin

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France, Europe, Onshore

3D far-field sonic imaging enabled the operator to map the reservoir sequence and identify a prolific dune structure 15 meters below the planned laterals. This opened up additional opportunities to develop the geothermal asset in the Paris Basin.

Stylized illustration of 3D imaging from 3D far-field sonic service.
Extending sonic imaging beyond the reach of standard sonic logging, 3D far-field sonic service leverages advanced dipole sonic solutions to provide true dip and azimuth by accurately measuring elastic properties axially, radially, and azimuthally. This supports geomechanical, geophysical, fracture, and petrophysical modeling.

An operator in the Paris Basin in France wanted to understand the lateral continuity of thin reservoir layers along a lateral well and verify the overall structure to help guide optimal planning of additional lateral wells.

While logging wireline in a lateral well using a tractor to assess the formation's mechanical properties, the operator opted to acquire data with a specialized sonic reflection imaging service. The operator leveraged 3D far-field sonic data to extend sonic imaging far beyond the reach of standard sonic logging. This service is designed to image acoustic contrasts—such as layering, fractures, or faults—at a distance from the well. The goal was to determine the overall bedding structure and verify the lateral continuity of various porous-thin reservoir layers within a tighter formation. The imaging captured the structure and lateral continuity of these layers up to 40 meters from the well.

 

Using 3D far-field sonic service enabled the operator to map the reservoir sequence and identify a prolific dune structure 15 meters below the planned laterals. This opened up additional opportunities to develop the geothermal asset in the Paris Basin.

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