Drafting of high-quality geothermal geological exploration reports.

Mapping of potentially high-grade aquifers or Basement play geothermal reservoirs, even in regions that have insufficient coverage of seismic data but covered by gravity and or magnetic data.

Professionally deploying industry-standard software and workflows, fully exploiting all geoscientific data sets in the study area and constraining the interpretations and models to SeismoLog PRO.


Workflow

Step 1.

Data base compilation in SeismoLog PRO, ArcGIS, Oasis-Montaj, ZTERRA and SMT-Kingdom.

Step 2.

Geological review.

Step 3.

SeismoLog PRO - Construction of accurate velocity and density models in well bore from surface to TD.

Step 4.

SeismoLog PRO – Petrophysics.

Step 5.

Reprocessing, depth-migration and time-depth conversion of seismic data constrained by SeismoLog PRO velocity and density models.

Step 6.

Seismic-to-well tie constrained by SeismoLog PRO velocity model.

Step 7.

Gravity and magnetic data processing, correction (Bouguer and [differential-] Reduction to Pole/Equator resp.), qualitative and quantitative analyses.

Step 8.

Depth to magnetic source modelling and interpretation.

Step 9.

Iterative seismic interpretation (depth) with iterative gravity & magnetic modelling and -inversion.

Step 10.

Gravity & magnetic modelling of top Basement, mapping of Basement structures, salt and igneous intrusions, and of the sedimentary succession. The models are constrained by interpretations on depth-migrated or depth-converted seismic data and well data. The formation density model is provided by SeismoLog PRO.

Step 11.

Gravity & magnetic interpretation of the sedimentary succession and structures.

Step 12.

Accurate correlation of faults in between 2D seismic sections and or gravity & magnetic models constrained by structural interpretations on filtered gravity and magnetic grids.

Step 13.

Diffraction imaging of seismic data to detect small-scale fractures and faults.

Step 14.

Diffraction imaging based fault kinematic modelling to gain insight in the reservoir fractured porosity.

Step 15.

Stratigraphic seismic inversion constrained by SeismoLog PRO results to identify reservoir sweet spots.

Step 16.

Construction of 3D static geological models from surface into Basement constrained by results of the complete workflow.

Step 17.

Geothermal gradient anomaly mapping and -profile analysis based on the 3D geological model.

Step 18.

Well design support to experts in our network to fully optimize the geothermal power to be produced from the reservoir.

Step 19.

Geothermal power and doublet performance calculations.

Step 20.

Configuration of seismic, gravity & magnetic and well log suite data acquisition (phase-2B).


Your Benefits

You will gain access to our proven workflow and Professionally deploying industry-standard software, fully exploiting all geoscientific data sets in the study area and constraining the interpretations and models to SeismoLog PRO.

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