Integrated Thermo-Haline Modeling to Constrain the Thermal Regime in the Upper Rhine Graben
Authors/Creators
- 1. Geoscience Center, Georg-August-Universität Göttingen, Goldschmidt Str. 3, 37077 Göttingen
- 2. Mines Paris – PSL, Ècole Nationale Supérieure, 77300 Fontainebleau, France
Contributors
Editor:
- 1. Geoscience Center, Georg-August-Universität Göttingen, Goldschmidt Str. 3, 37077 Göttingen, Germany
- 2. Mines Paris – PSL, Ècole Nationale Supérieure, 77300 Fontainebleau, France
Description
The DEKAPALATIN–BERTHA joint research project aims to improve the understanding of deep geothermal systems in the central Upper Rhine Graben to support the decarbonization of the heating sector. As geothermal reservoirs are hosted in fault damage zones where highly saline brines circulate, integrated thermo-haline numerical modeling is required to reliably constrain the subsurface thermal regime and fluid circulation. This contribution presents a modeling framework that couples salinity-dependent fluid flow, heat transport, and fault-zone petrophysical heterogeneity to evaluate reservoir behavior. Application to representative fault damage zones in the Upper Rhine Graben demonstrates the key role of permeability contrasts and fluid density effects in controlling long-term temperature distribution and operational sustainability.
Notes (English)
Our poster presents a joint research contribution resulting from an international collaboration funded by the DAAD PROCOPE France program (Project No. 57756040). It is presented at the Leibniz MMS Days 2026 at the Leibniz Institute for High Performance Microelectronics (IHP) in Frankfurt (Oder).
Files
Bridge_Meneses_Rioseco_Bruel_Ogandaga_Lee_Exuzian_March_2026_final.pdf
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Additional details
Funding
- German Academic Exchange Service
- PROCOPE FRANCE 57756040