▪ HERRMANN J., SCHUSTER V., CHENG C., MILSCH H., RYBACKI E., Fracture Transmissivity in Prospective Host Rocks for Enhanced Geothermal Systems (EGS), Geosciences, 2022

▪ LEDESERT B.A., HEBERT R.L., TRULLENQUE G., GENTER A., DALMAIS E., HERISSON J., Editorial of Special Issue “Enhanced Geothermal Systems and Other Deep Geothermal Applications throughout Europe: The MEET Project”, Geosciences, 2022

▪ MAHMOODPOUR S., SINGH M., BÄR K., SASS, I., Impact of well placement in the fractured geothermal reservoirs based on available discrete fractured system, Geosciences, 2022

▪ MAHMOODPOUR S., SINGH M., OBAJE C., TANGIRALA S.K., REINECKER J., BÄR K., SASS I., Hydrothermal Numerical Simulation of Injection Operations at United Downs, Cornwall, UK, Geosciences, 2022

▪ MAHMOODPOUR S., SINGH M., TURAN A., BÄR K., SASS, I., Simulations and global sensitivity analysis of the thermo-hydraulic-mechanical processes in a fractured geothermal reservoir, Energy, 2022

▪ MEDVEDOVSKI E., RAVIER G., MENDOZA G.L., Evaluation of boronized steel for corrosion resistance enhancement of tubing in Soultz-sous-Forêts and Rittershoffen geothermal plants, Geothermics, 2022

▪ MOEIN M.J.A., EVANS K.F., VALLEY B., BÄR K., GENTER A., Fractal characteristics of fractures in crystalline basement rocks: Insights from depth-dependent correlation analyses to 5 km depth, International Journal of Rock Mechanics and Mining Sciences, 2022

▪ PEACOCK D. C. P., SANDERSON D.J., LEISS B., Use of Analogue Exposures of Fractured Rock for Enhanced Geothermal Systems, Geosciences, 2022

▪ RAOS S., HRANIĆ J., RAJŠL I., BÄR K, An extended methodology for multi-criteria decision-making process focused on enhanced geothermal systems, Energy conversion and Management, 2022

▪ ROMANOV D., LEISS B., Geothermal energy at different depths for district heating and cooling of existing and future building stock, Renewable and Sustainable Energy Reviews, 2022

▪ SCHULZ K.E., BÄR K., SASS I., Lab-Scale Permeability Enhancement by Chemical Treatment in Fractured Granite (Cornubian Batholith) for the United Downs Deep Geothermal Power Project, Cornwall (UK), Geosciences, 2022


▪ ABDELFETTAH Y., BARNES C., Sensitivity Analysis of FWI Applied to OVSP Synthetic Data for Fault Detection and Characterization in Crystalline Rocks, Geosciences, 2021

▪ BAUJARD C., ROLIN P., DALMAIS E., HEHN R., GENTER A., Soultz-sous-Forêts Geothermal Reservoir: Structural Model Update and Thermo-Hydraulic Numerical Simulations Based on Three Years of Operation Data, Geosciences, 2021

▪ CABIDOCHE M., VANBRABANT Y., BROUYERE S., STENMANS V., MEYVIS B., GOOVAERTS T., PETITCLERC E., BURLET C., Spring Water Geochemistry: A Geothermal Exploration Tool in the Rhenohercynian Fold-and-Thrust Belt in Belgium, Geosciences, 2021

▪ CHABANI A., TRULLENQUE G., KLEE J., LEDESERT B., Fracture Spacing Variability and the Distribution of Fracture Patterns in Granitic Geothermal Reservoir: A Case Study in the Noble Hills Range (Death Valley, CA, USA), Geosciences, 2022

▪ CHABANI A., TRULLENQUE G., LEDESERT B., KLEE J., Multiscale characterization of fracture patterns: A case study of the Noble Hills range (Death Valley, CA, USA), application to geothermal reservoirs, Geosciences, 2021

▪ CHENG C., HERRMANN J., WAGNER B., LEISS B., STAMMEIER J., RYBACKI E., MILSCH H., Long-term evolution of fracture permeability in shale: an experimental study with implications for Enhanced Geothermal Systems (EGS), Geosciences, 2021

▪ DAVÍĐSDÓTTIR S., GUNNARSSON B.G., KRISTJÁNSSON K.B., LEDESERT B.A., ÓLAFSSON D.I., Study of Corrosion Resistance Properties of Heat Exchanger Metals in Two Different Geothermal Environments, Geosciences, 2021

▪ HRANIĆ J., RAOS S., LEOUTRE E., RAJŠL I., Two-stage geothermal well clustering for oil-to-water conversion on mature oil fields, Geosciences, 2021

▪ KLEE J., POTEL S., LEDESERT B., HEBERT R., CHABANI A., BARRIER P., TRULLENQUE G., Fluid-Rock Interactions in a Paleo-Geothermal Reservoir (Noble Hills Granite, California, USA). Part 1: The Influence of Fracturing on Granite Alteration Processes and Fluid Circulation at Low to Moderate Regional Strain, Geosciences, 2021.

▪ KLEE J., CHABANI A., LEDESERT B., POTEL S., HEBERT R., TRULLENQUE G., Fluid-Rock Interactions in a Paleo-Geothermal Reservoir (Noble Hills Granite, California, USA). Part 2: The Influence of Fracturing on Granite Alteration Processes and Fluid Circulation at Low to Moderate Regional Strain, Geosciences, 2021

▪ KUNAN P., RAVIER G., DALMAIS E., DUCOUSSO M., CEZAC P., Thermodynamic and Kinetic Modelling of Scales Formation at the Soultz-sous-Forêts Geothermal Power Plant, Geosciences, 2021

▪ LEDESERT B., HEBERT R., MOUCHOT J., BOSIA C., RAVIER G., SEIBEL O., DALMAIS E., LEDESERT M., TRULLENQUE G., SENGELEN X., GENTER A., Scaling in a Geothermal Heat Exchanger at Soultz-Sous-Forêts (Upper Rhine Graben, France): A XRD and SEM-EDS Characterization of Sulfide Precipitates, Geosciences, 2021

▪ MAHMOODPOUR S., SINGH M., TURAN A., BÄR K., SASS, I., Hydro-thermal modeling for geothermal energy extraction from Soultz-sous-Forêts, France, Geosciences, 2021

▪ PAVLIS T., TRULLENQUE G., Evidence for 40-41km of dextral slip on the southern Death Valley fault zone: 2 Implications for the Eastern California Shear Zone and Extensional Tectonics, Geology, 2021

▪ PEACOCK D.C.P., SANDERSON D.J., LEISS B., Use of Mohr Diagrams to Predict Fracturing in a Potential Geothermal Reservoir, Geosciences, 2021

▪ REINECKER J., GUTMANIS J., FOXFORD A., COTTON L., DALBY C., LAW R., Geothermal exploration and reservoir modelling of the United Downs deep geothermal project, Cornwall (UK), Geothermics, 2021

▪ ROMANOV D., LEISS B., Analysis of Enhanced Geothermal System development scenarios for district heating and cooling of the Göttingen University campus, Geosciences, 2021


▪ BILIĆ T., RAOS S., ILAK P., RAJŠL I., PAŠIČKO R., Assessment of Geothermal Fields in the South Pannonian Basin System Using a Multi-Criteria Decision-Making Tool, Energies, 2020.

▪ LEDESERT B.A., HEBERT R.L., How Can Deep Geothermal Projects Provide Information on the Temperature Distribution in the Upper Rhine Graben? The Example of the Soultz-Sous-Forêts-Enhanced Geothermal  System, Geosciences, 2020.


▪ LEISS, B., WAGNER, B. (2019), EU-Projekt MEET: neue Ansätze “Enhanced Geothermal Systems (EGS)” Göttinger Unicampus als Demoprojekt. Geothermische Energie 91: 26-28.

▪ RAOS S., ILAK P., RAJŠL I., BILIĆ T., TRULLENQUE G., Multiple-Criteria Decision-Making for Assessing the Enhanced Geothermal Systems, Energies, 21, 1996-1073

▪ VIDAL J., HEHN R., GLAAS C., GENTER A., How Can Temperature Logs Help Identify Permeable Fractures and Define a Conceptual Model of Fluid Circulation? An Example from Deep Geothermal Wells in the Upper Rhine Graben., Geofluids, 2019