12 Papers
M. Frey is an academic researcher from University of California, Davis. The author has contributed to research in topics: Geology & Graben. The author has an hindex of 2, co-authored 2 publications.
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Papers
Assessment of deep geothermal research and development in the Upper Rhine Graben
TL;DR: In this article , a review study summarizes the findings relevant to deep geothermal projects and thus provides a useful working and decision-making basis for stakeholders, and furthermore provides an overview of the available data and geological as well as temperature models.
Finite element simulation of permeable fault influence on a medium deep borehole thermal energy storage system
TL;DR: In this article , a medium deep borehole thermal energy storage system with a depth of 750 m is under construction at Campus Lichtwiese in Darmstadt, Germany, to demonstrate this innovative technology.
Techno-Economic Assessment of Geothermal Resources in the Variscan Basement of the Northern Upper Rhine Graben
M. Frey,Jeroen van der Vaart,Kristian Bär,Claire Bossennec,Philippe Calcagno,Chrystel Dezayes,Ingo Sass +6 more
TL;DR: In this article , an interdisciplinary approach for a techno-economic resource assessment was applied to provide stakeholders with a more reliable basis for decision-making in the Northern Upper Rhine Graben.
Mapping Buried Fault Zones in a Granitic Pluton Using Aeromagnetic Data
TL;DR: In this paper , a drone-based aeromagnetic survey was conducted in March 2022, covering an area of about 13.3 km 2 in the center of the Tromm Granite at the northwestern margin of the Upper Rhine Graben was preselected as one of two potential sites for GeoLaB.
Assessment of a medium-deep borehole thermal energy storage site in the crystalline basement: A case study of the demo site Lichtwiese Campus, Darmstadt
Lukas Seib,M. Frey,Claire Bossennec,Matthias Krusemark,Thomas Burschil,Hermann Buness,L. Weydt,Ingo Sass +7 more
TL;DR: A medium-deep borehole thermal energy storage site in crystalline basement rock was assessed at the Lichtwiese Campus, Darmstadt, using integrated geophysical and drilling data, optimizing site characterization and informing future project planning in heterogeneous settings.
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