GNGTS 2024 - Atti del 42° Convegno Nazionale

Session 3.1 GNGTS 2024 Stakeholders will have the opportunity to compute the potental for any area where deep geological and thermal models will be available. The research units involved into the project will contnue to improve the GEOTHERMOS tool by insertng their data also for other regions in Italy and will invite the scientfc and industrial community to contribute to the feasibility. Acknowledgements The InGEO project has received founding from the European Union – NextGeneratonEU References Gola, G., Di Sipio, E., Facci, M., Galgaro, A., & Manzella, A. (2022). Geothermal deep closed-loop heat exchangers: A novel technical potental evaluaton to answer the power and heat demands. Renewable Energy, 198, 1193–1209. htps://doi.org/10.1016/j.renene.2022.08.071 Spada, M., Bianchi, I., Kissling, E., Piana Agostnet, N., Wiemer, S., 2013. Combiningcontrolled- source seismology and receiver functon informaton to derive 3-DMoho topography for Italy. Geophys. J. Int. htp://dx.doi.org/10.1093/gji/ggt148 Pasquale, V., Chiozzi, P., Verdoya, M. (2013). Evidence for thermal convecton in the deep carbonate aquifer of the eastern sector of the Po Plain, Italy. Tectonophysics, 594, 1-12. htps:// doi.org/10.1016/j.tecto.2013.03.011 Trumpy, E., Boteghi, S., Caiozzi, F., Donato, A., Gola, G., Montanari, D., Pluymaekers, M.P.D., Santlano, A., van Wees, J.D., Manzella, A. (2016). Geothermal potental assessment for a low carbon strategy: A new systematc approach applied in southern Italy. Energy, 103, 167-181. htps://doi.org/10.1016/j.energy.2016.02.144 Corresponding author: gianluca.gola@igg.cnr.it