GNGTS 2024 - Atti del 42° Convegno Nazionale

Session 3.1 GNGTS 2024 Figure 1. Area of study (doted rectangle) and locaton of the selected deep boreholes as functon of the total depth (meters below ground level). The project will demonstrate an innovatve exploraton workfow to integrate geophysical data (e.g. Spada et al., 2013; Magnoni et al., 2022) to reconstruct the crustal and subcrustal structures (Figure 2). Moreover, taking advantage of the diferent sensitvity that geophysical data have on physical rock's parameters (temperature and compositon), the optmized geological and thermal models will be the input of the resource assessment. The calculaton of the deep geothermal energy potental for hydrothermal systems, deep closed-loop heat exchangers and thermal storage technologies will be performed by developing an open-source and web-based GIS tool, namely GEOTHERMOS. Figure 2. Distributon of the seismic velocites (Vp on the lef, Vs on the right) beneath the area of study (from Magnoni et al., 2022). The project is expected to have a signifcant impact on the geothermal community. The outcomes of InGEO are designed for use by investors, regulators, governments and consumers. InGEO sets the cornerstone for comprehensive deep geothermal potental estmaton at the regional level.