With an increasing demand for low-carbon energy solutions, industrial development of geothermal resources is accelerating. Current advancements target conventional hydrothermal systems, as well as the more unconventional systems (e.g., Enhanced Geothermal Systems, super-hot, pressurized and co-produced, super-critical systems). Geothermal energy can be extracted from various, often complex geological settings, both on- and offshore, such as shallow wells in magmatic systems and deep wells focusing on sedimentary basins.
Optimum efficiency requires advanced understanding of the properties of the entire geothermal system, including thermo-/petro-physical conditions, fluid composition; structural and hydrological features; and engineering challenges (e.g., those produced by hydraulic stimulation / induced seismicity or related to multiphase fluids and scaling processes). This needs to be combined with knowledge of heat sources and recharge areas, and an integral understanding on how the different elements connect within one system. In geothermal exploration and production the integration of analogue field studies with real-life production data, from industrial as well as research sites, and the combination with numerical models (both as joint and constrained inversion), are a hot topic worldwide.
With this session we aim to gather field, laboratory and numerical experts who focus their research on geothermal sites, to stimulate discussion in this multi-disciplinary environment. We seek for contributions from all disciplines, ranging from field data (e.g., production and well data) to laboratory experiments and numerical models