During the last decades, the increasing number of co-generation plants and solar thermal systems developed worldwide and the need for more efficient energy use in buildings and cooling made the employment of Underground Thermal Energy Storage (UTES) systems increasingly interesting. The possibility to store the waste heat and the excessive heat production generated by solar panels, biomass plants, and industrial processes in the underground in the warm season to recover it during cold periods, enables energy cost savings and reduction of greenhouse gas emissions. However, the thermal efficiency of storage is strictly dependent on the different geological conditions characterizing the territory. Among others, one of the key priorities for the proper assessment of the heat storage suitability in the underground is the knowledge of the thermal properties of rocks and sediments, as heat capacity and thermal conductivity, necessary to quantify the heat storage capability and the potential losses of the system. This paper aims to show the first results related to the thermal characterization of several lithotypes belonging to Eastern Italian Alps. Moreover, an example of subsoil thermal properties mapping through geographical information systems (GIS) is presented. These maps allow to obtain a low enthalpy geothermal cartography and constitutes an important support, suited to real underground conditions, for UTES plants design and for policy makers taking decisions concerning promoting and control diffusion of the shallow geothermal solutions.

UTES Capability Evaluation and Mapping

Di Sipio, Eloisa;DE CARLI, MICHELE;ZARRELLA, ANGELO;EMMI, GIUSEPPE;
2015-01-01

Abstract

During the last decades, the increasing number of co-generation plants and solar thermal systems developed worldwide and the need for more efficient energy use in buildings and cooling made the employment of Underground Thermal Energy Storage (UTES) systems increasingly interesting. The possibility to store the waste heat and the excessive heat production generated by solar panels, biomass plants, and industrial processes in the underground in the warm season to recover it during cold periods, enables energy cost savings and reduction of greenhouse gas emissions. However, the thermal efficiency of storage is strictly dependent on the different geological conditions characterizing the territory. Among others, one of the key priorities for the proper assessment of the heat storage suitability in the underground is the knowledge of the thermal properties of rocks and sediments, as heat capacity and thermal conductivity, necessary to quantify the heat storage capability and the potential losses of the system. This paper aims to show the first results related to the thermal characterization of several lithotypes belonging to Eastern Italian Alps. Moreover, an example of subsoil thermal properties mapping through geographical information systems (GIS) is presented. These maps allow to obtain a low enthalpy geothermal cartography and constitutes an important support, suited to real underground conditions, for UTES plants design and for policy makers taking decisions concerning promoting and control diffusion of the shallow geothermal solutions.
2015
9781877040023
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11578/334129
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