Matteo Baralis scite author profile

Shallow geothermal energy is currently adopted in many countries for the heating and cooling of buildings. Interactions between close geothermal plants will become more and more relevant as a result of the widespread dissemination of such systems. This paper describes a preliminary investigation of the interactions at the city scale. The case study of a central district in the city of Turin (Italy) is considered. Data from existing installations were collected and thermo-hydro finite element analyses were conducted to establish the actual ground thermal conditions and predict their evolution. This allowed identification of the areas of the city where temperature anomalies could be expected, because of thermal exploitation.

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Geothermal potential of the NE extension Warsaw (Poland) metro tunnels

Baralis

Barla

Bogusz

et al. 2020

Environmental Geotechnics

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Thermoactive geostructures are considered an economically suitable and environment-friendly solution for heating and cooling buildings. Energy tunnels have gained growing interest in recent years because of the large ground volume involved in heat exchange in comparison to building foundations. Heat exchange is obtained by embedding a circuit of pipes into the precast concrete lining, resulting in a reduction of the initial costs of installation with respect to standard low-enthalpy geothermal solutions. In this paper, thermal activation of the twin tunnels of the II line of Warsaw metro, Poland, is considered with the aim of evaluating the geothermal potential of the line. Thermohydraulic finite-element analyses were performed on a number of representative cross-sections, considering site-specific hydrogeological conditions based on the Engineering Geological Database of the Capital City of Warsaw. Results demonstrate that the thermal activation of the two 1·6 km-long tunnels could exchange up to 5·3 and 5·8 GWh in the heating and cooling seasons, respectively. Furthermore, the influence of the local geological conditions on the exchangeable heat rate was investigated. The results form a basis for a preliminary assessment of the shallow geothermal energy utilisation potential for the design of further extensions of the metro line in Warsaw.

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Geothermal potential of tunnel infrastructures – development of tools at the city-scale of Basel, Switzerland

Epting

Baralis

Künze³

et al. 2020

Geothermics

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Feasibility study for the thermal activation of Turin Metro Line 2

Barla¹,

Baralis²,

Insana³

et al. 2020

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Matteo Baralis

A review of the legal framework in shallow geothermal energy in selected European countries: Need for guidelines

City-scale analysis of subsoil thermal conditions due to geothermal exploitation

Geothermal potential of the NE extension Warsaw (Poland) metro tunnels

Geothermal potential of tunnel infrastructures – development of tools at the city-scale of Basel, Switzerland

Feasibility study for the thermal activation of Turin Metro Line 2

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