Shallow groundwater temperature in the Turin area (NW Italy): vertical distribution and anthropogenic effects

This study investigated the thermal regime of shallow groundwater in the Turin area (NW Italy), where the large energy demand has motivated a new interest for renewable sources, such as the use of ground-source heat pumps for domestic heating and cooling. The vertical variability of the groundwater...

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Bibliographic Details
Published in:Environmental earth sciences 2017-03, Vol.76 (5), p.1, Article 221
Main Authors: Bucci, Arianna, Barbero, Diego, Lasagna, Manuela, Forno, M. Gabriella, De Luca, Domenico Antonio
Format: Article
Language:English
Subjects:
Anthropogenic factors
Aquifers
Biogeosciences
Cooling
Earth and Environmental Science
Earth Sciences
Energy demand
Environmental Science and Engineering
Geochemistry
Geology
Groundwater
Groundwater flow
Heat exchangers
Heat transport
Heating
Human influences
Hydrology/Water Resources
Land surface temperature
Original Article
Rural areas
Seasonal variations
Terrestrial Pollution
Urban heat islands
Vertical distribution
Water temperature
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Summary:This study investigated the thermal regime of shallow groundwater in the Turin area (NW Italy), where the large energy demand has motivated a new interest for renewable sources, such as the use of ground-source heat pumps for domestic heating and cooling. The vertical variability of the groundwater temperature between the ground surface and 10–20 m was detected: deeper temperatures were higher than shallow temperatures in spring, while a decrease with depth occurred in autumn. These variations are connected with the heating and cooling cycles of the ground surface due to the seasonal temperature oscillation. Variations below the seasonal oscillation are likely to be connected with the presence of advective heat transport due to the groundwater flow, according to the hydraulic features of a shallow aquifer. Temperature values mostly ranged between 12 and 14 °C in rural areas, while the values were between 14 and 16 °C below the Turin city. This groundwater warming is attributed to a widespread urban heat island phenomenon linked to warmer land surface temperatures in Turin city. Sparse warm outliers are connected with point heat sources and site-specific conditions of land and subsurface use, which may cause the aquifer temperature to rise. A relatively stable temperature below the seasonal fluctuation zone combined with high productivity and legislated limits for deeper groundwater use represent favourable conditions for a large-scale diffusion of groundwater heat pumps within the shallow aquifer. Moreover, this heat surplus should be regarded as a resource for future geothermal installations.
ISSN:1866-6280
1866-6299
DOI:10.1007/s12665-017-6546-4