Michele Chieco scite author profile

Abstract:The Cesine Wetland, located along the Adriatic coast, was recognized as a Wetland of International Interest and a National Natural Park. Managed by the "World Wide Fund for nature" (WWF), it is considered a groundwater dependent ecosystem which is affected by seawater intrusion. The site was selected to test the environmental compatibility of a low-enthalpy geothermal power plant (closed loop) operating in the aquifer saturated portion with purpose to improving the visitor centre. For this purpose, the long-lasting thermal impact on groundwater was assessed using a multi-methodological approach. The complex aquifer system was carefully studied with geological, hydrogeological and geochemical surveys, including chemical and isotopic laboratory analyses of surface water, groundwater and seawater. The isotopes δ 18 O, δD, δ 11 B, and 3 H were useful to clarify the recharge contribution, the water mixing and the water age. All information was used to improve the conceptualization of the water system, including aquifers and the boundary conditions for a density driven numerical groundwater model. The purpose was to forecast anthropogenic thermal groundwater variations up to 10 years of plant working before the plant realization and to validate the solution after some working years. All results show the environmental compatibility notwithstanding the peculiar ecological environment.

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How to boost shallow geothermal energy exploitation in the adriatic area: the LEGEND project experience

Tinti

Annamaria

Martina

et al. 2016

Energy Policy

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First Outcomes of a Project Dedicated to Monitoring Groundwater Resources in Apulia, Southern Italy

Parise

Benedetto²,

Chieco

et al. 2019

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Heat exchange modeling in a multilayered karst aquifer affected by seawater intrusion

Vettorello¹,

Pedron²,

Sottani³

et al. 2015

AS-ITJGW

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A Feflow thermohaline model has been implemented in order to study borehole heat exchangers (BHEs) activity in a coastal aquifer in the South of Italy (Province of Lecce, Puglia Region). The modeled closed-loop system consists of two double u-pipe heat exchangers, installed in 200 meters deep boreholes. The main purpose of numerical modeling was to forecast thermal plume extension in groundwater after a long period of heat exchange, calculating temperature trends in observation points during a 10 years transport simulation. The complex geological structure, including calcarenites, fractured limestones and a deep karst aquifer, has been translated into a multilayered model, with a depth-related parameter distribution, assigning different values of hydraulic, thermal and chemical properties to each layer. In particular saltwater concentration has been taken into account, considering the influence of seawater intrusion on the heat transport density-dependent model. Parameters assignment was based on experimental datasets collected during initial field investigations, including thermal characterization of soil samples and GRTs, together with historical hydrogeological and hydrochemical measures and previous groundwater surveys. After model structure configuration and aquifers parameterization, a sensitivity analysis on porosity and heat dispersivity has been conducted, to evaluate their influence on thermal transport phenomena with a multiple scenarios approach, considering in particular the uncertainty related to secondary porosity in karst systems. Feflow simulation represented the first step in environmental compatibility evaluation for the BHE plant, waiting for the necessary model calibration with groundwater temperature monitoring trends.

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Michele Chieco

Underground Geosites and Caving Speleotourism: Some Considerations, From a Case Study in Southern Italy

The Compatibility of Geothermal Power Plants with Groundwater Dependent Ecosystems: The Case of the Cesine Wetland (Southern Italy)

How to boost shallow geothermal energy exploitation in the adriatic area: the LEGEND project experience

First Outcomes of a Project Dedicated to Monitoring Groundwater Resources in Apulia, Southern Italy

Heat exchange modeling in a multilayered karst aquifer affected by seawater intrusion

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