2015
DOI: 10.1007/s12517-015-1998-x
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Temperature and radon-222 as tracer of groundwater flow: application to El Hamma geothermal aquifer system, southeastern Tunisia

Abstract: Hydrogeological and hydrochemical investigations were applied to explain geothermal groundwater flow factors controlling groundwater mineralization, and 222 Rn concentrations were controlled using RAD7-H 2 O in El Hamma aquifer system, southeastern Tunisia. Nineteen geothermal water samples were collected from different locations (thermal baths and deep wells). Physical parameters (EC, pH, TDS, T) were measured, and major ions were analyzed. Hydrogeochemical modeling and thermal parameters reveal that groundwa… Show more

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Cited by 14 publications
(1 citation statement)
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“…This trend of hydraulic turnover time can also be confirmed by the results obtained for Group V (Table S24), where springs with longer hydraulic turnover time have low radon concentrations and vice versa. All these considerations are also confirmed by Choubey et al [31] and Belgacem et al [103] where they claim that radon levels in groundwater are highly variable following its genetic type and depth of groundwater circulation. It is also important to highlight that it is intended in the future to apply for this entire region an innovative model (LIFI-PATRAM) that integrated an AEM flow solution to simulate the flow and transport of radioactive contaminants [104].…”
Section: General Analysis Of Pls-pm Resultsmentioning
confidence: 61%
“…This trend of hydraulic turnover time can also be confirmed by the results obtained for Group V (Table S24), where springs with longer hydraulic turnover time have low radon concentrations and vice versa. All these considerations are also confirmed by Choubey et al [31] and Belgacem et al [103] where they claim that radon levels in groundwater are highly variable following its genetic type and depth of groundwater circulation. It is also important to highlight that it is intended in the future to apply for this entire region an innovative model (LIFI-PATRAM) that integrated an AEM flow solution to simulate the flow and transport of radioactive contaminants [104].…”
Section: General Analysis Of Pls-pm Resultsmentioning
confidence: 61%