Coupling flow, heat, and reactive transport modeling to reproduce in situ redox potential evolution: application to an infiltration pond
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hdl:2117/346778
Tipus de documentArticle
Data publicació2020-10
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ProjecteATENUACION NATURAL DE PATOGENOS Y CONTAMINANTES ORGANICOS EN MEDIO POROSO DURANTE OPERACIONES DE RECARGA GESTIONADA DE ACUIFEROS (AEI-RTI2018-101990-B-I00)
RECARGA GESTIONADA DE ACUIFEROS: ABORDANDO LOS RIESGOS ASOCIADOS A LA RECARGA DE AGUAS REGENERADAS (AEI-PCI2019-103425)
RECARGA GESTIONADA DE ACUIFEROS: ABORDANDO LOS RIESGOS ASOCIADOS A LA RECARGA DE AGUAS REGENERADAS (AEI-PCI2019-103425)
Abstract
Redox potential (Eh) measurements are widely used as indicators of the dominant reduction–oxidation reactions occurring underground. Yet, Eh data are mostly used in qualitative terms, as actual values cannot be used to distinguish uniquely the dominant redox processes at a sampling point and should therefore be combined with a detailed geochemical characterization of water samples. In this work, we have intensively characterized the redox potential of the first meter of soil in an infiltration pond recharged with river water using a set of in situ sensors measuring every 12 min during a 1 year period. This large amount of data combined with hydrogeochemical campaigns allowed developing a reactive transport model capable of reproducing the redox potential in space and time together with the site hydrochemistry. Our results showed that redox processes were mainly driven by the amount of sedimentary organic matter in the system as well as by seasonal variation of temperature. As a subsidiary result, our work emphasizes the need to use a fully coupled model of flow, heat transport, solute transport, and the geochemical reaction network to fully reproduce the Eh observations in the topsoil.
Descripció
This document is the unedited Author’s version of a Submitted Work that was subsequently accepted for publication in Environmental science & technology, copyright © American Chemical Society after peer review. To access the final edited and published work see https://pubs.acs.org/doi/10.1021/acs.est.0c03056
CitacióRodríguez-Escales, P. [et al.]. Coupling flow, heat, and reactive transport modeling to reproduce in situ redox potential evolution: application to an infiltration pond. "Environmental science and technology", Octubre 2020, vol. 54, núm. 19, p. 12092-12101.
ISSN0013-936X
Versió de l'editorhttps://pubs.acs.org/doi/10.1021/acs.est.0c03056
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