Modeling of natural organic matter transport processes in groundwater.

A forced-gradient tracer test was conducted at the Georgetown site to study the transport of natural organic matter (NOM) in groundwater. In particular, the goal of this experiment was to investigate the interactions between NOM and the aquifer matrix. A detailed three-dimensional characterization o...

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Detalles Bibliográficos
Autores principales: Yeh, T C, Mas-Pla, J, McCarthy, J F, Williams, T M
Formato: Texto
Lenguaje:English
Publicado: 1995
Materias:
Research Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC1519339/
https://www.ncbi.nlm.nih.gov/pubmed/7621798
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author Yeh, T C
Mas-Pla, J
McCarthy, J F
Williams, T M
author_facet Yeh, T C
Mas-Pla, J
McCarthy, J F
Williams, T M
author_sort Yeh, T C
collection PubMed
description A forced-gradient tracer test was conducted at the Georgetown site to study the transport of natural organic matter (NOM) in groundwater. In particular, the goal of this experiment was to investigate the interactions between NOM and the aquifer matrix. A detailed three-dimensional characterization of the hydrologic conductivity heterogeneity of the site was obtained using slug tests. The transport of a conservative tracer (chloride) was successfully reproduced using these conductivity data. Despite the good simulation of the flow field, NOM breakthrough curves could not be reproduced using a two-site sorption model with spatially constant parameters. Preliminary results suggest that different mechanisms for the adsorption/desorption processes, as well as their spatial variability, may significantly affect the transport and fate of NOM.
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spelling pubmed-15193392006-07-28 Modeling of natural organic matter transport processes in groundwater. Yeh, T C Mas-Pla, J McCarthy, J F Williams, T M Environ Health Perspect Research Article A forced-gradient tracer test was conducted at the Georgetown site to study the transport of natural organic matter (NOM) in groundwater. In particular, the goal of this experiment was to investigate the interactions between NOM and the aquifer matrix. A detailed three-dimensional characterization of the hydrologic conductivity heterogeneity of the site was obtained using slug tests. The transport of a conservative tracer (chloride) was successfully reproduced using these conductivity data. Despite the good simulation of the flow field, NOM breakthrough curves could not be reproduced using a two-site sorption model with spatially constant parameters. Preliminary results suggest that different mechanisms for the adsorption/desorption processes, as well as their spatial variability, may significantly affect the transport and fate of NOM. 1995-02 /pmc/articles/PMC1519339/ /pubmed/7621798 Text en
spellingShingle Research Article
Yeh, T C
Mas-Pla, J
McCarthy, J F
Williams, T M
Modeling of natural organic matter transport processes in groundwater.
title Modeling of natural organic matter transport processes in groundwater.
title_full Modeling of natural organic matter transport processes in groundwater.
title_fullStr Modeling of natural organic matter transport processes in groundwater.
title_full_unstemmed Modeling of natural organic matter transport processes in groundwater.
title_short Modeling of natural organic matter transport processes in groundwater.
title_sort modeling of natural organic matter transport processes in groundwater.
topic Research Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC1519339/
https://www.ncbi.nlm.nih.gov/pubmed/7621798
work_keys_str_mv AT yehtc modelingofnaturalorganicmattertransportprocessesingroundwater
AT masplaj modelingofnaturalorganicmattertransportprocessesingroundwater
AT mccarthyjf modelingofnaturalorganicmattertransportprocessesingroundwater
AT williamstm modelingofnaturalorganicmattertransportprocessesingroundwater

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