Solute Trapping and the Mechanisms of Non-Fickian Transport in Partially Saturated Porous Media
We study the upscaling of pore-scale solute transport in partially saturated porous media at different saturation degrees. The interaction between structural heterogeneity, phases distribution and small-scale flow dynamics induces complex flow patterns and broad probability distributions of flow, which control key aspects of transport, such as residence and arrival times, dispersion, and spatial solute distributions, as well as chemical reactions. A continuous-time random walk (CTRW) framework that integrates the processes of advection, diffusion, and trapping in immobile zones is used to upscale and evaluate the transport of diluted solutes. Results of this model were compared to direct numerical simulations solving the advection-diffusion equation in experimental saturation patterns. The comparison between simulations results, with different Péclet numbers (Pe), and the physics-based upscaled CTRW approach allows for a quantitative analysis of the governing factors of transport in partially saturated porous media. This analysis shows that the fluid phase saturation decreases the advective tortuosity, the media's characteristic length, the fraction of the immobile region, and the mean trapping time. At the same time, for a given saturation degree, the normalized mean trapping time is proportional to the Pe. This suggests that the characteristic trapping length is proportional to the media's characteristic (correlation) length. Moreover, the trapping frequency decreases with increasing Pe.
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Wiley-Blackwell
2023-02-01
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| Subjects: | Non-Fickian Transport, Porous media, |
| Online Access: | http://hdl.handle.net/10261/303482 http://dx.doi.org/10.13039/501100004837 https://api.elsevier.com/content/abstract/scopus_id/85148751922 |
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dig-idaea-es-10261-3034822024-10-26T20:55:55Z Solute Trapping and the Mechanisms of Non-Fickian Transport in Partially Saturated Porous Media Ben-Noah, Ilan Hidalgo, Juan J. Jimenez-Martinez, Joaquin Dentz, Marco Ministerio de Ciencia e Innovación (España) 0000-0003-1073-8300 0000-0003-3797-7088 0000-0002-2063-6490 0000-0002-3940-282X Consejo Superior de Investigaciones Científicas [https://ror.org/02gfc7t72] Non-Fickian Transport Porous media We study the upscaling of pore-scale solute transport in partially saturated porous media at different saturation degrees. The interaction between structural heterogeneity, phases distribution and small-scale flow dynamics induces complex flow patterns and broad probability distributions of flow, which control key aspects of transport, such as residence and arrival times, dispersion, and spatial solute distributions, as well as chemical reactions. A continuous-time random walk (CTRW) framework that integrates the processes of advection, diffusion, and trapping in immobile zones is used to upscale and evaluate the transport of diluted solutes. Results of this model were compared to direct numerical simulations solving the advection-diffusion equation in experimental saturation patterns. The comparison between simulations results, with different Péclet numbers (Pe), and the physics-based upscaled CTRW approach allows for a quantitative analysis of the governing factors of transport in partially saturated porous media. This analysis shows that the fluid phase saturation decreases the advective tortuosity, the media's characteristic length, the fraction of the immobile region, and the mean trapping time. At the same time, for a given saturation degree, the normalized mean trapping time is proportional to the Pe. This suggests that the characteristic trapping length is proportional to the media's characteristic (correlation) length. Moreover, the trapping frequency decreases with increasing Pe. I.B.N and M.D. acknowledge funding from the European Union's Horizon 2020 research and innovation programme under the Marie Sklodowska-Curie Grant HORIZON-MSCA-2021-PF-01 (USFT). I.B.N., J.J.H., and M.D. acknowledge the support of the Spanish Research Agency (10.13039/501100011033), Spanish Ministry of Science and Innovation through Grants CEX2018-000794-S and HydroPore PID2019-106887GB-C31. J.J.H. acknowledges the support of the Spanish Research Agency (10.13039/501100011033), the Spanish Ministry of Science and Innovation and the European Social Fund “Investing in your future” through the “Ramón y Cajal” fellowship (RYC-2017-22300). J.J.-M. gratefully acknowledges the financial support from the Swiss National Science Foundation (SNF, Grant 200021_178986). The authors would like to thank Lazaro J. Perez for his help with image processing. Peer reviewed 2023-03-17T10:49:08Z 2023-03-17T10:49:08Z 2023-02-01 artículo http://purl.org/coar/resource_type/c_6501 Water Resources Research 59 (2): e2022WR033613 (2023) 00431397 http://hdl.handle.net/10261/303482 10.1029/2022WR033613 http://dx.doi.org/10.13039/501100004837 2-s2.0-85148751922 https://api.elsevier.com/content/abstract/scopus_id/85148751922 en #PLACEHOLDER_PARENT_METADATA_VALUE# info:eu-repo/grantAgreement/MCIN/AEI/10.13039/501100011033 Water Resources Research Publisher's version Sí open Wiley-Blackwell |
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Non-Fickian Transport Porous media Non-Fickian Transport Porous media Ben-Noah, Ilan Hidalgo, Juan J. Jimenez-Martinez, Joaquin Dentz, Marco Solute Trapping and the Mechanisms of Non-Fickian Transport in Partially Saturated Porous Media |
| description |
We study the upscaling of pore-scale solute transport in partially saturated porous media at different saturation degrees. The interaction between structural heterogeneity, phases distribution and small-scale flow dynamics induces complex flow patterns and broad probability distributions of flow, which control key aspects of transport, such as residence and arrival times, dispersion, and spatial solute distributions, as well as chemical reactions. A continuous-time random walk (CTRW) framework that integrates the processes of advection, diffusion, and trapping in immobile zones is used to upscale and evaluate the transport of diluted solutes. Results of this model were compared to direct numerical simulations solving the advection-diffusion equation in experimental saturation patterns. The comparison between simulations results, with different Péclet numbers (Pe), and the physics-based upscaled CTRW approach allows for a quantitative analysis of the governing factors of transport in partially saturated porous media. This analysis shows that the fluid phase saturation decreases the advective tortuosity, the media's characteristic length, the fraction of the immobile region, and the mean trapping time. At the same time, for a given saturation degree, the normalized mean trapping time is proportional to the Pe. This suggests that the characteristic trapping length is proportional to the media's characteristic (correlation) length. Moreover, the trapping frequency decreases with increasing Pe. |
| author2 |
Ministerio de Ciencia e Innovación (España) |
| author_facet |
Ministerio de Ciencia e Innovación (España) Ben-Noah, Ilan Hidalgo, Juan J. Jimenez-Martinez, Joaquin Dentz, Marco |
| format |
artículo |
| topic_facet |
Non-Fickian Transport Porous media |
| author |
Ben-Noah, Ilan Hidalgo, Juan J. Jimenez-Martinez, Joaquin Dentz, Marco |
| author_sort |
Ben-Noah, Ilan |
| title |
Solute Trapping and the Mechanisms of Non-Fickian Transport in Partially Saturated Porous Media |
| title_short |
Solute Trapping and the Mechanisms of Non-Fickian Transport in Partially Saturated Porous Media |
| title_full |
Solute Trapping and the Mechanisms of Non-Fickian Transport in Partially Saturated Porous Media |
| title_fullStr |
Solute Trapping and the Mechanisms of Non-Fickian Transport in Partially Saturated Porous Media |
| title_full_unstemmed |
Solute Trapping and the Mechanisms of Non-Fickian Transport in Partially Saturated Porous Media |
| title_sort |
solute trapping and the mechanisms of non-fickian transport in partially saturated porous media |
| publisher |
Wiley-Blackwell |
| publishDate |
2023-02-01 |
| url |
http://hdl.handle.net/10261/303482 http://dx.doi.org/10.13039/501100004837 https://api.elsevier.com/content/abstract/scopus_id/85148751922 |
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1816138018915876864 |