Mixing in Porous Media: Concepts and Approaches Across Scales

Mixing in Porous Media: Concepts and Approaches Across Scales

This review provides an overview of concepts and approaches for the quantification of passive, non-reactive solute mixing in steady uniform porous media flows across scales. Mixing in porous media is the result of the interaction of spatial velocity fluctuations and diffusion or local-scale dispersion, which may lead to the homogenization of an initially segregated system. Velocity fluctuations are induced by spatial medium heterogeneities at the pore, Darcy or regional scales. Thus, mixing in porous media is a multiscale process, which depends on the medium structure and flow conditions. In the first part of the review, we discuss the interrelated processes of stirring, dispersion and mixing, and review approaches to quantify them that apply across scales. This implies concepts of hydrodynamic dispersion, approaches to quantify mixing state and mixing dynamics in terms of concentration statistics, and approaches to quantify the mechanisms of mixing. We review the characterization of stirring in terms of fluid deformation and folding and its relation with hydrodynamic dispersion. The integration of these dynamics to quantify the mechanisms of mixing is discussed in terms of lamellar mixing models. In the second part of this review, we discuss these concepts and approaches for the characterization of mixing in Poiseuille flow, and in porous media flows at the pore, Darcy and regional scales. Due to the fundamental nature of the mechanisms and processes of mixing, the concepts and approaches discussed in this review underpin the quantitative analysis of mixing phenomena in porous media flow systems in general.

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Bibliographic Details
Main Authors: Dentz, Marco, Hidalgo, Juan J., Lester, Daniel
Other Authors: Ministerio de Ciencia e Innovación (España)
Format: artículo biblioteca
Language:English
Published: Springer Nature 2022-10-15
Subjects:Upscaling, Concentration PDF, Darcy scale, Effective dispersion, Flow kinematics, Hydrodynamic dispersion, Lamellar mixing, Mixing, Mixing models, Pore scale, Porous media, Stirring,
Online Access:http://hdl.handle.net/10261/282456
http://dx.doi.org/10.13039/501100004837
https://api.elsevier.com/content/abstract/scopus_id/85140043995
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spelling dig-idaea-es-10261-2824562024-10-26T21:05:30Z Mixing in Porous Media: Concepts and Approaches Across Scales Dentz, Marco Hidalgo, Juan J. Lester, Daniel Ministerio de Ciencia e Innovación (España) 0000-0002-3940-282X Consejo Superior de Investigaciones Científicas [https://ror.org/02gfc7t72] Upscaling Concentration PDF Darcy scale Effective dispersion Flow kinematics Hydrodynamic dispersion Lamellar mixing Mixing Mixing models Pore scale Porous media Stirring This review provides an overview of concepts and approaches for the quantification of passive, non-reactive solute mixing in steady uniform porous media flows across scales. Mixing in porous media is the result of the interaction of spatial velocity fluctuations and diffusion or local-scale dispersion, which may lead to the homogenization of an initially segregated system. Velocity fluctuations are induced by spatial medium heterogeneities at the pore, Darcy or regional scales. Thus, mixing in porous media is a multiscale process, which depends on the medium structure and flow conditions. In the first part of the review, we discuss the interrelated processes of stirring, dispersion and mixing, and review approaches to quantify them that apply across scales. This implies concepts of hydrodynamic dispersion, approaches to quantify mixing state and mixing dynamics in terms of concentration statistics, and approaches to quantify the mechanisms of mixing. We review the characterization of stirring in terms of fluid deformation and folding and its relation with hydrodynamic dispersion. The integration of these dynamics to quantify the mechanisms of mixing is discussed in terms of lamellar mixing models. In the second part of this review, we discuss these concepts and approaches for the characterization of mixing in Poiseuille flow, and in porous media flows at the pore, Darcy and regional scales. Due to the fundamental nature of the mechanisms and processes of mixing, the concepts and approaches discussed in this review underpin the quantitative analysis of mixing phenomena in porous media flow systems in general. M.D. and J.J.H. acknowledge the support of the Spanish Research Agency (10.13039/501100011033), Spanish Ministry of Science through grants CEX2018-000794-S and HydroPore PID2019-106887GB-C31. J.J.H. acknowledges the sup- port 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). Peer reviewed 2022-11-08T08:18:00Z 2022-11-08T08:18:00Z 2022-10-15 artículo http://purl.org/coar/resource_type/c_6501 Transport in Porous Media (2022) 01693913 http://hdl.handle.net/10261/282456 10.1007/s11242-022-01852-x http://dx.doi.org/10.13039/501100004837 2-s2.0-85140043995 https://api.elsevier.com/content/abstract/scopus_id/85140043995 en #PLACEHOLDER_PARENT_METADATA_VALUE# info:eu-repo/grantAgreement/MCIN/AEI/10.13039/501100011033 Transport in Porous Media Publisher's version https://doi.org/10.1007/s11242-022-01852-x Sí open Springer Nature
institution IDAEA ES
collection DSpace
country España
countrycode ES
component Bibliográfico
access En linea
databasecode dig-idaea-es
tag biblioteca
region Europa del Sur
libraryname Biblioteca del IDAEA España
language English
topic Upscaling
Concentration PDF
Darcy scale
Effective dispersion
Flow kinematics
Hydrodynamic dispersion
Lamellar mixing
Mixing
Mixing models
Pore scale
Porous media
Stirring
Upscaling
Concentration PDF
Darcy scale
Effective dispersion
Flow kinematics
Hydrodynamic dispersion
Lamellar mixing
Mixing
Mixing models
Pore scale
Porous media
Stirring
spellingShingle Upscaling
Concentration PDF
Darcy scale
Effective dispersion
Flow kinematics
Hydrodynamic dispersion
Lamellar mixing
Mixing
Mixing models
Pore scale
Porous media
Stirring
Upscaling
Concentration PDF
Darcy scale
Effective dispersion
Flow kinematics
Hydrodynamic dispersion
Lamellar mixing
Mixing
Mixing models
Pore scale
Porous media
Stirring
Dentz, Marco
Hidalgo, Juan J.
Lester, Daniel
Mixing in Porous Media: Concepts and Approaches Across Scales
description This review provides an overview of concepts and approaches for the quantification of passive, non-reactive solute mixing in steady uniform porous media flows across scales. Mixing in porous media is the result of the interaction of spatial velocity fluctuations and diffusion or local-scale dispersion, which may lead to the homogenization of an initially segregated system. Velocity fluctuations are induced by spatial medium heterogeneities at the pore, Darcy or regional scales. Thus, mixing in porous media is a multiscale process, which depends on the medium structure and flow conditions. In the first part of the review, we discuss the interrelated processes of stirring, dispersion and mixing, and review approaches to quantify them that apply across scales. This implies concepts of hydrodynamic dispersion, approaches to quantify mixing state and mixing dynamics in terms of concentration statistics, and approaches to quantify the mechanisms of mixing. We review the characterization of stirring in terms of fluid deformation and folding and its relation with hydrodynamic dispersion. The integration of these dynamics to quantify the mechanisms of mixing is discussed in terms of lamellar mixing models. In the second part of this review, we discuss these concepts and approaches for the characterization of mixing in Poiseuille flow, and in porous media flows at the pore, Darcy and regional scales. Due to the fundamental nature of the mechanisms and processes of mixing, the concepts and approaches discussed in this review underpin the quantitative analysis of mixing phenomena in porous media flow systems in general.
author2 Ministerio de Ciencia e Innovación (España)
author_facet Ministerio de Ciencia e Innovación (España)
Dentz, Marco
Hidalgo, Juan J.
Lester, Daniel
format artículo
topic_facet Upscaling
Concentration PDF
Darcy scale
Effective dispersion
Flow kinematics
Hydrodynamic dispersion
Lamellar mixing
Mixing
Mixing models
Pore scale
Porous media
Stirring
author Dentz, Marco
Hidalgo, Juan J.
Lester, Daniel
author_sort Dentz, Marco
title Mixing in Porous Media: Concepts and Approaches Across Scales
title_short Mixing in Porous Media: Concepts and Approaches Across Scales
title_full Mixing in Porous Media: Concepts and Approaches Across Scales
title_fullStr Mixing in Porous Media: Concepts and Approaches Across Scales
title_full_unstemmed Mixing in Porous Media: Concepts and Approaches Across Scales
title_sort mixing in porous media: concepts and approaches across scales
publisher Springer Nature
publishDate 2022-10-15
url http://hdl.handle.net/10261/282456
http://dx.doi.org/10.13039/501100004837
https://api.elsevier.com/content/abstract/scopus_id/85140043995
work_keys_str_mv AT dentzmarco mixinginporousmediaconceptsandapproachesacrossscales
AT hidalgojuanj mixinginporousmediaconceptsandapproachesacrossscales
AT lesterdaniel mixinginporousmediaconceptsandapproachesacrossscales
_version_ 1816137985767243776

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