Numerical simulation of two-phase multicomponent flow with reactive transport in porous media: application to geological sequestration of CO2*
In this work, we consider two-phase multicomponent flow in heterogeneous porous media with chemical reactions. Equations governing the system are the mass conservation law for each species, together with Darcy’s law and complementary equations such as the capillary pres...
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Format: | Article |
Language: | English |
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EDP Sciences
2015-03-01
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Series: | ESAIM: Proceedings and Surveys |
Online Access: | http://dx.doi.org/10.1051/proc/201550002 |
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author | Ahusborde Etienne Kern Michel Vostrikov Viatcheslav |
author_facet | Ahusborde Etienne Kern Michel Vostrikov Viatcheslav |
author_sort | Ahusborde Etienne |
collection | DOAJ |
description | In this work, we consider two-phase multicomponent flow in heterogeneous porous media
with chemical reactions. Equations governing the system are the mass conservation law for
each species, together with Darcy’s law and complementary equations such as the capillary
pressure law. Coupling with chemistry occurs through reactions rates. These rates can
either be given non-linear functions of concentrations in the case of kinetic chemical
reactions or are unknown in the case of equilibrium chemical reactions (such as reactions
in aqueous phase). In this latter case, each reaction gives rise to a mass action law, an
algebraic relation that relates the activities of the implied species. The resulting
system will couple partial differential equations with algebraic equations. The aim of
this paper is to develop a numerical method for the simulation of this system. We consider
a sequential approach that consists in splitting the initial problem into two sub-systems.
The first subsystem is a two-phase two-component flow, while the second subsystem is
devoted to a reactive transport problem. For the two-phase two-component flow part, we
have used an already existing module of the open-source parallel multiphase flow simulator
DuMuX. To solve the reactive transport
problem, we have implemented a new module in the DuMuX framework that
solves a single phase multicomponent transport problem, and we have coupled it with a
locally developed code for chemical equilibrium, called ChemEqLib, through a sequential
iterative approach. Then, both modules have been coupled to propose a simple, but
mathematically consistent, iterative method that handles two-phase flow with reactive
transport. The approach is validated on a 2D example from the literature representative of
a model for the long-term fate of sequestered CO2. |
first_indexed | 2024-04-11T03:31:23Z |
format | Article |
id | doaj.art-9e32471df73d493d812d5add7f298bb9 |
institution | Directory Open Access Journal |
issn | 2267-3059 |
language | English |
last_indexed | 2024-04-11T03:31:23Z |
publishDate | 2015-03-01 |
publisher | EDP Sciences |
record_format | Article |
series | ESAIM: Proceedings and Surveys |
spelling | doaj.art-9e32471df73d493d812d5add7f298bb92023-01-02T06:33:45ZengEDP SciencesESAIM: Proceedings and Surveys2267-30592015-03-0150213910.1051/proc/201550002proc155002Numerical simulation of two-phase multicomponent flow with reactive transport in porous media: application to geological sequestration of CO2*Ahusborde Etienne0Kern Michel1Vostrikov Viatcheslav2LMA Pau UMR 5142, Bâtiment IPRA - UPPAINRIA, CRI Paris–Rocquencourt, BP 105, 78153 Le Chesnay Cedex & Maison de la Simulation, Digiteo Labs, CEA SaclayLMA Pau UMR 5142, Bâtiment IPRA - UPPA, Avenue de l’Université - BP 1155, 64013 Pau Cedex & Maison de la Simulation, Digiteo Labs, CEA SaclayIn this work, we consider two-phase multicomponent flow in heterogeneous porous media with chemical reactions. Equations governing the system are the mass conservation law for each species, together with Darcy’s law and complementary equations such as the capillary pressure law. Coupling with chemistry occurs through reactions rates. These rates can either be given non-linear functions of concentrations in the case of kinetic chemical reactions or are unknown in the case of equilibrium chemical reactions (such as reactions in aqueous phase). In this latter case, each reaction gives rise to a mass action law, an algebraic relation that relates the activities of the implied species. The resulting system will couple partial differential equations with algebraic equations. The aim of this paper is to develop a numerical method for the simulation of this system. We consider a sequential approach that consists in splitting the initial problem into two sub-systems. The first subsystem is a two-phase two-component flow, while the second subsystem is devoted to a reactive transport problem. For the two-phase two-component flow part, we have used an already existing module of the open-source parallel multiphase flow simulator DuMuX. To solve the reactive transport problem, we have implemented a new module in the DuMuX framework that solves a single phase multicomponent transport problem, and we have coupled it with a locally developed code for chemical equilibrium, called ChemEqLib, through a sequential iterative approach. Then, both modules have been coupled to propose a simple, but mathematically consistent, iterative method that handles two-phase flow with reactive transport. The approach is validated on a 2D example from the literature representative of a model for the long-term fate of sequestered CO2.http://dx.doi.org/10.1051/proc/201550002 |
spellingShingle | Ahusborde Etienne Kern Michel Vostrikov Viatcheslav Numerical simulation of two-phase multicomponent flow with reactive transport in porous media: application to geological sequestration of CO2* ESAIM: Proceedings and Surveys |
title | Numerical simulation of two-phase multicomponent flow with reactive transport in porous media: application to geological sequestration of CO2* |
title_full | Numerical simulation of two-phase multicomponent flow with reactive transport in porous media: application to geological sequestration of CO2* |
title_fullStr | Numerical simulation of two-phase multicomponent flow with reactive transport in porous media: application to geological sequestration of CO2* |
title_full_unstemmed | Numerical simulation of two-phase multicomponent flow with reactive transport in porous media: application to geological sequestration of CO2* |
title_short | Numerical simulation of two-phase multicomponent flow with reactive transport in porous media: application to geological sequestration of CO2* |
title_sort | numerical simulation of two phase multicomponent flow with reactive transport in porous media application to geological sequestration of co2 |
url | http://dx.doi.org/10.1051/proc/201550002 |
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