%0 Journal Article %1 JMS-52-359 %A Ahusborde, Etienne %A Amaziane, Brahim %A El Ossmani, Mustapha %A Id Moulay, Mohamed %D 2019 %J Journal of Mathematical Study %K dumuxarticle %N 4 %P 359-377 %R 10.4208/jms.v52n4.19.01 %T Numerical Modeling and Simulation of Fully Coupled Processes of Reactive Multiphase Flow in Porous Media %U http://global-sci.org/intro/article_detail/jms/13462.html %V 52 %X In this paper, we consider a finite volume approach for modelling multiphase flow coupled to geochemistry in porous media. Reactive multiphase flows are modelled by a highly nonlinear system of degenerate partial differential equations coupled with algebraic and ordinary differential equations. We propose a fully implicit scheme using a direct substitution approach (DSA) implemented in the framework of the parallel open-source platform DuMuX. We focus on the particular case where porosity changes due to mineral dissolution/precipitation are taken into account. This alteration of the porosity can have significant effects on the permeability and the tortuosity. The accuracy and effectiveness of the implementation of permeability/porosity and tortuosity/porosity relationships related to mineral dissolution/precipitation for single-phase and two-phase flows are demonstrated through numerical simulations.

@article{JMS-52-359, abstract = {In this paper, we consider a finite volume approach for modelling multiphase flow coupled to geochemistry in porous media. Reactive multiphase flows are modelled by a highly nonlinear system of degenerate partial differential equations coupled with algebraic and ordinary differential equations. We propose a fully implicit scheme using a direct substitution approach (DSA) implemented in the framework of the parallel open-source platform DuMuX. We focus on the particular case where porosity changes due to mineral dissolution/precipitation are taken into account. This alteration of the porosity can have significant effects on the permeability and the tortuosity. The accuracy and effectiveness of the implementation of permeability/porosity and tortuosity/porosity relationships related to mineral dissolution/precipitation for single-phase and two-phase flows are demonstrated through numerical simulations.}, added-at = {2020-07-13T16:54:50.000+0200}, author = {Ahusborde, Etienne and Amaziane, Brahim and {El Ossmani}, Mustapha and {Id Moulay}, Mohamed}, biburl = {https://puma.ub.uni-stuttgart.de/bibtex/26705e7c97150f3700cac3f79d84b0839/berndflemisch}, doi = {10.4208/jms.v52n4.19.01}, interhash = {c18a0a10b4bebb78ae0ed97182cd3eb7}, intrahash = {6705e7c97150f3700cac3f79d84b0839}, issn = {2617-8702}, journal = {Journal of Mathematical Study}, keywords = {dumuxarticle}, number = 4, pages = {359-377}, timestamp = {2020-07-13T14:54:50.000+0200}, title = {Numerical Modeling and Simulation of Fully Coupled Processes of Reactive Multiphase Flow in Porous Media}, url = {http://global-sci.org/intro/article_detail/jms/13462.html}, volume = 52, year = 2019 }