Replication Data for the numerical simulations in: Evaporation-driven density instabilities in saturated porous media (doi:10.18419/darus-2578)

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Part 1: Document Description
Part 2: Study Description
Part 5: Other Study-Related Materials
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Document Description

Citation

Title:

Replication Data for the numerical simulations in: Evaporation-driven density instabilities in saturated porous media

Identification Number:

doi:10.18419/darus-2578

Distributor:

DaRUS

Date of Distribution:

2022-04-06

Version:

1

Bibliographic Citation:

Schollenberger, Theresa; Helmig, Rainer, 2022, "Replication Data for the numerical simulations in: Evaporation-driven density instabilities in saturated porous media", https://doi.org/10.18419/darus-2578, DaRUS, V1

Study Description

Citation

Title:

Replication Data for the numerical simulations in: Evaporation-driven density instabilities in saturated porous media

Identification Number:

doi:10.18419/darus-2578

Authoring Entity:

Schollenberger, Theresa (Universität Stuttgart)

Helmig, Rainer (Universität Stuttgart)

Software used in Production:

DuMuX

Software used in Production:

DUNE

Distributor:

DaRUS

Access Authority:

Schollenberger, Theresa

Access Authority:

Helmig, Rainer

Depositor:

Schollenberger, Theresa

Date of Deposit:

2022-02-25

Holdings Information:

https://doi.org/10.18419/darus-2578

Study Scope

Keywords:

Agricultural Sciences, Computer and Information Science, Earth and Environmental Sciences, Engineering, Physics, Density-Driven Instabilities, DuMuX

Abstract:

This dataset contains the raw data of the results of the numerical simulations published in: Carina Bringedal, Theresa Schollenberger, G. J. M. Pieters, C. J. van Duijn and Rainer Helmig. Evaporation-driven density instabilities in saturated porous media. Transport in Porous Media. 2022. <a href="https://doi.org/10.1007/s11242-022-01772-w">doi: 10.1007/s11242-022-01772-w</a>. <br><br> All files starting with "permeabilities" are containing results of numerical simulations presented in section 5 of the paper with the different permeabilities for random and periodic initial perturbations. All files starting with "initial" are containing results of numerical simulations presented in section 4.5 of the paper investigating different initial perturbations. And all files starting with "convergence" are containing results of numerical simulations presented in appendix E of the paper used for the grid and time-step convergence study.<br> The different gzip archives contain vtu-files for every time step and one pvd-file summarizing all timesteps, which can e.g. be visualized by paraview (<a href="https://www.paraview.org/">https://www.paraview.org/</a>). To reproduce the evaluation done for the paper please check the related git-repository (see Related Material, <a href="https://git.iws.uni-stuttgart.de/dumux-pub/bringedal2021a">https://git.iws.uni-stuttgart.de/dumux-pub/bringedal2021a</a>), which includes evaluation scripts and a description of the evaluation. There also the code used to produce this dataset is available.

Methodology and Processing

Sources Statement

Data Access

Other Study Description Materials

Related Materials

The DuMuX code used to produce the results of the numerical simulations presented in this dataset as well as evaluation scripts are available in the following git-repository: <a href="https://git.iws.uni-stuttgart.de/dumux-pub/bringedal2021a">https://git.iws.uni-stuttgart.de/dumux-pub/bringedal2021a</a>.

Related Studies

The code used for solving the eigenvalue problem for the linear stability analysis is available in the following dataset: Bringedal, Carina; Pieters, G. J. M.; van Duijn, C. J., 2022, "Eigenvalue problem solver for evaporation-driven density instabilities in saturated porous media", <a href="https://doi.org/10.18419/darus-2577">https://doi.org/10.18419/darus-2577</a>, DaRUS

Related Publications

Citation

Title:

C. Bringedal, T. Schollenberger, G. J. M. Pieters, C. J. van Duijn, R. Helmig, Evaporation-driven density instabilities in saturated porous media. Transport in Porous Media. 2022.

Identification Number:

10.1007/s11242-022-01772-w

Bibliographic Citation:

C. Bringedal, T. Schollenberger, G. J. M. Pieters, C. J. van Duijn, R. Helmig, Evaporation-driven density instabilities in saturated porous media. Transport in Porous Media. 2022.

Other Study-Related Materials

Label:

convergence_1e10_w60_periodicWhole_instabilities_20cells.tar.gz

Text:

Results of the numerical simulation used for the convergence study presented in Appendix E. Case with 20 cells per instability in horizontal direction which correlates with a cell width of 1e-4 m.

Notes:

application/gzip

Other Study-Related Materials

Label:

convergence_1e10_w60_periodicWhole_instabilities_3cells.tar.gz

Text:

Results of the numerical simulation used for the convergence study presented in Appendix E. Case with 3 cells per instability in horizontal direction which correlates with a cell width of 3.33e-3 m.

Notes:

application/gzip

Other Study-Related Materials

Label:

convergence_1e10_w60_periodicWhole_instabilities_5cells.tar.gz

Text:

Results of the numerical simulation used for the convergence study presented in Appendix E. Case with 5 cells per instability in horizontal direction which correlates with a cell width of 2e-3 m.

Notes:

application/gzip

Other Study-Related Materials

Label:

convergence_1e10_w60_periodicWhole_instabilities_ts100.tar.gz

Text:

Results of the numerical simulation used for the convergence study presented in Appendix E. Case with a time step of 100 s.

Notes:

application/gzip

Other Study-Related Materials

Label:

convergence_1e10_w60_periodicWhole_instabilities_ts150.tar.gz

Text:

Results of the numerical simulation used for the convergence study presented in Appendix E. Case with a time step of 150 s.

Notes:

application/gzip

Other Study-Related Materials

Label:

convergence_1e10_w60_periodicWhole_instabilities_ts25.tar.gz

Text:

Results of the numerical simulation used for the convergence study presented in Appendix E. Case with a time step of 25 s.

Notes:

application/gzip

Other Study-Related Materials

Label:

convergence_1e10_w60_periodicWhole_instabilities_y_200cells_uniform.tar.gz

Text:

Results of the numerical simulation used for the convergence study presented in Appendix E. Case with 200 uniform cells in vertical direction which correlates with a top cell height of 1e-3 m.

Notes:

application/gzip

Other Study-Related Materials

Label:

convergence_1e10_w60_periodicWhole_instabilities_y_30cells.tar.gz

Text:

Results of the numerical simulation used for the convergence study presented in Appendix E. Case with 30 graded cells in vertical direction which correlates with a top cell height of 9.84e-4 m.

Notes:

application/gzip

Other Study-Related Materials

Label:

convergence_1e10_w60_periodicWhole_instabilities_y_35cells.tar.gz

Text:

Results of the numerical simulation used for the convergence study presented in Appendix E. Case with 35 graded cells in vertical direction which correlates with a top cell height of 5.71e-4 m.

Notes:

application/gzip

Other Study-Related Materials

Label:

convergence_1e10_w60_periodicWhole_instabilities_y_50cells.tar.gz

Text:

Results of the numerical simulation used for the convergence study presented in Appendix E. Case with 50 graded cells in vertical direction which correlates with a top cell height of 1.15e-4 m.

Notes:

application/gzip

Other Study-Related Materials

Label:

initial_1e11_instabilities_w60_periodicTop.tar.gz

Text:

Results of the numerical simulation presented in section 4.5 investigating the initial conditions. Case with periodic initial conditions applied at the top.

Notes:

application/gzip

Other Study-Related Materials

Label:

initial_1e11_w60_instabilities_noPerturbation.tar.gz

Text:

Results of the numerical simulation presented in section 4.5 investigating the initial conditions. Case with no initial perturbations.

Notes:

application/gzip

Other Study-Related Materials

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initial_1e11_w60_instabilities_periodicWhole_a1e12.tar.gz

Text:

Results of the numerical simulation presented in section 4.5 investigating the initial conditions. Case with periodic initial conditions applied in the whole domain and an amplitude of 1e-12 m.

Notes:

application/gzip

Other Study-Related Materials

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initial_1e11_w60_instabilities_periodicWhole_notFitting.tar.gz

Text:

Results of the numerical simulation presented in section 4.5 investigating the initial conditions. Case with periodic initial conditions applied in the whole domain and a domain half width of 0.25 m.

Notes:

application/gzip

Other Study-Related Materials

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initial_1e11_w60_instabilities_randomTop.tar.gz

Text:

Results of the numerical simulation presented in section 4.5 investigating the initial conditions. Case with random initial conditions applied at the top.

Notes:

application/gzip

Other Study-Related Materials

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initial_1e11_w60_instabilities_randomWhole_a1e12.tar.gz

Text:

Results of the numerical simulation presented in section 4.5 investigating the initial conditions. Case with random initial conditions applied in the whole domain and a standard deviation of 1e-12.

Notes:

application/gzip

Other Study-Related Materials

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permeabilities_1e10_w60_periodicWhole_instabilities_l001.tar.gz

Text:

Results of the numerical simulation presented in section 5 investigating different permeabilities. Case with a permeability of K=1e-10 m2 and periodic initial conditions with a wavelength of 0.01 m.

Notes:

application/gzip

Other Study-Related Materials

Label:

permeabilities_1e10_w60_periodicWhole_instabilities_l0015.tar.gz

Text:

Results of the numerical simulation presented in section 5 investigating different permeabilities. Case with a permeability of K=1e-10 m2 and periodic initial conditions with a wavelength of 0.015 m.

Notes:

application/gzip

Other Study-Related Materials

Label:

permeabilities_1e10_w60_randomWhole_instabilities.tar.gz

Text:

Results of the numerical simulation presented in section 5 investigating different permeabilities. Case with a permeability of K=1e-10 m2 and random initial conditions.

Notes:

application/gzip

Other Study-Related Materials

Label:

permeabilities_1e11_w60_periodicWhole_instabilities_l003.tar.gz

Text:

Results of the numerical simulation presented in section 5 investigating different permeabilities. Case with a permeability of K=1e-11 m2 and periodic initial conditions with a wavelength of 0.03 m.

Notes:

application/gzip

Other Study-Related Materials

Label:

permeabilities_1e11_w60_periodicWhole_instabilities_l004.tar.gz

Text:

Results of the numerical simulation presented in section 5 investigating different permeabilities. Case with a permeability of K=1e-11 m2 and periodic initial conditions with a wavelength of 0.04 m.

Notes:

application/gzip

Other Study-Related Materials

Label:

permeabilities_1e11_w60_randomWhole_instabilities.tar.gz

Text:

Results of the numerical simulation presented in section 5 investigating different permeabilities. Case with a permeability of K=1e-11 m2 and random initial conditions.

Notes:

application/gzip

Other Study-Related Materials

Label:

permeabilities_1e12_w60_periodicWhole_instabilities_l006.tar.gz

Text:

Results of the numerical simulation presented in section 5 investigating different permeabilities. Case with a permeability of K=1e-12 m2 and periodic initial conditions with a wavelength of 0.06 m.

Notes:

application/gzip

Other Study-Related Materials

Label:

permeabilities_1e12_w60_periodicWhole_instabilities_l012.tar.gz

Text:

Results of the numerical simulation presented in section 5 investigating different permeabilities. Case with a permeability of K=1e-12 m2 and periodic initial conditions with a wavelength of 0.12 m.

Notes:

application/gzip

Other Study-Related Materials

Label:

permeabilities_1e12_w60_randomWhole_instabilities.tar.gz

Text:

Results of the numerical simulation presented in section 5 investigating different permeabilities. Case with a permeability of K=1e-12 m2 and random initial conditions.

Notes:

application/gzip

Other Study-Related Materials

Label:

permeabilities_1e13_w60_periodicWhole_instabilities_l015.tar.gz

Text:

Results of the numerical simulation presented in section 5 investigating different permeabilities. Case with a permeability of K=1e-13 m2 and periodic initial conditions with a wavelength of 0.15 m.

Notes:

application/gzip

Other Study-Related Materials

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permeabilities_1e13_w60_periodicWhole_instabilities_l03.tar.gz

Text:

Results of the numerical simulation presented in section 5 investigating different permeabilities. Case with a permeability of K=1e-13 m2 and periodic initial conditions with a wavelength of 0.3 m. Part 1.

Notes:

application/gzip

Other Study-Related Materials

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permeabilities_1e13_w60_periodicWhole_instabilities_l03_restart.tar.gz

Text:

Results of the numerical simulation presented in section 5 investigating different permeabilities. Case with a permeability of K=1e-13 m2 and periodic initial conditions with a wavelength of 0.3 m. Part 2.

Notes:

application/gzip

Other Study-Related Materials

Label:

permeabilities_1e13_w60_randomWhole_instabilities.tar.gz

Text:

Results of the numerical simulation presented in section 5 investigating different permeabilities. Case with a permeability of K=1e-13 m2 and random initial conditions. Part 1.

Notes:

application/gzip

Other Study-Related Materials

Label:

permeabilities_1e13_w60_randomWhole_instabilities_restart.tar.gz

Text:

Results of the numerical simulation presented in section 5 investigating different permeabilities. Case with a permeability of K=1e-13 m2 and random initial conditions. Part 2.

Notes:

application/gzip