Commit c62db710 by Johannes Hommel Committed by Katharina Heck

### [EFM2] new example results, reworked exercise

parent 76843d61
 ... ... @@ -130,7 +130,7 @@ active. Activate by clicking somewhere in the window.\\ On the command line in window 1 type\\ {\em cd /temp/EFM2-2015/ex1 }\\ {\em cd /temp/efm2019/ex1 }\\ \vspace{0.1cm} {\bfseries ... set the model parameters:}\\ ... ...
 ... ... @@ -42,12 +42,12 @@ \item The porosity, in contrast to the permeability, does not has such a big influence, mainly because the difference can be at maximum one whereas the permeabilities can differ by orders of magnitude. \end{itemize} \begin{figure}\centering \includegraphics[width=0.6\linewidth]{pics/result1.png} \caption{K$_{\mathrm{fine}}$=0.3e-12 m$^2$, K$_{\mathrm{coarse}}$=5.89912e-11 m$^2$, $\Phi=0.5$, $\Delta p= 0.1$ bar, infiltration rate=0.5 kg/(m$^2$s), infiltration end time=30000 s, time=64684 s} \includegraphics[width=0.6\linewidth]{pics/result_original.png} \caption{Simulation result for N$_2$ molefractions for original parameter: K$_{\mathrm{fine}}$=3.1e-11 m$^2$, K$_{\mathrm{coarse}}$=3.1e-10 m$^2$, $\Phi_{\mathrm{fine}}=0.1$, $\Phi_{\mathrm{coarse}}=0.2$, $\Delta p= 0.01$ bar, infiltration rate=0.4 kg/(m$^2$s), infiltration end time=5000 s, time=4055 s} \end{figure} \begin{figure}\centering \includegraphics[width=0.6\linewidth]{pics/result2.png} \caption{K$_{\mathrm{fine}}$=0.3e-11 m$^2$, K$_{\mathrm{coarse}}$=5.89912e-11 m$^2$, $\Phi_1=0.5$, $\Phi_2=0.4$, $\Delta p= 0.1$ bar, infiltration~rate=0.5~kg/(m$^2$s), infiltration end time=20000 s, time=31984 s} \includegraphics[width=0.6\linewidth]{pics/result_100LessPerm.png} \caption{Simulation result for N$_2$ molefractions for decreased fine lens permeability: K$_{\mathrm{fine}}$=3.1e-13 m$^2$, K$_{\mathrm{coarse}}$=3.1e-10 m$^2$, $\Phi_{\mathrm{fine}}=0.1$, $\Phi_{\mathrm{coarse}}=0.2$, $\Delta p= 0.01$ bar, infiltration rate=0.4 kg/(m$^2$s), infiltration end time=5000 s, time=4055 s} \end{figure} \clearpage

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 ... ... @@ -112,7 +112,7 @@ active. Activate by clicking somewhere in the window.\\ On the command line in window 1 type\\ {\em cd /temp/EFM2-2015/ex1}\\ {\em cd /temp/efm2019/ex1 }\\ \vspace{0.1cm} {\bfseries ... set the model parameters:}\\ ... ... @@ -130,6 +130,7 @@ Change the parameters Name'' to lens2p'', InfiltrationEndTime'' to 5000'', and save the file before you leave the editor.\\ If you do not change the parameter Name'', your previous simulation results of the 1p2c part of the excercise will be overwritten! \vspace{0.1cm} {\bfseries ... start the simulation:}\\ ... ... @@ -193,6 +194,8 @@ You can do this either by changing the parameter Name'' in the file exercise {\em ./lens2pexercise1 -{}-parameterFile exercise1.input -{}-Problem.Name lens2p-highPEntry}\\ Additionally, in case you finished the exercise and want to have a look at the code at:\\ {\em cd /temp/efm2019/DUMUX/dumux-lecture/build-cmake/lecture/efm/1p2cvs2p }\\ \clearpage %%% Local Variables: %%% mode: latex ... ...
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