tutorial, first iteration

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Markus Wolff 2008-09-02 08:03:41 +00:00 committed by Andreas Lauser
parent 33d333179a
commit 43b34413d3
5 changed files with 15 additions and 4 deletions

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\input{intro}
\input{getting-started}
\input{quickstart-guide}
\input{tutorial-coupled}
\input{tutorial-decoupled}
\input{tutorial}
\bibliographystyle{plain}
%\bibliography{dumux-handbook}

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\chapter[Tutorial: Fully-coupled model]{Tutorial: Fully-coupled model}
\section[Fully-coupled model]{Solving a problem using a Fully-Coupled Model}\label{tutorial-coupled}
TODO: describe the fully coupled model in detail

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\chapter[Tutorial: Decoupled model]{Tutorial: Decoupled model}
\section[Decoupled model]{Solving a problem using a Decoupled Model}\label{tutorial-decoupled}
TODO: describe a decoupled model in detail

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\section[New model]{How to implement a new model}
TODO: describe how to impelment a new model

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\chapter[Tutorial]{Tutorial}
In DuMu$^\text{x}$ two sorts of models are implemented: Fully coupled models, and decoupled models. In the fully coupled models a flow system is described by a system of strongly coupled equations which can be mass balance equations, balance equations of components, energy balance equations, etc. In contrast a decoupled model consists of a pressure equation which is decoupled or only weakly coupled to a saturation equation, concentration equations, energy balance equations, etc.
Different kinds of both coupled and decoupled models can be isothermal two phase models, isothemal two phase two component models, non-isothermal twophase model, non-isothermal two phase two component models, etc.
The following two sections of the tutorial demonstrate how to solve problems first using a coupled model (section \ref{tutorial-coupled}) and second using a decoupled model (section \ref{tutorial-decoupled}). Being the easiest case, a isothermal two phase system (two fluid phases, one solid phase) will be considered.
\input{tutorial-coupled}
\input{tutorial-decoupled}
\input{tutorial-newmodel}