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// Title Page
= Solid particle interaction in Stokes flow
Author: "Claudius Holeksa"
Date: 2025-11-09
// Abstract
// == Abstract
// This is a brief summary of the report. It gives an overview of the objectives, methods, and conclusions.
// Table of Contents
[toc]
== Introduction
For the understanding of near-well injections multiple elements such as multiphase behaviour, particle-solid interaction and
the geometry of the porous structure is required.
While at heart most numerical modelling approaches such as the Lattice-Boltzmann-Method are based on the Navier-Stokes Equations,
here we will take a glance on a more special case.
Since we are interested in very viscous cases with our Reynolds number (Re<<1) our base equation reduces itself to the Stokes Equations,
which are well understand in terms of the description by Stokes [dummy, I mean the old paper from 1851].
So the Navier-Stokes equations
@todo insert NS eqs here
are reduced to
@todo insert S eqs here
// Rather move this to the lower chapters and use book citations I guess. Well, maybe also Stokes paper. The initial rant is quite fun
== Navier
// Introduction
== Stokes flow
== Solid-Fluid interaction
So while
// References
== References
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