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1 files changed, 7 insertions, 1 deletions

diff --git a/typst/main.typ b/typst/main.typ
index cf8d30e..31fc934 100644
--- a/typst/main.typ
+++ b/typst/main.typ
@@ -3,6 +3,12 @@
 #show: ieee.with(
   title: [Stokes flow - Particle interaction in low Reynolds Number environments],
   abstract: [
+    This report describes the key overview of creeping flow, also called Stokes Flow, in the context of particle-particle and particle-fluid
+    interactions relevant to porous media behaviour. Beginning from the Navier-Stokes equations, the transition to the Stokes Flow is assumed
+    by a low Reynolds number $"Re"$. Solutions and more modern approaches are reviewed, including the lubrication effects and near-contact
+    dynamics. The influence of these interactions on clogging and permeability reduction are discussed, followed by a brief overview of
+    intended modelling techniques such as the Lattice-Boltzmann-Method(LBM), the Immersed Boundary Method(IBM) and the Homogenized Lattice-Boltzmann
+    -Method(HLBM).
   ],
   authors: (
     (
@@ -38,7 +44,7 @@ boundary other conditions.
 More recently, research was performed in the understanding of creeping flow, the particle transport and the clogging associated with it, and how those microscopic properties impact the macroscopic development. These carry implications which are essential in water treatment, medicine,
 carbohydrate recovery and CO2 storage. // CITE
 
-This report delves into the central aspects governing the known behaviour past single and multiple spheres.
+This report delves into the central aspects governing the known behaviour of Stokes Flow and the key extension results towards past single and multiple spheres.
 Explores the effect of it in porous media and examines the more recent particle bridging behaviour found in porous structures.