6533b856fe1ef96bd12b1c3a

RESEARCH PRODUCT

Simple Models for Wall Effect in Fiber Suspension Flows

Ansis OzolinsUldis Strautins

subject

PhysicsDynamics (mechanics)MechanicsCollisionPhysics::Fluid DynamicsDistribution (mathematics)Flow (mathematics)RheologyModeling and SimulationOrientation (geometry)QA1-939rheologyFiberfiber suspensionwall effectMathematicsAnalysisMicroscale chemistry

description

Jeffery's equation describes the dynamics of a non-inertial ellipsoidal particle immersed in a Stokes liquid and is used in various models of fiber suspension flow. However, it is not valid in close neighbourhood of a rigid wall. Geometrically impossible orientation states with the fiber penetrating the wall can result from this model. This paper proposes a modification of Jeffery's equation in close proximity to a wall so that the geometrical constraints are obeyed by the solution. A class of models differing in the distribution between the translational and rotational part of the response to the contact is derived. The model is upscaled to a Fokker–Planck equation. Another microscale model is proposed where recoiling from the wall upon the collision is permitted. Numerical examples illustrate the dynamics captured by the models.

yearjournalcountryeditionlanguage
2014-02-20Mathematical Modelling and Analysis
10.3846/13926292.2014.893263http://journals.vgtu.lt/index.php/MMA/article/view/3269