Litcius/Paper detail

Modal Representation of Inertial Effects in Fluid–Particle Interactions and the Regularity of the Memory Kernels

Giuseppe Procopio, Massimiliano Giona

2023Fluids14 citationsDOIOpen Access PDF

Abstract

This article develops a modal expansion (in terms of functions exponentially decaying with time) of the force acting on a micrometric particle and stemming from fluid inertial effects (usually referred to as the Basset force) deriving from the application of the time-dependent Stokes equation to model fluid–particle interactions. One of the main results is that viscoelastic effects induce the regularization of the inertial memory kernels at t=0, eliminating the 1/t-singularity characterizing Newtonian fluids. The physical origin of this regularization stems from the finite propagation velocity of the internal shear stresses characterizing viscoelastic constitutive equations. The analytical expression for the fluid inertial kernel is derived for a Maxwell fluid, and a general method is proposed to obtain accurate approximations of it for generic complex viscoelastic fluids, characterized by a spectrum of relaxation times.

Topics & Concepts

Inertial frame of referenceViscoelasticityClassical mechanicsPhysicsSingularityRegularization (linguistics)Newtonian fluidMathematical analysisMechanicsMathematicsComputer scienceThermodynamicsArtificial intelligenceParticle Dynamics in Fluid FlowsGranular flow and fluidized bedsFluid Dynamics and Turbulent Flows
Modal Representation of Inertial Effects in Fluid–Particle Interactions and the Regularity of the Memory Kernels | Litcius