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Enhanced dissipation and Taylor dispersion in higher‐dimensional parallel shear flows

Michele Coti Zelati, Thierry Gallay

2023Journal of the London Mathematical Society19 citationsDOIOpen Access PDF

Abstract

Abstract We consider the evolution of a passive scalar advected by a parallel shear flow in an infinite cylinder with bounded cross section, in arbitrary space dimension. The essential parameters of the problem are the molecular diffusivity , which is assumed to be small, and the wave number in the streamwise direction, which can take arbitrary values. Under generic assumptions on the shear velocity , we obtain optimal decay estimates for large times, both in the enhanced dissipation regime and in the Taylor dispersion regime . Our results can be deduced from resolvent estimates using a quantitative version of the Gearhart–Prüss theorem, or can be established more directly via the hypocoercivity method. Both approaches are explored in the present example, and their relative efficiency is compared.

Topics & Concepts

Taylor dispersionDissipationScalar (mathematics)ResolventBounded functionMathematical analysisShear flowShear (geology)WavenumberPhysicsThermal diffusivityDispersion (optics)MechanicsTaylor seriesFlow (mathematics)MathematicsClassical mechanicsGeometryDiffusionGeologyThermodynamicsQuantum mechanicsPetrologyFluid Dynamics and Turbulent FlowsNavier-Stokes equation solutionsGas Dynamics and Kinetic Theory
Enhanced dissipation and Taylor dispersion in higher‐dimensional parallel shear flows | Litcius