0000000000199995

AUTHOR

Domenico Saccone

0000-0003-3994-2575

showing 2 related works from this author

Large Eddy Simulations of Rough Turbulent Channel Flows Bounded by Irregular Roughness: Advances Toward a Universal Roughness Correlation

2020

The downward shift of the mean velocity profile in the logarithmic region, known as roughness function, $$\Delta U^+$$ , is the major macroscopic effect of roughness in wall bounded flows. This speed decrease, which is strictly linked to the friction Reynolds number and the geometrical properties which define the roughness pattern such as roughness height, density, shape parameters, has been deeply investigated in the past decades. Among the geometrical parameters, the effective slope (ES) seems to be suitable to estimate the roughness function at fixed friction Reynolds number, Re $$_{\tau }$$ . In the present work, the effects of several geometrical parameters on the roughness function, i…

FrictionLogarithmGeneral Chemical EngineeringGeometryGeneral Physics and AstronomyTurbulent channel flows Large eddy simulation02 engineering and technologySurface finishMacroscopic effects01 natural sciencesReynolds numberSettore ICAR/01 - Idraulica010305 fluids & plasmasRoot mean squaresymbols.namesakeSinusoidal functions0203 mechanical engineering0103 physical sciencesPhysical and Theoretical ChemistryChannel flowEffective slopePhysicsRoughness correlationTurbulenceMathematical analysisReynolds numberTexturesMean velocity profilesRoughnessOpen-channel flowWall flow Geometrical property020303 mechanical engineering & transportsAmplitudeLESLogarithmic regionsMean absolute deviationssymbolsLarge eddy simulationFlow, Turbulence and Combustion
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Large Eddy Simulations of Rough Turbulent Channel Flows Bounded by Irregular Roughness: The Role of Geometrical Parameters

2020

Almost all bounded flows, in nature and industry, are bounded by rough boundaries. Important efforts have been made, in fact, to analyse the physics of the fluids over such geometries. Basically, rough walls strongly influence the total energy dissipation, with important consequences in the form of higher costs especially in industrial applications.

Physics::Fluid DynamicsPhysicsRough wallBoundary layerTurbulenceBounded functionLESSurface finishMechanicsDissipationTotal energyCommunication channelSettore ICAR/01 - Idraulica
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