Search results for "Transports"

showing 10 items of 485 documents

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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MAST-RT0 solution of the incompressible Navier–Stokes equations in 3D complex domains

2020

A new numerical methodology to solve the 3D Navier-Stokes equations for incompressible fluids within complex boundaries and unstructured body-fitted tetrahedral mesh is presented and validated with three literature and one real-case tests. We apply a fractional time step procedure where a predictor and a corrector problem are sequentially solved. The predictor step is solved applying the MAST (Marching in Space and Time) procedure, which explicitly handles the non-linear terms in the momentum equations, allowing numerical stability for Courant number greater than one. Correction steps are solved by a Mixed Hybrid Finite Elements discretization that assumes positive distances among tetrahedr…

General Computer Scienceeulerian methodMathematics::Analysis of PDEspredictor–corrector scheme02 engineering and technology01 natural sciencesnavier–stokes equationsSettore ICAR/01 - Idraulica010305 fluids & plasmasNumerical methodologyPhysics::Fluid Dynamics0203 mechanical engineeringNavier–Stokes equations 3D numerical model Eulerian method unstructured tetrahedral mesh predictor–corrector scheme Mixed Hybrid Finite elementIncompressible flow0103 physical sciencesNavier–Stokes equationsPhysicsMathematical analysisEulerian methodunstructured tetrahedral meshEngineering (General). Civil engineering (General)3d numerical modelTetrahedral meshes020303 mechanical engineering & transportsmixed hybrid finite elementModeling and SimulationCompressibilityTA1-2040Engineering Applications of Computational Fluid Mechanics

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Stability analysis of Beck's column over a fractional-order hereditary foundation

2018

This paper considers the case of Beck's column resting on a hereditary bed of independent springpots. The springpot possesses an intermediate rheological behaviour among linear spring and linear dashpot. It is defined by means of couple ( C β , β ) that characterize the material of the element and is ruled by a Caputo's fractional derivative. In this paper, we investigate the critical load of the column under the action of a follower load by means of a novel complex transform that allows to use the Routh–Hurwitz theorem in the complex half-plane for the stability analysis.

General MathematicsMathematical analysisGeneral EngineeringGeneral Physics and Astronomy02 engineering and technologyFractional calculu01 natural sciencesStability (probability)010305 fluids & plasmasFractional calculusPhysics and Astronomy (all)020303 mechanical engineering & transportsEngineering (all)0203 mechanical engineering0103 physical sciencesFollower forceRouth–Hurwitz criterionOrder (group theory)Mathematics (all)State space approachSettore ICAR/08 - Scienza Delle CostruzioniColumn (data store)Research ArticlesMathematics

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A non-linear stochastic approach of ligaments and tendons fractional-order hereditariness

2020

Abstract In this study the non-linear hereditariness of knee tendons and ligaments is framed in the context of stochastic mechanics. Without losing the possibility of generalization, this work was focused on knee Anterior Cruciate Ligament (ACL) and the tendons used in its surgical reconstruction. The proposed constitutive equations of fibrous tissues involves three material parameters for the creep tests and three material parameters for relaxation tests. One-to-one relations among material parameters estimated in creep and relaxations were established and reported in the paper. Data scattering, observed with a novel experimental protocol used to characterize the mechanics of the tissue, w…

GeneralizationQuantitative Biology::Tissues and OrgansAnterior cruciate ligamentPhysics::Medical PhysicsConstitutive equationNon-linear creepAerospace Engineering020101 civil engineeringOcean EngineeringContext (language use)Probability density function02 engineering and technology0201 civil engineeringNon-linear relaxation0203 mechanical engineeringmedicineCivil and Structural EngineeringMathematicsRandom hereditarinessMechanical EngineeringMathematical analysisRelaxation (iterative method)Statistical and Nonlinear Physicsmusculoskeletal systemCondensed Matter PhysicsNon-linear creep; Non-linear relaxation; Random hereditarinessNonlinear system020303 mechanical engineering & transportsmedicine.anatomical_structureNuclear Energy and EngineeringCreep

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On the moving multi-loads problem in discontinuous beam structures with interlayer slip

2017

Abstract This contribution proposes an efficient approach to the moving multi-loads problem on two-layer beams with interlayer slip and elastic translational supports. The Euler-Bernoulli hypothesis is assumed to hold for each layer separately, and a linear constitutive relation between the horizontal slip and the interlaminar shear force is considered. It is shown that, using the theory of generalized functions to treat the discontinuous response variables, exact eigenfunctions can be derived from a characteristic equation built as determinant of a 6 x 6 matrix. Building pertinent orthogonality conditions for the deflection eigenfunctions, a closed-form analytical response is established i…

Generalized functionConstitutive equationMathematical analysisCharacteristic equation02 engineering and technologyGeneral MedicineSlip (materials science)Eigenfunction01 natural sciencestranslational supportEngineering (all)020303 mechanical engineering & transportsClassical mechanics0203 mechanical engineeringEuler-Bernoulli beaminterlayer slipmoving loadDeflection (engineering)0103 physical sciences010301 acousticsSlip line fieldBeam (structure)MathematicsProcedia Engineering

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Global–local model for three-dimensional guided wave scattering with application to rail flaw detection

2021

This study presents a three-dimensional global–local formulation for the prediction of guided wave scattering from discontinuities (e.g. defects). The approach chosen utilizes the Semi-Analytical Finite Element method for the “global” portion of the waveguide, and a full Finite Element discretization for the “local” portion of the waveguide containing the discontinuity. The application of interest is the study of guided wave scattering from transverse head defects in rails. Theoretical scattering results are impossible to obtain in this case for a wide-frequency range. While three-dimensional Semi-Analytical Finite Element–Finite Element models for guided wave scattering studies have been …

Guided wave testingStructural health monitoringComputer scienceScatteringMechanical EngineeringGlobal localAcousticsUltrasonic testingrail inspectionBiophysics02 engineering and technologyClassification of discontinuities01 natural sciencesglobal–local methodultrasonic guided wave020303 mechanical engineering & transports0203 mechanical engineering0103 physical sciencesRail inspectionwave scatteringStructural health monitoringultrasonic testingSettore ICAR/08 - Scienza Delle Costruzioni010301 acoustics

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Exact and approximate analytical solutions for nonlocal nanoplates of arbitrary shapes in bending using the line element-less method

2021

AbstractIn this study, an innovative procedure is presented for the analysis of the static behavior of plates at the micro and nano scale, with arbitrary shape and various boundary conditions. In this regard, the well-known Eringen’s nonlocal elasticity theory is used to appropriately model small length scale effects. The proposed mesh-free procedure, namely the Line Element-Less Method (LEM), only requires the evaluation of simple line integrals along the plate boundary parametric equation. Further, variations of appropriately introduced functionals eventually lead to a linear system of algebraic equations in terms of the expansion coefficients of the deflection function. Notably, the prop…

Harmonic polynomials Kirchoff plate Line element-less method Meshfree method Nonlocal elasticityLine elementMechanical EngineeringMathematical analysisLinear systemLine integral02 engineering and technology021001 nanoscience & nanotechnologyCondensed Matter PhysicsAlgebraic equation020303 mechanical engineering & transports0203 mechanical engineeringSettore MAT/05 - Analisi MatematicaMechanics of MaterialsDeflection (engineering)Line (geometry)Settore MAT/03 - GeometriaBoundary value problemSettore ICAR/08 - Scienza Delle Costruzioni0210 nano-technologyParametric equationMathematicsMeccanica

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Extension of the line element-less method to dynamic problems

2020

The line element-less method is an efficient approach for the approximate solution of the Laplace or biharmonic equation on a general bidimensional domain. Introducing generalized harmonic polynomials as approximation functions, we extend the line element-less method to the inhomogeneous Helmholtz equation and to the eigenvalue problem for the Helmholtz equation. The obtained approximate solutions are critically discussed and advantages as well as limitations of the approach are pointed out.

Helmholtz equationLaplace transformLine elementMechanical EngineeringHarmonic (mathematics)02 engineering and technologyLaplace equationLine element-less methodCondensed Matter Physics01 natural sciences020303 mechanical engineering & transports0203 mechanical engineeringDynamic problemMechanics of Materials0103 physical sciencesLine (geometry)Biharmonic equationApplied mathematicsHelmholtz equationSettore ICAR/08 - Scienza Delle Costruzioni010301 acousticsEigenvalues and eigenvectorsMathematics

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Latvijas ūdeņu vides pētījumi un aizsardzība: Referātu tēžu krājums

2016

HidrobioloģijaKīleveina grāvja hidrobioloģijaBentiskie bezmugurkaulniekipiekrastes bentiskie biotopiUpes apsekojums - AbavaGarkrasta sedimentu transportszooplanktonsLatvijas ezeriZoobentosa pētījumiKlimata pārmaiņu ietekme:NATURAL SCIENCES::Biology [Research Subject Categories]Makrofīti - Baltijas upes un ezeriDaugavaBakteriālā piesārņojums - Rēzeknes upeFitoplanktonsKopepods Eurytemora affiniRigas jūras līcisvecupju biotops - Irbes upePļaviņu ūdenskrātuveViendienīšu suga Eurylophella karelicaNiedrāju fragmentācija - Engure ezers

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Large eddy simulations on the effect of the irregular roughness shape on turbulent channel flows

2019

Abstract Large Eddy Simulations (LES) are carried out to investigate on the mean flow in turbulent channel flows over irregular rough surfaces. Here the attention is focused to selectively investigate on the effect induced by crests or cavities of the roughness. The irregular shape is generated through the super-imposition of sinusoidal functions having random amplitude and four different wave-lengths. The irregular roughness profile is reproduced along the spanwise direction in order to obtain a 2D rough shape. The analysis of the mean velocity profiles shows that roughness crests induce higher effect in the outer-region whereas roughness cavities cause the highest effects in the inner-reg…

Higher order statisticMaterials scienceTurbulence simulationTurbulent channel flows Large eddy simulation02 engineering and technologyReynolds stressSurface finish01 natural sciencesReynolds numberSettore ICAR/01 - Idraulica010305 fluids & plasmasPhysics::Fluid Dynamicssymbols.namesake0203 mechanical engineering0103 physical sciencesMean flowReynolds equationAnisotropyChannel flowFluid Flow and Transfer ProcessesTurbulenceMean velocity profileMechanical EngineeringIrregular roughneReynolds numberSinusoidal functionMechanicsCondensed Matter PhysicsOpen-channel flowShear stre020303 mechanical engineering & transportsAmplitudeReynolds streTurbulence Irregular shapeTurbulence intensityLESsymbolsTurbulence modulationInternational Journal of Heat and Fluid Flow

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