Search results for "Flow separation"

showing 3 items of 13 documents

Analysis of complex singularities in high-Reynolds-number Navier-Stokes solutions

2013

AbstractNumerical solutions of the laminar Prandtl boundary-layer and Navier–Stokes equations are considered for the case of the two-dimensional uniform flow past an impulsively-started circular cylinder. The various viscous–inviscid interactions that occur during the unsteady separation process are investigated by applying complex singularity analysis to the wall shear and streamwise velocity component of the two solutions. This is carried out using two different methodologies, namely a singularity-tracking method and the Padé approximation. It is shown how the van Dommelen and Shen singularity that occurs in solutions of the Prandtl boundary-layer equations evolves in the complex plane be…

Prandtl numberMathematics::Analysis of PDEsFOS: Physical sciencesPhysics::Fluid Dynamicssymbols.namesakeFlow separationSingularityboundary layer separation Navier–Stokes equations transition to turbulenceFOS: MathematicsMathematics - Numerical AnalysisComplex Variables (math.CV)Navier–Stokes equationsSettore MAT/07 - Fisica MatematicaMathematical PhysicsPhysicsMathematics - Complex VariablesMechanical EngineeringMathematical analysisFluid Dynamics (physics.flu-dyn)Reynolds numberLaminar flowPhysics - Fluid DynamicsMathematical Physics (math-ph)Numerical Analysis (math.NA)Condensed Matter PhysicsMechanics of MaterialssymbolsGravitational singularityPotential flow
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Numerical modeling of blood flow in the internal jugular vein with the use of computational fluid mechanics software.

2021

ObjectivesTo determine the site and nature of altered hemodynamics in pathological internal jugular veins.MethodWith the use of computational fluid mechanics software we simulated blood flow in 3 D models of the internal jugular veins that exhibited different morphologies, including nozzle-like strictures in their upper parts and valves in the lower parts.ResultsIn a majority of models with nozzle-like strictures, especially those positioned asymmetrically, abnormal flow pattern was revealed, with significant flow separation and regions with reversed flow. Abnormal valves had no significant impact on flow in a case of already altered flow evoked by stricture in upper part of the vein.Conclu…

business.industryHemodynamicsNumerical modelingHemodynamicsFluid mechanicsGeneral MedicineBlood flowConstriction Pathologic030204 cardiovascular system & hematology03 medical and health sciencesFlow separation0302 clinical medicineSoftwareRegional Blood FlowMedicineHumansComputational fluid mechanics; flow separation; internal jugular vein; minor losses; numerical modelingJugular VeinsCardiology and Cardiovascular MedicinebusinessInternal jugular vein030217 neurology & neurosurgerySoftwareBiomedical engineeringBrachiocephalic VeinsPhlebology
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Effect of the junction angle on turbulent flow at a hydraulic confluence

2018

Despite the existing knowledge concerning the hydrodynamic processes at river junctions, there is still a lack of information regarding the particular case of low width and discharge ratios, which are the typical conditions of mountain river confluences. Aiming at filling this gap, laboratory and numerical experiments were conducted, comparing the results with literature findings. Ten different confluences from 45 ∘ to 90 ∘ were simulated to study the effects of the junction angle on the flow structure, using a numerical code that solves the 3D Reynolds Averaged Navier-Stokes (RANS) equations with the k- ϵ turbulence closure model. The results showed that the higher the junction angle, the …

channel confluences; junction angle; flow deflection zone; flow retardation zone; flow separation zone; numerical modelling; PANORMUSlcsh:Hydraulic engineering010504 meteorology & atmospheric sciences0208 environmental biotechnologyGeography Planning and DevelopmentPANORMUS02 engineering and technologyAquatic ScienceFlow retardation zone01 natural sciencesBiochemistryFlow separation zoneSettore ICAR/01 - Idraulicalcsh:Water supply for domestic and industrial purposesDeflection (engineering)lcsh:TC1-978Junction angleTributarySeparation zone0105 earth and related environmental sciencesWater Science and Technologygeographylcsh:TD201-500geography.geographical_feature_categoryTurbulenceChannel confluenceMechanics020801 environmental engineeringNumerical modellingConfluenceFlow deflection zoneReynolds-averaged Navier–Stokes equationschannel confluencesGeology
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