Search results for "Fluid dynamic"

showing 10 items of 1034 documents

On Approximation of Entropy Solutions for One System of Nonlinear Hyperbolic Conservation Laws with Impulse Source Terms

2010

We study one class of nonlinear fluid dynamic models with impulse source terms. The model consists of a system of two hyperbolic conservation laws: a nonlinear conservation law for the goods density and a linear evolution equation for the processing rate. We consider the case when influx-rates in the second equation take the form of impulse functions. Using the vanishing viscosity method and the so-called principle of fictitious controls, we show that entropy solutions to the original Cauchy problem can be approximated by optimal solutions of special optimization problems.

Cauchy problemConservation lawOptimization problemEntropy solutionsArticle SubjectVanishing viscosity methodMathematical analysisNonlinear fluid dynamicmodelsNonlinear conservation lawlcsh:QA75.5-76.95Computer Science ApplicationsNonlinear systemlcsh:TA1-2040Modeling and SimulationEvolution equationNonlinear fluid dynamicmodels; Vanishing viscosity method; Principle of fictitious controls; Entropy solutionsPrinciple of fictitious controlslcsh:Electronic computers. Computer scienceElectrical and Electronic Engineeringlcsh:Engineering (General). Civil engineering (General)Hyperbolic partial differential equationEntropy (arrow of time)MathematicsJournal of Control Science and Engineering

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A shallow water model with eddy viscosity for basins with varying bottom topography

2001

The motion of an incompressible fluid confined to a shallow basin with a varying bottom topography is considered. We introduce appropriate scalings into a three-dimensional anisotropic eddy viscosity model to derive a two-dimensional shallow water model. The global regularity of the resulting model is proved. The anisotropic form of the stress tensor in our three-dimensional eddy viscosity model plays a critical role in ensuring that the resulting shallow water model dissipates energy.

Cauchy stress tensorApplied MathematicsTurbulence modelingGeneral Physics and AstronomyStatistical and Nonlinear PhysicsMechanicsStructural basinPhysics::Fluid DynamicsWaves and shallow waterCompressibilityAnisotropyPhysics::Atmospheric and Oceanic PhysicsMathematical PhysicsMathematicsNonlinearity

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Nucleation and cavitation in parahydrogen

2012

We have used a density functional approach to investigate thermal homogeneous nucleation and cavitation in parahydrogen. The effect of electrons as seeds of heterogeneous cavitation in liquid parahydrogen is also discussed within the capillary model. (C) 2011 Elsevier B.V. All rights reserved.

CavitationMetastable phasesChemistryCapillary actionPhysics::Medical PhysicsNucleationGeneral Physics and AstronomyElectronPhysics::Classical PhysicsSpin isomers of hydrogenPhysics::Fluid DynamicsPhysics::Plasma PhysicsHomogeneousChemical physicsCavitationThermalPhysics::Atomic and Molecular ClustersNucleationPhysical chemistryPhysical and Theoretical ChemistryLiquid parahydrogen

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Static instability analysis for travelling membranes and plates interacting with axially moving ideal fluid

2010

The out-of-plane instability of a moving plate, travelling between two rollers with constant velocity, is studied, taking into account the mutual interaction between the buckled plate and the surrounding, axially flowing ideal fluid. Transverse displacement of the buckled plate (assumed cylindrical) is described by an integro-differential equation that includes the centrifugal force, the aerodynamic reaction of the external medium, the vertical projection of membrane tension, and the bending force. The aerodynamic reaction is found analytically as a functional of the displacement. To find the critical divergence velocity of the moving plate and its corresponding buckling mode, an eigenvalue…

Centrifugal forceaxially moving materialsaxial flowMechanical Engineeringideal fluidinstability analysisMechanicsBending of platesInstabilityAerodynamic forcePhysics::Fluid DynamicsClassical mechanicsBucklingReactionFSIpaper webbucklingAxial symmetryDisplacement (fluid)Mathematics

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Thermomechanical effects in the flow of a fluid in porous media

2002

This paper deals with analysis, by methods of extended thermodynamics, of the thermomechanical effects which arise in the flow of a weakly viscous fluid in a porous medium. Under the hypothesis that the fluid fills all the interstices among the powder and that the size of the powder grains and of the interstices is much lower than a suitable characteristic length, linearized field equations are written, which include, in a natural way, terms which take into account the Dufour, Soret, and virtual mass effects. As a limiting case when the evolution time of the heat flux goes to infinite and no entropy flux is carried, the flow of liquid helium II in a porous medium is obtained.

Characteristic lengthThermodynamicsViscous liquidComputer Science ApplicationsPhysics::Fluid DynamicsHeat fluxModeling and SimulationMass transferModelling and SimulationHeat transferFluid dynamicsBoundary value problemPorous mediumMathematicsMathematical and Computer Modelling

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Flows and mixing in channels with misaligned superhydrophobic walls.

2014

Aligned superhydrophobic surfaces with the same texture orientation reduce drag in the channel and generate secondary flows transverse to the direction of the applied pressure gradient. Here we show that a transverse shear can be easily generated by using superhydrophobic channels with misaligned textured surfaces. We propose a general theoretical approach to quantify this transverse flow by introducing the concept of an effective shear tensor. To illustrate its use, we present approximate theoretical solutions and Dissipative Particle Dynamics simulations for striped superhydrophobic channels. Our results demonstrate that the transverse shear leads to complex flow patterns, which provide a…

Chemical Physics (physics.chem-ph)Materials scienceDissipative particle dynamicsFluid Dynamics (physics.flu-dyn)Reynolds numberFOS: Physical sciencesPhysics - Fluid DynamicsMechanicsCondensed Matter - Soft Condensed MatterFluid transportVortexPhysics::Fluid DynamicsTransverse planesymbols.namesakeClassical mechanicsShear (geology)DragPhysics - Chemical PhysicssymbolsSoft Condensed Matter (cond-mat.soft)Pressure gradientPhysical review. E, Statistical, nonlinear, and soft matter physics

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Rayleigh scattering of linear alkylbenzene in large liquid scintillator detectors.

2015

Rayleigh scattering poses an intrinsic limit for the transparency of organic liquid scintillators. This work focuses on the Rayleigh scattering length of linear alkylbenzene (LAB), which will be used as the solvent of the liquid scintillator in the central detector of the Jiangmen Underground Neutrino Observatory. We investigate the anisotropy of the Rayleigh scattering in LAB, showing that the resulting Rayleigh scattering length will be significantly shorter than reported before. Given the same overall light attenuation, this will result in a more efficient transmission of photons through the scintillator, increasing the amount of light collected by the photosensors and thereby the energy…

Chemical Physics (physics.chem-ph)PhysicsPhysics - Instrumentation and DetectorsPhysics::Instrumentation and Detectorsbusiness.industryAttenuationDetectorFOS: Physical sciencesPhotodetectorScattering lengthInstrumentation and Detectors (physics.ins-det)ScintillatorHigh Energy Physics - ExperimentPhysics::Fluid DynamicsHigh Energy Physics - Experiment (hep-ex)symbols.namesakeOpticsPhysics - Chemical PhysicsScintillation countersymbolsRayleigh scatteringbusinessInstrumentationJiangmen Underground Neutrino ObservatoryThe Review of scientific instruments

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Simultaneous measurement of rotational and translational diffusion by forced Rayleigh scattering. Colloid spheres in suspension

1996

Abstract It is shown that the technique of forced Rayleigh scattering, traditionallyemployed to probe translational diffusion, can be employed to probe rotational diffusion as well. Thus with a single experiment both quantities are measured. The system under investigation is colloid spheres suspended in a glass-forming liquid. Furthermore, it is shown that the Stokes-Einstein and Debye-Stokes-Einstein relations for translational and rotational diffusion, respectively, are valid for spherical colloid particles in a supercooled liquid matrix in the vicinity of the glassy state.

ChemistryAnalytical chemistryGeneral Physics and AstronomyRotational diffusionMolecular physicsSuspension (chemistry)Physics::Fluid DynamicsCondensed Matter::Soft Condensed MatterColloidMatrix (mathematics)Forced Rayleigh scatteringSPHERESPhysical and Theoretical ChemistryDiffusion (business)SupercoolingChemical Physics Letters

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Generalized transport coefficients in a gas with large shear rate

1987

We get a solution of the Bhatnagar-Gross-Krook (BGK) model kinetic equation by means of a perturbative expansion of a temperature gradient to study the transport properties in a gas with large shear rate. The irreversible fluxes are evaluated exactly to first order in the expansion for Maxwell molecules. The transport coefficients obtained are highly nonlinear functions of the shear rate. This dependence on shear rate is analysed and compared with previous results for several transport coefficients. Finally, we have found a solution for a simple model of constant collision frequency for which a large shear rate coexists with an arbitrary temperature gradient.

ChemistryBiophysicsThermodynamicsMechanicsCondensed Matter PhysicsFirst orderPhysics::Fluid DynamicsShear rateSimple shearNonlinear systemTemperature gradientCollision frequencyKinetic equationsPhysical and Theoretical ChemistryConstant (mathematics)Molecular BiologyMolecular Physics

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Multiphase chemistry in a microphysical radiation fog model—A numerical study

1993

A microphysical radiation fog model is coupled with a detailed chemistry module to simulate chemical reactions in the gas phase and in fog water during a radiation fog event. In the chemical part of the model the microphysical particle spectrum is subdivided into three size classes corresponding to non-activated aerosol particles, small and large fog droplets. Chemical reactions in the liquid phase are separately calculated in the small and in the large droplet size class. The impact of the chemical constitution of activated aerosols on fogwater chemistry is considered in the model simulations. The mass transfer of chemical species between the gas phase and the two liquid phases is treated …

ChemistryCondensationEvaporationChemical reactionAerosolPhysics::Fluid DynamicsDeposition (aerosol physics)SettlingChemical physicsEnvironmental chemistryMass transferGeneral Earth and Planetary SciencesParticleGeneral Environmental ScienceAtmospheric Environment. Part A. General Topics

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