Search results for "Shear layer"

showing 4 items of 4 documents

The capillary waves' contribution to wind-wave generation

2022

Published theories and observations have shown that dissipation of gravity waves implies frequency downshifting of wave energy. Hence, for wind-waves, the wind energy input to the highest frequencies is of special interest. Here it is shown that this input is vital, because the direct wind energy input obtained by the air-pressure’s work on most gravity waves is slightly less than what the waves need to grow. Further, the wind’s input of the angular momentum that waves need to grow is found to be absent at most gravity wave frequencies. The capillary waves that appear at the surface of the sea when the wind is blowing solve these problems. To demonstrate this, an extension of linear wave th…

Fluid Flow and Transfer ProcessesVDP::Matematikk og Naturvitenskap: 400::Fysikk: 430Mechanical Engineeringwind-waves; capillary waves; gravity waves; wind-shear layer; viscosityCondensed Matter Physics
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Influence of Internal Energy on the Stability of Relativistic Flows

2003

A set of simulations concerning the influence of internal energy on the stability of relativistic jets is presented. Results show that perturbations saturate when the amplitude of the velocity perturbation approaches the speed of light limit. Also, contrary to what predicted by linear stability theory, jets with higher specific internal energy appear to be more stable.

PhysicsShear layerClassical mechanicsAmplitudeInternal energyAstrophysical jetLinear stability theoryLinear stability analysisAstrophysics::High Energy Astrophysical PhenomenaPerturbation (astronomy)MechanicsAstrophysicsRelativistic particle
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Investigation of an entropic stabilizer for the lattice-Boltzmann method

2015

The lattice-Boltzmann (LB) method is commonly used for the simulation of fluid flows at the hydrodynamic level of description. Due to its kinetic theory origins, the standard LB schemes carry more degrees of freedom than strictly needed, e.g., for the approximation of solutions to the Navier-stokes equation. In particular, there is freedom in the details of the so-called collision operator. This aspect was recently utilized when an entropic stabilizer, based on the principle of maximizing local entropy, was proposed for the LB method [I. V. Karlin, F. Bosch, and S. S. Chikatamarla, ¨ Phys. Rev. E 90, 031302(R) (2014)]. The proposed stabilizer can be considered as an add-on or extension to b…

PhysicsShear layerta114Lattice Boltzmann methodslattice-Boltzmann methodOrder of accuracyStatistical physicsNumerical validationCollision operatorPhysical Review E
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Complex singularity analysis for vortex layer flows

2021

We study the evolution of a 2D vortex layer at high Reynolds number. Vortex layer flows are characterized by intense vorticity concentrated around a curve. In addition to their intrinsic interest, vortex layers are relevant configurations because they are regularizations of vortex sheets. In this paper, we consider vortex layers whose thickness is proportional to the square-root of the viscosity. We investigate the typical roll-up process, showing that crucial phases in the initial flow evolution are the formation of stagnation points and recirculation regions. Stretching and folding characterizes the following stage of the dynamics, and we relate these events to the growth of the palinstro…

Physics::Fluid Dynamicsshear layersMechanics of MaterialsMechanical Engineeringfree shear layersNavier-Stokes equationsCondensed Matter PhysicsSettore MAT/07 - Fisica Matematica
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