Noise radiated by a non-isothermal, temporal mixing layer. II: Prediction using DNS in the framework of low Mach number approximation
From MaRDI portal
Publication:2501830
DOI10.1007/s00162-005-0002-xzbMath1112.76448OpenAlexW1493059167MaRDI QIDQ2501830
Véronique Fortuné, Eric Lamballais, François Golanski
Publication date: 12 September 2006
Published in: Theoretical and Computational Fluid Dynamics (Search for Journal in Brave)
Full work available at URL: https://doi.org/10.1007/s00162-005-0002-x
Direct numerical and large eddy simulation of turbulence (76F65) Hydro- and aero-acoustics (76Q05) Turbulent transport, mixing (76F25)
Related Items (8)
Dynamical \(p\)-adaptivity for LES of compressible flows in a high order DG framework ⋮ Hybrid aeroacoustic computation of a low Mach number non-isothermal shear layer ⋮ A new highly scalable, high-order accurate framework for variable-density flows: application to non-Boussinesq gravity currents ⋮ Control of the vorticity mode in the linearized Euler equations for hybrid aeroacoustic prediction ⋮ A hybrid adaptive low-Mach number/compressible method: Euler equations ⋮ Identifying the radiating core of Lighthill's source term ⋮ Noise radiated by a non-isothermal, temporal mixing layer. I: Direct computation and prediction using compressible DNS ⋮ Sound generation mechanism of compressible vortex reconnection
Cites Work
- Direct numerical simulation of a turbulent reactive plume on a parallel computer
- Compact finite difference schemes with spectral-like resolution
- A semi-implicit numerical scheme for reacting flow. I: Stiff chemistry
- Influence of initial conditions on compressible vorticity dynamics
- Noise investigation of a high subsonic, moderate Reynolds number jet using a compressible large eddy simulation
- Conservative high-order finite difference schemes for low-Mach number flows
- Noise radiated by a non-isothermal, temporal mixing layer. I: Direct computation and prediction using compressible DNS
- Noise sources in a low-Reynolds-number turbulent jet at Mach 0.9
- Validation of acoustic-analogy predictions for sound radiated by turbulence
- The baroclinic secondary instability of the two-dimensional shear layer
- Sound radiation due to unsteady dissipation in turbulent flows
- Acoustics of Fluid-Structure Interactions
- A study of compressibility effects in the high-speed turbulent shear layer using direct simulation
- Sound generation in a mixing layer
- Direct Numerical Simulation of Wakes with Virtual Cylinders
- Effects of the free-stream density ratio on free and forced spatially developing shear layers
- Étude par simulation directe temporelle des effets de la température sur l'émission acoustique des couches de mélange
- Aeroacoustics of hot jets
- Direct computation of the sound from a compressible co-rotating vortex pair
- Sound generation by turbulence and surfaces in arbitrary motion
- Aerodynamic Sound Emission as a Singular Perturbation Problem
- On sound generated aerodynamically I. General theory
This page was built for publication: Noise radiated by a non-isothermal, temporal mixing layer. II: Prediction using DNS in the framework of low Mach number approximation
