Phoi-Tack Lew scite author profile

The lattice-Boltzmann method ͑LBM͒ was used to study the far-field noise generated from a Mach, M j = 0.4, unheated turbulent axisymmetric jet. A commercial code based on the LBM kernel was used to simulate the turbulent flow exhausting from a pipe which is 10 jet radii in length. Near-field flow results such as jet centerline velocity decay rates and turbulence intensities were in agreement with experimental results and results from comparable LES studies. The predicted far field sound pressure levels were within 2 dB from published experimental results. Weak unphysical tones were present at high frequency in the computed radiated sound pressure spectra. These tones are believed to be due to spurious sound wave reflections at boundaries between regions of varying voxel resolution. These "VR tones" did not appear to bias the underlying broadband noise spectrum, and they did not affect the overall levels significantly. The LBM appears to be a viable approach, comparable in accuracy to large eddy simulations, for the problem considered. The main advantages of this approach over Navier-Stokes based finite difference schemes may be a reduced computational cost, ease of including the nozzle in the computational domain, and ease of investigating nozzles with complex shapes.

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Noise Prediction of a Subsonic Turbulent Round Jet Using the Lattice-Boltzmann Method

Lew

Lyrintzis

Crouse³

et al. 2007

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Towards Lattice-Boltzmann Prediction of Turbofan Engine Noise

Casalino¹,

Ribeiro²,

Fares³

et al. 2014

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The goal of the present paper is to report verification and validation studies carried out by Exa Corporation in the framework of turbofan engine noise prediction through the hybrid Lattice-Boltzmann/Ffowcs-Williams & Hawkings approach (LB)-(FW-H). The underlying noise generation and propagation mechanisms related to the jet flow field and the fan are addressed separately by considering a series of elementary numerical experiments. As far as fan and jet noise generation is concerned, validation studies are performed by comparing the LB solutions with literature experimental data, whereas, for the fan noise transmission through and radiation from the engine intake and bypass ducts, LB solutions are compared with finite element solutions of convected wave equations. In particular, for the fan noise propagation, specific verification analyses are carried out by considering tonal spinning duct modes in the presence of a liner, which is modelled as an equivalent acoustic porous medium. Finally, a capability overview is presented for a comprehensive turbofan engine noise prediction, by performing LB simulation for a generic but realistic turbofan engine

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Effects of Inflow Forcing on Jet Noise Using Large Eddy Simulation

Lew

Uzun

Blaisdell

et al. 2004

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Fundamental Aeroacoustics Capabilities of the Lattice-Boltzmann Method

Crouse¹,

Freed²,

Balasubramanian³

et al. 2006

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Phoi-Tack Lew

Noise prediction of a subsonic turbulent round jet using the lattice-Boltzmann method

Noise Prediction of a Subsonic Turbulent Round Jet Using the Lattice-Boltzmann Method

Towards Lattice-Boltzmann Prediction of Turbofan Engine Noise

Effects of Inflow Forcing on Jet Noise Using Large Eddy Simulation

Fundamental Aeroacoustics Capabilities of the Lattice-Boltzmann Method

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