论文信息 - Review of computational aeroacoustics for application in electronics cooler noise

Review of computational aeroacoustics for application in electronics cooler noise

A review of computational aeroacoustics (CCA) was made for application in electronics cooler noise. Computational aeroacoustics encompasses all numerical methods where the purposes is to predict the noise emissions from a simulated flow. Numerical simulation of the flow inside and around heat sinks and fans can lead to a prediction of the emitted noise while they are still in the design phase. Direct CCA is theoretically the best way to predict flow-based acoustic phenomena numerically. It is typically used only for low-frequency sound prediction. The boundary element method offers low computational cost and does not use a computational grid, but instead use vortex-surface calculations to determine tonal noise. Axial fans are commonly used to increase the airflow and thus the heat transfer over the heat sinks within the computer cases. Very detailed source simulations in the fan and heat sink region coupled with the use of analogy methods could result in excellent simulation results with a reasonable computational effort.

Colin Novak | Jeff Defoe

[1] A. Lyrintzis. Surface Integral Methods in Computational Aeroacoustics—From the (CFD) Near-Field to the (Acoustic) Far-Field , 2003 .

[2] A. Powell. Theory of Vortex Sound , 1964 .

[3] S. Kouidri,et al. Aeroacoustic performance evaluation of axial flow fans based on the unsteady pressure field on the blade surface , 2004 .

[4] Wan-Ho Jeon. A numerical study on the effects of design parameters on the performance and noise of a centrifugal fan , 2003 .

[5] Stéphane Caro,et al. Identification of the Appropriate Parameters for Accurate CAA , 2005 .

[6] D. L. Hawkings,et al. Sound generation by turbulence and surfaces in arbitrary motion , 1969, Philosophical Transactions of the Royal Society of London. Series A, Mathematical and Physical Sciences.

[7] Anastasios S. Lyrintzis,et al. Integral methods for computational aeroacoustics , 1997 .

[8] Rafael Ballesteros-Tajadura,et al. Numerical Prediction of the Aerodynamic Tonal Noise in a Centrifugal Fan , 2002 .

[9] Avram Bar-Cohen,et al. Flow and pressure field characteristics in the porous block compact modeling of parallel plate heat sinks , 2003 .

[10] R. L. Linton,et al. Coarse and detailed CFD modelling of a finned heat sink , 1994 .

[11] F. Farassat,et al. An Analytical Comparison of the Acoustic Analogy and Kirchhoff Formulation for Moving Surfaces , 1997 .