Synthetic Jet cooling using asymmetric acoustic dipoles

Synthetic Jet cooling using asymmetric acoustic dipoles

In two earlier papers the principles and experimental results have been discussed for a typical embodiment of synthetic jet cooling technology: an acoustic dipole cooler comprised of a standard loudspeaker in a housing provided with two pipes. The current paper shows experimental and numerical resul...

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Bibliographische Detailangaben
Hauptverfasser: Lasance, C.J.M., Nicole, C., Aarts, R.M., Ouweltjes, O., Kooijman, G., Nieuwendijk, J.
Format: Tagungsbericht
Sprache:eng
Schlagworte:
Acoustic measurements
Acoustic noise
Actuators
Cooling
Fans
Frequency
Heat transfer
Loudspeakers
Paper technology
Proposals
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Beschreibung
Zusammenfassung:In two earlier papers the principles and experimental results have been discussed for a typical embodiment of synthetic jet cooling technology: an acoustic dipole cooler comprised of a standard loudspeaker in a housing provided with two pipes. The current paper shows experimental and numerical results for another type: the asymmetric dipole. Basically, this type consists of a loudspeaker with a minimal volume attached to it with one or more holes with or without pipes. Results for driving power and noise are presented for a number of actuators covering a large parameter space: frequency, pipe dimensions and driving voltage were varied over a large range. A relatively simple acoustic model extended to include separation losses matched the experimental results very well. The results indicate promising heat transfer performance with minimal noise combined with a large degree of freedom.
ISSN:1065-2221
2577-1000
DOI:10.1109/STHERM.2009.4810772