Direct noise prediction and control of an installed large low-speed radial fan

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• 作者：Marlè ; ne Sanjose ; ^{marlene.sanjose@gmail.com} ; Sté ; phane Moreau
• 关键词：Aeroacoustics ; Radial fan noise ; Flow and noise control
• 刊名：European Journal of Mechanics - B/Fluids
• 出版年：2017
• 出版时间：January-February 2017
• 年：2017
• 卷：61
• 期：part_P2
• 页码：235-243
• 全文大小：7668 K
• 卷排序：61

文摘

The aeroacoustics of several configurations of a large complex radial fan module typical of ventilation systems used in building or large transportation systems has been directly simulated with a Lattice Boltzmann Method. For the reference configuration the available flow measurements are well captured by the simulation and excellent noise predictions are achieved for all microphones both in terms of levels and spectral shape. The inlet distortion and a flow separation at the fan blade foot are shown to cause the observed strong tonal noise at the blade passing frequency. The unsteadiness of the tonal noise is also traced to large “cucumber-like” coherent structures wandering on the fan hub and hitting the blade leading edge quite randomly. Fan hub contouring is shown to almost eliminate the flow detachment at the hub and improve fan performances. Yet it does not reduce the inlet distortion and has only a marginal effect on the noise. Adding a thin filter on the bellmouth removes the large turbulent structures ingested by the fan and improves the flow-field uniformity at the fan inlet. Significant noise reduction is then achieved eventhough additional pressure losses are introduced. A final tonal noise control with a rotating obstruction placed on the fan bellmouth has been successfully simulated yielding the expected sound modulation. All these flow and acoustic features compare remarkably well between the measurements and the simulations.