Newly-developed adaptive noise absorption control technology for high speed fan noise reduction.

Jsme International Journal Series C-mechanical Systems Machine Elements and Manufacturing Pub Date : 2006-09-15 DOI:10.1299/JSMEC.49.703

Hiroshi Kobayashi, Masaharu Koh, Shunichi Ozaki, M. Yokochi, Sato Takuo

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引用次数: 9

Abstract

The paper describes about a newly-developed adaptive noise absorption control (AAC) technology I for fan noise reduction and about proof test results of the technology. The AAC technology adaptively controls the reactance part of acoustic impedance of duct liners with mobile reflective plates and large acoustic chambers, absorbs fan tones and broadband noise together, and achieves larger overall fan noise reduction over a wide fan speed range. For actual proof of the technology, adaptive duct liner I was made on trial basis and was examined. The test result clarifies that the duct liner I could reduce fan noise larger than O.A. SPL 10dB (A) at max fan speed of 6000rpm, including reduction of low frequency noise and fundamental BPF tone and harmonics of 18dB at maximum. In response to fan speed change, the reflective plate movement control could achieve the large peak frequency shift and peak level increase in the acoustic absorption spectra, and could reduce fan noise larger than O.A. SPL 9dB (A) over the fan speed range from 1000 to 6000rpm.

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新开发的高速风机降噪自适应吸声控制技术。

本文介绍了一种新开发的风机降噪自适应吸声控制(AAC)技术及其验证试验结果。AAC技术采用移动反射板和大声室自适应控制风管衬板声阻抗的电抗部分，同时吸收风机音调和宽带噪声，在较宽的风机转速范围内实现更大的风机整体降噪。为验证该技术的可行性，在试验基础上制作了自适应管道内衬1号。试验结果表明，在风机最大转速为6000rpm时，风管内衬I可降低风机噪声大于0.1 SPL 10dB (A)，其中低频噪声和基频音调及谐波最大可降低18dB。针对风扇转速变化，反射板运动控制可实现吸声光谱峰值频移较大，峰值电平增加较大，在风扇转速1000 ~ 6000rpm范围内，可使风扇噪声降低大于0.5 SPL 9dB (A)。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Jsme International Journal Series C-mechanical Systems Machine Elements and Manufacturing

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