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机构地区:[1]海军工程大学舰船工程系,武汉430033 [2]海军湛江地区装备修理监修室,广东湛江524005
出 处:《振动与冲击》2013年第11期145-148,共4页Journal of Vibration and Shock
基 金:总装十二五预研项目(51314010204)
摘 要:利用导管声波模态理论给出导管声波截止频率;采用边界元方法计算不同流速条件下、不同导管半径及导管半径波长比时的导管内外声场。结果表明,对相同的导管和声源,流速的增加会使截止频率减小;因介质速度影响,导管侧壁及下游管口方向声场能量会向上游管口方向转移,且在低频、高流速条件下,此规律更明显。In order to investigate impact of fluid velocity on acoustic field of a finite-length duct, the cut-off frequency was deduced based on the acoustic modal theory. Then, the interior and exterior acoustic fields of the finite-length duct were calculated with the boundary element method under conditions of various fluid velocities, duct radiuses and radius-to-wavelength ratios. It was shown that for the identical duct and sound source, the cut-off frequency decreases with increase in fluid velocity; the sound energy at the side wall and the downstream nozzle of the duct moves upwards due to the influence of fluid velocity; this law is more obvious at lower frequency or larger fluid velocity.
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