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基于NLAS空腔噪声被动控制数值模拟

Cavity Noise Analysis and Passive Control using NLAS Method
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摘要 脉动压力(噪声)预测是飞行器内埋弹舱关键技术之一,非线性噪声求解方法是近年来新提出的一种噪声求解方法。为研究新方法对于空腔噪声的预测性能,选取长深比为5:1的空腔进行研究,计算了马赫数Ma=0.85条件下的空腔噪声。RANS计算采用Cubic k-ε模型用于求解空腔流场,计算得到当地雷诺应力张量和热通量的统计平均值,将其插值到噪声计算网格,根据这一统计平均结果对湍流进行人工重构。通过与试验结果对比,验证了方法预测空腔噪声的可靠性,研究了两种被动控制措施对于空腔噪声的抑制作用,结果表明,带RF和STS的腔体内部的压力幅值及总声压级都明显降低,且STS的抑制效果更好。 Prediction of oscillating pressure is a key technology for the weapon bay of aircraft cavity.Non-Linear Acoustics Solver ( NLAS) is proposed as a new method to analyze noise recently.In order to evaluate the reliability,a length to depth radio of 5:1 at Mach 0.85 are investigated.Local Reynolds stress tensor and heat flux are obtained by calculating RANS equations on Cubic k-εmodel and then interpolated into acoustic mesh.Turbulence is reconstructed based on the statistic average result.Its reliability is checked by comparing with the test results.On this basis,NLAS method is applied into research on the inhibition effect of passive control method for cavity noise.The results show that pressure amplitude and OASPL inside cavity with RF and STS are reduced significantly,and STS is better than RF.
作者 陈滨琦 王一丁 童明波
机构地区 南京航空航天大学航空宇航学院 成都飞机设计研究所
出处 《航空计算技术》 2015年第5期54-57,共4页 Aeronautical Computing Technique
基金 江苏高校优势学科建设工程基金资助
关键词 非线性噪声求解 脉动压力 空腔噪声 被动控制 non-linear acoustics solver oscillating pressure cavity noise passive control
分类号 V211.3 [航空宇航科学与技术—航空宇航推进理论与工程]
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参考文献6

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二级参考文献31

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共引文献33

航空计算技术
2015年 第5期

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