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zhao 发表于 2008-3-2 08:28

离心风机气动声学分析的一个理论模型和计算方法

离心风机气动声学分析的一个理论模型和计算方法
6pV2rv6W\6}b 刘秋洪, 祁大同, 曹淑珍, 张义云, 闻苏平
6N}c+i `ch(~1O (西安交通大学流体机械研究所, 710049 , 西安)F XV-H ^
摘要: 通过求解具有延迟时间、包含三维流速影响的非齐次波动方程,得到了离心叶轮气动声学的基本方$Y5{'w3s3E4xcN*Y-p
程. 对气动声源的分析表明,在离心风机的气动噪声中,起主要影响作用的是偶极子和四极子声源,而流动过n(z8] D;Jh
程中产生的涡是最主要的四极子源. 提出了一种用于分析离心风机气动噪声的声学模型,即忽略蜗壳进、出
:n Y,OyQ5j*U(T)c;YBN#{ 口声学软边界的影响,将蜗壳简化为一个封闭的声学硬边界柱壳,并推出了柱壳腔体内的格林函数. 利用该y[9CFQ/xZ3]\B
函数对离心风机内部由旋转叶轮产生的气动声场进行了时域求解并给出了理论解方程. 在计算出离心风机
w$C)q/e,ky^Y6p7h/v:c 内部的三维非稳定流场之后,利用本文模型和理论解方程就可求出与该流场相对应的气动声场.F'[2r*~+]/C`
关键词: 离心风机;气动声学;理论模型;格林函数
[(~}J7X:b@'f 中图分类号: O42 　文献标识码: A 　文章编号: 0253 - 987X(2004) 03 - 0313 - 04^P8Q`,H)KI
Theoretical Model for Aeroacoustics Analysis of Centrifugal Fans
g?g;^q V0V L iu Qiuhong , Qi Datong , Cao S huz hen , Zhang Yiyun , Wen S uping'Zk7F-j_ Q
( Fluid Machinery Institute , Xi′an Jiaotong University , Xi′an 710049 , China);LBP&s0iN)m'u0~
Abstract : The fundamental aeroacoustic equation of the cent rifugal impeller was established by solving the inho2^}eC(@4hR;@
mogeneous , uniformly moving medium wave equation. Then , the Lighthill’s acoustic analogy theory and Pow2
t*g
K3[4ZTpF:[ ell2Howe’s vortex sound theory were applied to the analyses of the aeroacoustic sources of a cent rifugal fan. It is
b|@7T`&? shown that the dipole and quadrupole sources are the key factors for the fan’s aerodynamic sound , and the vor2
#Hz}9kk.]*_8yJ texes inside the fan flow field are the uppermost quadrupole sources. For aeroacoustics analysis of a cent rifugal
5t8]8uG3B]|1]S`5V#G fan , we proposed a theoretical model , i. e. neglecting the influence of sound2soft boundary at the inlet and outlet
z3i,Jb_T&o%Nxx\T4H of a cent rifugal fan. The volute was simplified to be a cylindrical cavity with sound hard wall. Finally , Green Z5fbc%F
function in the cylindrical cavity space was presented , and the aeroacoustic solution in the cent rifugal fan was de2
*?.[zLm&HZ Kh,M duced in time2domain by using the Green function. According to the calculated result s of the three2dimensional%R9n{+z$eL)q$F _;CV
unsteady flow in a cent rifugal fan , the corresponding sound field may be obtained.j'Q:L/Km"C&_
Keywords : cent rif ugal f an ; aeroacoustics ; theoretical model ; Green f unction

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