Time domain finite volume method for the transient response and natural characteristics of structural-acoustic coupling in an enclosed cavity

Time domain finite volume method for the transient response and natural characteristics of structural-acoustic coupling in an enclosed cavity

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摘要 A time domain finite volume method（TDFVM）based on wave theory is developed to analyze the transient response and natural characteristics of structural-acoustic coupling problems in an enclosed cavity.In the present method,the elastic dynamic equations and acoustic equation in heterogeneous medium are solved in solid domains and fluid domains respectively.The structural-acoustic coupling is implemented according to the continuity condition of the particle velocity along the normal direction and the normal traction equilibrium condition on the interface.Several numerical examples are presented to validate the effectiveness and accuracy of the present TDFVM.Then the effects of water depth on the acoustic and vibration characteristics and the natural characteristics of a structural-acoustic coupling system are analyzed.The numerical results show that the increase of water depth leads to a stronger coupling between the water and structure and the decrease of natural frequencies of coupling system,The computational cost and memory of this method are small and it can be applicable to structural-acoustic coupling problems in the heterogeneous fluid. A time domain finite volume method（TDFVM）based on wave theory is developed to analyze the transient response and natural characteristics of structural-acoustic coupling problems in an enclosed cavity.In the present method,the elastic dynamic equations and acoustic equation in heterogeneous medium are solved in solid domains and fluid domains respectively.The structural-acoustic coupling is implemented according to the continuity condition of the particle velocity along the normal direction and the normal traction equilibrium condition on the interface.Several numerical examples are presented to validate the effectiveness and accuracy of the present TDFVM.Then the effects of water depth on the acoustic and vibration characteristics and the natural characteristics of a structural-acoustic coupling system are analyzed.The numerical results show that the increase of water depth leads to a stronger coupling between the water and structure and the decrease of natural frequencies of coupling system,The computational cost and memory of this method are small and it can be applicable to structural-acoustic coupling problems in the heterogeneous fluid.

作者 XUAN Lingkuan MING Pingjian ZHANG Wenping JIN Guoyong GONG Jingfeng

机构地区 China Ship Development and Design Center College of Power and Energy Engineering

出处《Chinese Journal of Acoustics》 2014年第3期212-227,共16页 声学学报（英文版）

基金 supported by the Fundamental Research Funds for the Central Universities(HEUCF100307) the National Natural Science Foundation of China(51279035)

关键词 Time domain finite volume method for the transient response and natural characteristics of structural-acoustic coupling in an enclosed cavity

分类号 O422.8 [理学—声学] O241.8 [理学—计算数学]

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1宣领宽,张文平,明平剑,龚京风,许万军.预测消声器声学性能的时域非结构有限体积法[J].哈尔滨工程大学学报,2012,33(2):185-191. 被引量：4
2YAO Haoping ZHANG Jianrun CHEN Nan SUN Qinghong.Analysis of structural-acoustic coupling of elastic rectangular enclosure with arbitrary boundary conditions[J].Chinese Journal of Acoustics,2007,26(4):358-366. 被引量：2

二级参考文献21

1靳国永,杨铁军,刘志刚,李玩幽,季振林.弹性板结构封闭声腔的结构-声耦合特性分析[J].声学学报,2007,32(2):178-188. 被引量：30
2MUNJAL M L,RAO K N,SAHASRABUDHE A D.Aeroacoustic analysis of perforated muffler components[J].Journal of Sound and Vibration,1987,114(2):173-188.
3MILES J.The reflection of sound due to change in crosssection of circular tube[J].Journal of the Acoustical Socie-ty of America,1944,16(1):14-19.
4PEAT K S.Evaluation of four-pole parameters for ducts withflow by the finite element method[J].Journal of Sound andVibration,1982,84(3):389-395.
5JI Z L,MA Q,ZHANG Z H.Application of the boundaryelement method to predicting acoustic performance of expan-sion chamber mufflers with mean flow[J].Journal of Soundand Vibration,1994,173(1):57-71.
6CHANG I J,CUMMINGS A.A time domain solution for theattenuation,at high amplitudes,of perforated tube silencersand comparison with experiment[J].Journal of Sound andVibration,1988,122:243-259.
7MOREL T,MOREL J,BLASER D A.Fluid dynamic andacoustic modeling of concentric-tube resonators/silencers[J].SAE Transactions,1991,100:35-51.
8SELAMET A,DICKEY N S,NOVAK J M.A time-domaincomputational simulation of acoustic silencers[J].Journalof Vibration and Acoustics,1995,223:323-331.
9ONORATI A,PEROTTI M,REBAY S.Modelling one di-mensional unsteady flows in ducts:symmetric finite differ-ence schemes versus Galerkin discontinuous finite elementmethods[J].International Journal of Mechanical Sciences,1997,39(11):1213-1236.
10DICKEY N S,SELAMET A.Effects of numerical dissipa-tion and dispersion on acoustic predictions from a time-do-main finite difference technique for non-linear wave dynam-ics[J].Journal of Sound and Vibration,2003,259(1):193-208.

共引文献4

1王盛春,沈卫东,徐嘉锋,李赟.Structural-acoustic coupling characteristics of honeycomb sandwich plate based on parameter sensitivity analysis[J].Journal of Central South University,2014,21(1):252-261. 被引量：1
2宣领宽,明平剑,张文平,靳国永,龚京风.封闭声腔的结构-声耦合的瞬态响应及固有特性分析的时域有限体积法[J].声学学报,2014,39(2):215-225. 被引量：2
3宣领宽,龚京风,张文平,袁兴军.求解声波动方程的隐格式有限体积法[J].哈尔滨工业大学学报,2016,48(7):145-149. 被引量：1
4龚京风,宣领宽,周健,彭春萌.结构声耦合对膨胀腔水消声器声学性能的影响[J].哈尔滨工业大学学报,2018,50(10):189-193. 被引量：7

1李锋,马红艳.断裂力学在冰工程中的应用[J].冰川冻土,2010,32(1):139-150. 被引量：12
2李开海.弹性动力学方程的非重叠型边界元区域分解算法[J].重庆建筑大学学报,2000,22(6):24-28. 被引量：1
3吕念春,程云虹,司会柳,程靳.横观各向同性体的轴对称弹性动力学方程的推导[J].哈尔滨工业大学学报,2005,37(3):378-380.
4李开海.弹性动力学方程边界元法计算公式探讨[J].重庆建筑大学学报,1999,21(2):38-41. 被引量：1
5YAO Haoping ZHANG Jianrun CHEN Nan SUN Qinghong.Analysis of structural-acoustic coupling of elastic rectangular enclosure with arbitrary boundary conditions[J].Chinese Journal of Acoustics,2007,26(4):358-366. 被引量：2
6HUI Junying, LIU Hong, YU Huabing, FAN Minyi, LIANG Guolong (Underwater Acoustic Engineering Dept., Harbin Engineering University Harbin 150001).Study on the physical basis of pressure and particle velocity combine processing[J].Chinese Journal of Acoustics,2001,20(3):203-212. 被引量：1
7Weiqi HUANGt and Chaogang CHEN(Department of Physics, Guizhou Educational College, Guiyan 550003, China)Ergang CHEN(Department of Physics, Yunnan University, Kunming 650091, China)To whom correspondence should be addressed.Effect of the Transient Response in Si/Ge Parallelizing PN Junction[J].Journal of Materials Science & Technology,1999,15(4):383-383. 被引量：10
8Yu Wenhua (Res,Inst. of EM field and Microwave tech,Soulhwest Jiaotong University) Chengdu 6 1 003 1, ChinaPeng Zhongqiu (Beijing Remote Sensing and In formation Institute)Beijng1 0001 1,ChinaRen Lang (Res.Inst of EM field and Microwave tech,Southwest.A New Method of Computing the Transient Response of a Dielectric Square Cylinder[J].Journal of Modern Transportation,1995,12(2):187-191.
9吕念春,胥红敏,程靳.正交异性体弹性动力学方程另一形式自相似解[J].哈尔滨工业大学学报,2004,36(8):1095-1097. 被引量：2
10徐柏军,岳春国,徐正军.伪随机数实现及变换方法研究[J].科学技术与工程,2007,7(11):2472-2475. 被引量：4

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Time domain finite volume method for the transient response and natural characteristics of structural-acoustic coupling in an enclosed cavity

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