大涡模拟的蒸汽截止阀流致噪声数值研究(英文)

被引：9

作者：

刘继明

张涛

张咏鸥

机构：

[1] SchoolofNavalArchitectureandOceanEngineering,HuazhongUniversityofScience&Technology

来源：

JournalofMarineScienceandApplication | 2013年 / 12卷 / 03期

关键词：

flow-induced noise; steam stop-valve; flow field; sound field; large eddy simulation(LES); computational fluid dynamics(CFD); ACTRAN;

D O I：

暂无

中图分类号：

TB533.1 []; TB126 [工程流体力学];

学科分类号：

083002 ; 120402 ; 080704 ;

摘要：

The noise induced by the fluctuant saturated steam flow under 250 °C in a stop-valve was numerically studied.The simulation was carried out using computational fluid dynamics(CFD) and ACTRAN.The acoustic field was investigated with Lighthill's acoustic analogy based on the properties of the flow field obtained using a large-eddy simulation that employs the LES-WALE dynamic model as the sub-grid-scale model.Firstly,the validation of mesh was well conducted,illustrating that two million elements were sufficient in this situation.Secondly,the treatment of the steam was deliberated,and conclusions indicate that when predicting the flow-induced noise of the stop-valve,the steam can be treated as incompressible gas at a low inlet velocity.Thirdly,the flow-induced noises under different inlet velocities were compared.The findings reveal it has remarkable influence on the flow-induced noises.Lastly,whether or not the heat preservation of the wall has influence on the noise was taken into account.The results show that heat preservation of the wall had little influence.

引用

页码：351 / 360

页数：10

共 11 条

[1]

Effect of non-uniform mean flow field on acoustic propagation problems in computational aeroacoustics[J] . Haiqing Si,Wenzhong Shen,Weijun Zhu.Aerospace Science and Technology . 2012

[2] A numerical optimization on the vibroacoustics of a centrifugal fan volute [J].

Lu, F. A. ;

Qi, D. T. ;

Wang, X. J. ;

Zhou, Z. ;

Zhou, H. H. .

JOURNAL OF SOUND AND VIBRATION, 2012, 331 (10) :2365-2385

[3]

Effect of blade wrap angle on efficiency and noise of small radial fan impellers—A computational and experimental study[J] . C. Scheit,B. Karic,S. Becker.Journal of Sound and Vibration . 2011 (5)

[4] Using large eddy simulation to explore sound-source mechanisms in jets [J].

Cavalieri, Andre V. G. ;

Daviller, Guillaume ;

Comte, Pierre ;

Jordan, Peter ;

Tadmor, Gilead ;

Gervais, Yves .

JOURNAL OF SOUND AND VIBRATION, 2011, 330 (17) :4098-4113

[5]

LES-based evaluation of a microjet noise reduction concept in static and flight conditions[J] . M.L. Shur,P.R. Spalart,M.Kh. Strelets.Procedia Engineering . 2010

[6]

Sources of high-speed jet noise: Analysis of LES data and modeling[J] . Sanjiva K. Lele,Simon Mendez,Jaiyoung Ryu,Joseph Nichols,Mohammad Shoeybi,Parviz Moin.Procedia Engineering . 2010

[7] Numerical simulation of cavity flow induced noise by LES and FW-H acoustic analogy [J].

Zhang, Nan ;

Shen, Hong-cui ;

Yao, Hui-zhi .

JOURNAL OF HYDRODYNAMICS, 2010, 22 (05) :242-247

[8] Large-eddy simulations of chevron jet flows with noise predictions [J].

Xia, Hao ;

Tucker, Paul G. ;

Eastwood, Simon .

INTERNATIONAL JOURNAL OF HEAT AND FLUID FLOW, 2009, 30 (06) :1067-1079

[9]

Computation of a high Reynolds number jet and its radiated noise using large eddy simulation based on explicit filtering[J] . Christophe Bogey,Christophe Bailly.Computers and Fluids . 2005 (10)

[10]

Investigation of an isothermal Mach 0.75 jet and its radiated sound using large-eddy simulation and Kirchhoff surface integration[J] . Niklas Andersson,Lars-Erik Eriksson,Lars Davidson.International Journal of Heat and Fluid Flow . 2004 (3)

← 1 2 →