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VACUUM ›› 2019, Vol. 56 ›› Issue (3): 66-70.doi: 10.13385/j.cnki.vacuum.2019.03.15

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Numerical calculation of thermoacoustic engine with distributed parameter method

YANG Song, ZHANG Shi-qiang, ZHOU Jin, KONG Xiao-li, LI Hong-yu, ZHAO Wei   

  1. School of Materials and Metallurgy, University of the Science and Technology Liaoning, Anshan, 114051, China
  • Received:2018-03-24 Published:2019-06-26

Abstract: In this paper, the numerical simulation, which was illustrated by the case of the network model of travelling-wave thermoacoustic engine, was calculated by using distributed parameter method, and the construction dimension and operation condition of calculation model run parallel with experimental model. Based on linear thermoacoustics, it succeeded in obtaining the status of fluctuating pressure amplitude and volumetric flow rate amplitude in the thermoacoustic system through MATLAB programming. Then, the acoustic power flow amplitude was also calculated.

Key words: distributed parameter method, network model, thermoacoustic engine

CLC Number: 

  • TK121
[1] Arman B, Wollan J J, Kotsubo V, et al.Operation of themoacoustic stirling heat engine driven large multiple pulse tube refrigerator. In: Ross, R GJr. Cryo coolers 13[C].New York: Springer Science and Business Media Inc.,2004:181-187.
[2] Backhaus S,Swift G W.A thermoacoustic-Stirling heat engine:Detailed study[J].J.Acoustic.Soc.Am.,2000(107):3148-3166.
[3] Greg Swift.Thermoacoustics: A unifying Perspective for Some Engines and Refrigerators[M]. New York: Acoustic Society of America, 2001, 247-250.
[4] Backhaus S, Swift G W.A thermoacoustic-stirling heat engine[J]. Nature, 1999, 399:335-338.
[5] 罗志昌. 流体网络理论[M]. 北京:机械工业出版社,1988.
[6] 杨梅. 行波型热声发动机的热力分析和实验研究[D]. 杭州:浙江大学, 2003.
[7] Ward W C, Swift G W.Design environment for low-amplitude thermoacoustic Engines (DeltaE)[J].J Acoustic Soc Am, 1994, 95: 3671-3672.
[8] 余国瑶, 罗二仓, 戴巍. 热声斯特林发动机热动力学特性CFD研究[J]. 低温工程, 2006,5:11-16.
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