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超声空化气泡运动方程的理论推导 被引量:2

Theoretical Research of Ultrasonic Cavitation Bubble Dynamic Equation
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摘要 文章在考虑了液体表面张力、液体粘滞性和辐射阻尼等条件下推导出单一空化气泡的运动方程,为用数值方法进一步研究空化气泡的运动过程提供了理论基础。 This essay deduced single cavitation bubble dynamic equation under the consideration of liquid surface tension, viscosity and radiative resistance, and provided an academic base for the research of cavitation bubble dynamics with numerical simulations.
作者 王捷
机构地区 西安邮电学院
出处 《价值工程》 2010年第34期38-39,共2页 Value Engineering
关键词 超声空化 空化气泡 气泡运动 ultrasonic cavitation, cavitation bubble bubble dynamics
分类号 TQ018 [化学工程]
  • 相关文献

参考文献3

  • 1冯若.超声手册[M].南京:南京大学出版社,2001..
  • 2Rayleigh J W. On the pressure developed in a liquid during the collapse of a spherical cavity[J]. Philos Magi917,34;94-98.
  • 3王文杰,陈伟中,姜李安,魏荣爵.自相似声压驱动下气泡的振动[J].声学学报,2005,30(1):31-36. 被引量:7

二级参考文献12

  • 1汪承颢 等.单一空化泡的电磁辐射和光辐射[J].声学学报,1964,1(2):60-68.
  • 2陈溪.[D].南京大学,2000.
  • 3Gaitan D F, Crum L A, Church C C, Roy R A. Sonoluminescence and Bubble dynamics for a single,stable cavitation bubble. Journal of the Acoustical Society of America,1992; 91(6): 3116-3188.
  • 4Holzfuss J, Ruggeberg M, Mettin R. Boosting Sonoluminescence. Physical Review Letters, 1998; 81(9): 1961-1964.
  • 5Moraga F J et al. Role of very-high-frequency excitation in single-bubble sonoluminescence. Physical Review E, 2000;62(2): 2233-2237.
  • 6Hargreaves K, Matula T. The radial motion of a sonoluminescence bubble driven with multiple harmonics. Journal of the Acoustical Society of America, 2000; 107(3): 1774-1776.
  • 7Chen W Z, Chen X, Lu M J, Miao G Q, Wei R J. Single bubble sonoluminescence driven by non-simple-harmonic ulgrasounds. Journal of the Acoustical Society of America,2002; 111(6): 2632-2637.
  • 8Chen W Z, Chen X, Lu M J, Miao G Q, Wei R J. Effects of pulse drive on singlebubble sonoluminescence. Chinese Physics Letters, 2001; 18(8): 1126-1128.
  • 9Press W H et al. Numerical Recipes in C(2nd ed). Cambridge University Press, Cambridge, England : 1992.
  • 10Brenner M P, Lohse D, Dupont T F. Bubble shape oscillations and the onset of sonoluminescence. Physical Review Letters, 1995; 75(5): 954-957.

共引文献37

同被引文献15

  • 1亢淑梅,沈明钢,李成威,吕海富,陈华.超声波钢包精炼水模夹杂物行为[J].钢铁,2012,47(9):30-34. 被引量:9
  • 2许文林,何玉芳,王雅琼.超声空化气泡运动方程的求解及过程模拟[J].扬州大学学报(自然科学版),2005,8(1):55-59. 被引量:20
  • 3陈谦,邹欣晔,程建春.超声波声孔效应中气泡动力学的研究[J].物理学报,2006,55(12):6476-6481. 被引量:32
  • 4XIE F Y, YAN X Y, DING I.. A study of microstructure and mi- crosegregation of aluminum 7050 alloy[J]. Materials Science and Engineering, 2003, A355 : 144-153.
  • 5HUANG B, WANG G Y, YUAN H T. A cavitation model for cavtating flow simulations. [A]//gth International Conference on Hydrodynamics[C], Shanghai: 2010,11-15:798-804.
  • 6MUZIO G, ALIPPI A, BETTUCCI A, et al. A numerical method for studying nonlinear bubble oscillations in acoustic cavitation [J]. Ultrasonics, 1998, 36:553-557.
  • 7DUBUS B, VANHII.LE C, CAMPOS-POZUELO C, et al. On the physical origin of conical bubble structure under an ultrasonic horn [J]. Ultrasonics Sonochemistry, 2010, 17:810-818.
  • 8ESKIN G I. Ultrasonic Treatment of Light Alloy Mehs[M]. Am- sterdam: Gordon and Breach Science Puhlishers, 1998.
  • 9LI Y L, FENG H K, CAO F R, et al. Effect of high density ultra- sonic on the microstructure and refining property of AI-STi-0.25C grain refiner alloy[J]. Materials Science and Engineering, 2008, A487:518-523.
  • 10HAN Y F, LI K, WANC- J, et al. Influence of high-intensity ul- trasound on grain refining performance of A1-5Ti-IB master alloy on aluminium [J]. Materials Science and Engineering, 2005, A405 : 306-312.

引证文献2

二级引证文献8

价值工程
2010年 第34期

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