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Chaotic characteristics of gas bubble motion in acoustic field

Shen Zhuang-Zhi Lin Shu-Yu

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Chaotic characteristics of gas bubble motion in acoustic field

Shen Zhuang-Zhi, Lin Shu-Yu
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  • Considering liquid compressibility, the dynamical behaviors of gas bubble in acoustic field are investigated by regarding water as a work medium. The effects of acoustic frequency, acoustic pressure, initial radius of gas bubble, liquid surface tension, and viscosity coefficient on bubble motion state are numerically simulated. The relationship between cavitation treatment effect and gas bubble motion state is analysed.The results show that when the gas bubble motion is in a chaotic state, it is the most important factor for enhancing acoustic cavitation degradation of organic pollutants ability.
    [1]

    Mason T J 1993 Chem. Ind. 18 50

    [2]

    Gutierrez M, Henglein A 1998 J. Phys.Chem. 92 2978

    [3]

    Liu Y 1999 Appl. Acoust. 18 35 (in Chinese)[刘 岩 1999 应用声学 18 35]

    [4]

    Suzuki Y, Maezawa A,Uchida S 1999 Chem. Eng. Technol. 22 507

    [5]

    Okuno H, Yim B, Mizukoshi Y 2000 Ultrason. Sonochem. 7 261

    [6]

    Ku Y, Chen K Y, Lee K C 1997 Water Res. 31 929

    [7]

    Jiang Y, Pétrier C, David Waite T 2002 Ultrason. Sonochem. 9 163

    [8]

    Fu M, Gao Y, Wang X H, Ding P D 2002 Acta Sci. Circum. 22 402 (in Chinese)[傅 敏、高 宇、王孝华、丁培道 2002 环境科学学报 22 402]

    [9]

    De Visscher A, Langenhove H V, Eenoo P V 1997 Ultrason. Sonochem. 4 145

    [10]

    Ashish Bhatnagar, Michael Cheung H 1994 Environ. Sci. Technol. 28 1481

    [11]

    Zhao B B, Wang L 2002 Chem. Engineer 93 21 (in Chinese)[赵彬斌、王 丽 2002 化学工程师 93 21]

    [12]

    Drijvers D, De Baets R, De Visscher A 1996 Ultrason. Sonochem. 3 S83

    [13]

    Entezari M H, Kruus P, Otson R 1997 Ultrason. Sonochem. 4 49

    [14]

    Petrier C, Francony A 1997 Ultrason. Sonochem. 4 295

    [15]

    Cum G, Galli G, Gallo R, Spadaro A 1992 Ultrasonics 30 267

    [16]

    Price G J, Matthias P, Leoz E J 1994 Process Saf. Environ. Prot. 72 B 27

    [17]

    Terese M O, Philippe F B 1994 Water Res. 28 1383

    [18]

    Chen W, Fan J C, Chen L, Qian M L 2000 Chin. Water Wastewater 16 1 (in Chinese) [陈 伟、范瑾初、陈 玲、钱梦騄 2000 中国给水排水 16 1]

    [19]

    Petrier C, Jeunet A, Luche J L, Reverdy G 1992 J.Am.Chem.Soc. 114 3148

    [20]

    Zhang N D, Zheng W 2001 J. Harbin Univ. Commerce Nat. Sci. Edition 17 22 (in Chinese) [张乃东、郑 威 2001 哈尔滨商业大学学报(自然科学版) 17 22]

    [21]

    Prosperetti A 1984 Ultrasonics 22 69

    [22]

    Keller B, Miksis M 1980 J. Acoust. Soc. Am. 68 628

    [23]

    Prosperetti A,Lezzi A 1986 J. Fluid Mech. 168 457

    [24]

    Liu B Z 1984 Nonlinear Dynamic and Chaotic Foundation p19 (Changchun: Northeast Normal University Press) (in Chinese)[刘秉正 1984 非线性动力学与混沌基础(长春:东北师范大学出版社)19]

    [25]

    Yu G A,Huang S W, Fang W F 2003 Comput. Mod. (5) 14 (in Chinese)[于国安、黄胜伟、方维凤 2003 计算机与现代化 (5) 14]

    [26]

    Lauterborn W, Parlitz U 1988 J. Acoust. Soc. Am. 84 1975

    [27]

    Hao B L 1983 Prog. Phys.3 329(in Chinese)[郝柏林 1983 物理学进展 3 329]

    [28]

    Eller A, Flymn H G, 1969 J Acoust. Soc. Am. 46 722

    [29]

    Neppiras E A 1969 J. Acoust. Soc.Am. 46 587

    [30]

    Zheng J H, Qiu Y D1991 Appl. Acousti. 10 18 (in Chinese) [郑进鸿、邱永德 1991 应用声学 10 18]

    [31]

    Ma D Y 2004 Theory of Modern Acoustic (Beijing:Science Press) (in Chinese)p349 [马大猷 2004 现代声学理论基础 (北京:科学出版社 p349]

    [32]

    Zhao H, Zhang D S 2003 Res. Iron Steel (5) 36 (in Chinese) [赵 弘、张登山 2003 钢铁研究 (5) 36]

    [33]

    Qian Z W 2009 Non-linear Acoustics (Beijing:Science Press, the Second Edition) (in Chinese) p316 [钱祖文 2009 非线性声学 第二版 (北京:科学出版社) 第316页]

    [34]

    Wang X H, XIE S S, Zhang Z W 2006 Mod. Electron. Techn. (10) 105 (in Chinese) [王晓辉、谢胜曙、张志伟 2006 现代电子技术(10)105]

    [35]

    Ma J, Zhao L 2005 J. Nat. Sci. Heilongjiang Univ. 22 141 (in Chinese) [马 军、赵 雷 2005 黑龙江大学自然科学学报 22 141]

    [36]

    Bian H S, Zhang D N, Zhao Y X 2000 Tech. Equip. Environ. Poll. Cont. 1 56(in Chinese) [卞华松、张大年、赵一先 2000 环境污染治理与设备 1 56]

    [37]

    Xie W L, Zhong L 2006 Guangdong Chem. Ind. 33 76 (in Chinese) [谢伟立、钟 理 2006 广东化工 33 76]

  • [1]

    Mason T J 1993 Chem. Ind. 18 50

    [2]

    Gutierrez M, Henglein A 1998 J. Phys.Chem. 92 2978

    [3]

    Liu Y 1999 Appl. Acoust. 18 35 (in Chinese)[刘 岩 1999 应用声学 18 35]

    [4]

    Suzuki Y, Maezawa A,Uchida S 1999 Chem. Eng. Technol. 22 507

    [5]

    Okuno H, Yim B, Mizukoshi Y 2000 Ultrason. Sonochem. 7 261

    [6]

    Ku Y, Chen K Y, Lee K C 1997 Water Res. 31 929

    [7]

    Jiang Y, Pétrier C, David Waite T 2002 Ultrason. Sonochem. 9 163

    [8]

    Fu M, Gao Y, Wang X H, Ding P D 2002 Acta Sci. Circum. 22 402 (in Chinese)[傅 敏、高 宇、王孝华、丁培道 2002 环境科学学报 22 402]

    [9]

    De Visscher A, Langenhove H V, Eenoo P V 1997 Ultrason. Sonochem. 4 145

    [10]

    Ashish Bhatnagar, Michael Cheung H 1994 Environ. Sci. Technol. 28 1481

    [11]

    Zhao B B, Wang L 2002 Chem. Engineer 93 21 (in Chinese)[赵彬斌、王 丽 2002 化学工程师 93 21]

    [12]

    Drijvers D, De Baets R, De Visscher A 1996 Ultrason. Sonochem. 3 S83

    [13]

    Entezari M H, Kruus P, Otson R 1997 Ultrason. Sonochem. 4 49

    [14]

    Petrier C, Francony A 1997 Ultrason. Sonochem. 4 295

    [15]

    Cum G, Galli G, Gallo R, Spadaro A 1992 Ultrasonics 30 267

    [16]

    Price G J, Matthias P, Leoz E J 1994 Process Saf. Environ. Prot. 72 B 27

    [17]

    Terese M O, Philippe F B 1994 Water Res. 28 1383

    [18]

    Chen W, Fan J C, Chen L, Qian M L 2000 Chin. Water Wastewater 16 1 (in Chinese) [陈 伟、范瑾初、陈 玲、钱梦騄 2000 中国给水排水 16 1]

    [19]

    Petrier C, Jeunet A, Luche J L, Reverdy G 1992 J.Am.Chem.Soc. 114 3148

    [20]

    Zhang N D, Zheng W 2001 J. Harbin Univ. Commerce Nat. Sci. Edition 17 22 (in Chinese) [张乃东、郑 威 2001 哈尔滨商业大学学报(自然科学版) 17 22]

    [21]

    Prosperetti A 1984 Ultrasonics 22 69

    [22]

    Keller B, Miksis M 1980 J. Acoust. Soc. Am. 68 628

    [23]

    Prosperetti A,Lezzi A 1986 J. Fluid Mech. 168 457

    [24]

    Liu B Z 1984 Nonlinear Dynamic and Chaotic Foundation p19 (Changchun: Northeast Normal University Press) (in Chinese)[刘秉正 1984 非线性动力学与混沌基础(长春:东北师范大学出版社)19]

    [25]

    Yu G A,Huang S W, Fang W F 2003 Comput. Mod. (5) 14 (in Chinese)[于国安、黄胜伟、方维凤 2003 计算机与现代化 (5) 14]

    [26]

    Lauterborn W, Parlitz U 1988 J. Acoust. Soc. Am. 84 1975

    [27]

    Hao B L 1983 Prog. Phys.3 329(in Chinese)[郝柏林 1983 物理学进展 3 329]

    [28]

    Eller A, Flymn H G, 1969 J Acoust. Soc. Am. 46 722

    [29]

    Neppiras E A 1969 J. Acoust. Soc.Am. 46 587

    [30]

    Zheng J H, Qiu Y D1991 Appl. Acousti. 10 18 (in Chinese) [郑进鸿、邱永德 1991 应用声学 10 18]

    [31]

    Ma D Y 2004 Theory of Modern Acoustic (Beijing:Science Press) (in Chinese)p349 [马大猷 2004 现代声学理论基础 (北京:科学出版社 p349]

    [32]

    Zhao H, Zhang D S 2003 Res. Iron Steel (5) 36 (in Chinese) [赵 弘、张登山 2003 钢铁研究 (5) 36]

    [33]

    Qian Z W 2009 Non-linear Acoustics (Beijing:Science Press, the Second Edition) (in Chinese) p316 [钱祖文 2009 非线性声学 第二版 (北京:科学出版社) 第316页]

    [34]

    Wang X H, XIE S S, Zhang Z W 2006 Mod. Electron. Techn. (10) 105 (in Chinese) [王晓辉、谢胜曙、张志伟 2006 现代电子技术(10)105]

    [35]

    Ma J, Zhao L 2005 J. Nat. Sci. Heilongjiang Univ. 22 141 (in Chinese) [马 军、赵 雷 2005 黑龙江大学自然科学学报 22 141]

    [36]

    Bian H S, Zhang D N, Zhao Y X 2000 Tech. Equip. Environ. Poll. Cont. 1 56(in Chinese) [卞华松、张大年、赵一先 2000 环境污染治理与设备 1 56]

    [37]

    Xie W L, Zhong L 2006 Guangdong Chem. Ind. 33 76 (in Chinese) [谢伟立、钟 理 2006 广东化工 33 76]

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Publishing process
  • Received Date:  19 March 2011
  • Accepted Date:  10 April 2011
  • Published Online:  05 May 2011

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