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Investigations on the process of droplet impact on an orifice plate

Li Da-Ming Wang Zhi-Chao Bai Lin Wang Xiao

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Investigations on the process of droplet impact on an orifice plate

Li Da-Ming, Wang Zhi-Chao, Bai Lin, Wang Xiao
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  • To investigate the process of droplet impact on an orifice plate, a two-dimensional SPH model is established. An improved linked-list search algorithm with improvement of computational domain changing with fluid is described. By analyzing the numerical results with the experimental data, influences of viscosity, gravity, and internal pressure on the spreading of droplet over the orifice are studied. It is demonstrated that spreading will change to jet flow after the droplet reaches the orifice, and then the jet will pass it rapidly and in this rather short time the effect of gravity contributes very litte to the motion. However, viscosity can induce the jet to move in a curve into the orifice. Besides, with the internal pressure and inertial effect, the lower part of the jet will fluctuate regularly. The fluctuations make the jet repeat inflation and absorption to absorb the fluid from higher pressure area, resulting in Hole Suction phenomenon. Through analyzing the pressure of the vertical section of orifice edge, we find that internal pressure plays a significant role to the droplet which is absorbed into the orifice and finally leads to splashing. Numerical results are in good agreement with the experimental data.
    • Funds: Project supported by the National Natural Science foundation of China (Grant No. 51079095), and the Science Fund for Creative Research Groups of the National Natural Science Foundation of China (Grant No. 51021004).
    [1]

    Hitoshi F, Hiroaki S, Natsuo H 2000 Int. J. Heat Tranfer. 43 1673

    [2]

    Roisman I V, Rioboo R, Tropea C 2002 P. Roy Soc. Lond. A 458 1411

    [3]

    Roisman I V, Opfer L 2008 Colloids and Surfaces A 322 183

    [4]

    Lu J J, Chen X L, Cao X K, Liu H F, Yu Z H 2007 Chem. React. Eng. Tech. 23 505 (in Chinese) [陆军军, 陈雪莉, 曹显奎, 刘海峰, 于遵宏 2007 化学反应工程与工艺 23 505]

    [5]

    Li W Z, Zhu W Y, Quan S L, Jiang Y X 2008 J. Therm. Sci. Tech-Jpn. 7 155 (in Chinese) [李维仲, 朱卫英, 权生林, 姜远新 2008 热科学与技术 7 155]

    [6]

    Quan S L, Li S, Li W Z, Song Y C 2009 Chinese. Jo. 26 627 (in Chinese) [权生林, 李爽, 李维仲, 宋永臣 2009 计算力学学报 26 627]

    [7]

    Li D M, Xu Y N, Li L L, Lu H J, Bai L 2011 Journal of Hydrodynamics 4 447

    [8]

    Li D M, Li X Y, Lin Y 2011 Science China-Technological Sc. 54 1873

    [9]

    Yi L H, Meng J W, Yu C L, Shi Y L 2011 Colloids and Surfaces A: in Physicochem. Eng. Aspects 384 172

    [10]

    Su T X, Ma L Q g, Liu M B 2013 Acta Phys. Sin. 62 064702 (in Chinese) [苏铁熊, 马理强, 刘谋斌, 常建忠 2013 62 064702]

    [11]

    Bi F F, Guo Y L, Shen S Q, Chen J X, Li Y Q 2012 Acta Phys. Sin. 61 184702 (in Chinese) [毕菲菲, 郭亚丽, 沈胜强, 陈觉先, 李熤桥 2012 61 184702]

    [12]

    Roisman I V, Weickgenannt C M, Lembach A N, Tropea C 2010 23rd Annual Conference on Liquid Atomization and Spray Systems Brno, Czech Republic: ILASS-Europe. 2010 1

    [13]

    Xu X Y, Jie O Y, Yang B X 2013 Comput. Methods Appl. Meth. Eng. 256 101

    [14]

    Nishio N, Yamana K, Yamaguchi Y 2010 Int. J. Numer. Methods. Heat Fliud Flow. 63 1435

    [15]

    Monaghan J J, Rafiee A 2013 Int. J. Numer. Meth. FL. 71 537

    [16]

    Qiang H F, Liu K, Chen F Z 2012 Acta Phys. Sin. 61 204701 (in Chinese) [强洪夫, 刘开, 陈福振 2012 61 204701]

    [17]

    Chen J K, Beraun J E, Carney T C 1999 Int. J. Numer. Meth. Engng. 46 231

    [18]

    Liu M B, Xie W P, Liu G R 2005 Appl. Math. Model. 29 1252

    [19]

    Jiang T, Ouyang J, Zhao X K, Ren J L 2011 Acta Phys. Sin. 61 054701 (in Chinese) [蒋涛, 欧阳洁, 赵晓凯 2011 61 054701]

    [20]

    Ma L Q, Chang J Z, Liu H T, Liu M B 2012 Acta Phys. Sin. 61 054701 (in Chinese) [马理强, 常建忠, 刘汉涛, 刘谋斌 2012 61 054701]

    [21]

    Monaghan J J 1989 J. Comput. Phys. 82 1

    [22]

    Monaghan J J 1994 J. Comput. Phys. 110 399

    [23]

    Gesteira M G, Rogers B D, Dalrymple R A, Crespo A J C, Narayanaswamy M 2010 Manchester, UK: University o f Manchester

    [24]

    Simpson J C 1995 Astrophys. J. 488 822

    [25]

    Crespo A J C, Gómez-Gesteira M and Dalrymple R A 2007 Cmc-Comput. Mater. Con. 5 173

    [26]

    Monaghan J J, Kos A 1999 J. Waterw. Port Coast. Ocean Eng. 125 145

    [27]

    Libersky L D, Petscheck A G, Carney T C 1993 J. Comput. Phys. 109 67

    [28]

    Randies P W, Libersky L D 1996 Comput. Methods. Appl. Meth. Eng. 138 375

    [29]

    Liu M B, Liu G R, Lam K Y 2002 Shock Waves 12 181

    [30]

    Dalrymple R A, Knio O Proceedings of Coastal Dynamics, Lund, Sweden: ASCE, 2001 779

  • [1]

    Hitoshi F, Hiroaki S, Natsuo H 2000 Int. J. Heat Tranfer. 43 1673

    [2]

    Roisman I V, Rioboo R, Tropea C 2002 P. Roy Soc. Lond. A 458 1411

    [3]

    Roisman I V, Opfer L 2008 Colloids and Surfaces A 322 183

    [4]

    Lu J J, Chen X L, Cao X K, Liu H F, Yu Z H 2007 Chem. React. Eng. Tech. 23 505 (in Chinese) [陆军军, 陈雪莉, 曹显奎, 刘海峰, 于遵宏 2007 化学反应工程与工艺 23 505]

    [5]

    Li W Z, Zhu W Y, Quan S L, Jiang Y X 2008 J. Therm. Sci. Tech-Jpn. 7 155 (in Chinese) [李维仲, 朱卫英, 权生林, 姜远新 2008 热科学与技术 7 155]

    [6]

    Quan S L, Li S, Li W Z, Song Y C 2009 Chinese. Jo. 26 627 (in Chinese) [权生林, 李爽, 李维仲, 宋永臣 2009 计算力学学报 26 627]

    [7]

    Li D M, Xu Y N, Li L L, Lu H J, Bai L 2011 Journal of Hydrodynamics 4 447

    [8]

    Li D M, Li X Y, Lin Y 2011 Science China-Technological Sc. 54 1873

    [9]

    Yi L H, Meng J W, Yu C L, Shi Y L 2011 Colloids and Surfaces A: in Physicochem. Eng. Aspects 384 172

    [10]

    Su T X, Ma L Q g, Liu M B 2013 Acta Phys. Sin. 62 064702 (in Chinese) [苏铁熊, 马理强, 刘谋斌, 常建忠 2013 62 064702]

    [11]

    Bi F F, Guo Y L, Shen S Q, Chen J X, Li Y Q 2012 Acta Phys. Sin. 61 184702 (in Chinese) [毕菲菲, 郭亚丽, 沈胜强, 陈觉先, 李熤桥 2012 61 184702]

    [12]

    Roisman I V, Weickgenannt C M, Lembach A N, Tropea C 2010 23rd Annual Conference on Liquid Atomization and Spray Systems Brno, Czech Republic: ILASS-Europe. 2010 1

    [13]

    Xu X Y, Jie O Y, Yang B X 2013 Comput. Methods Appl. Meth. Eng. 256 101

    [14]

    Nishio N, Yamana K, Yamaguchi Y 2010 Int. J. Numer. Methods. Heat Fliud Flow. 63 1435

    [15]

    Monaghan J J, Rafiee A 2013 Int. J. Numer. Meth. FL. 71 537

    [16]

    Qiang H F, Liu K, Chen F Z 2012 Acta Phys. Sin. 61 204701 (in Chinese) [强洪夫, 刘开, 陈福振 2012 61 204701]

    [17]

    Chen J K, Beraun J E, Carney T C 1999 Int. J. Numer. Meth. Engng. 46 231

    [18]

    Liu M B, Xie W P, Liu G R 2005 Appl. Math. Model. 29 1252

    [19]

    Jiang T, Ouyang J, Zhao X K, Ren J L 2011 Acta Phys. Sin. 61 054701 (in Chinese) [蒋涛, 欧阳洁, 赵晓凯 2011 61 054701]

    [20]

    Ma L Q, Chang J Z, Liu H T, Liu M B 2012 Acta Phys. Sin. 61 054701 (in Chinese) [马理强, 常建忠, 刘汉涛, 刘谋斌 2012 61 054701]

    [21]

    Monaghan J J 1989 J. Comput. Phys. 82 1

    [22]

    Monaghan J J 1994 J. Comput. Phys. 110 399

    [23]

    Gesteira M G, Rogers B D, Dalrymple R A, Crespo A J C, Narayanaswamy M 2010 Manchester, UK: University o f Manchester

    [24]

    Simpson J C 1995 Astrophys. J. 488 822

    [25]

    Crespo A J C, Gómez-Gesteira M and Dalrymple R A 2007 Cmc-Comput. Mater. Con. 5 173

    [26]

    Monaghan J J, Kos A 1999 J. Waterw. Port Coast. Ocean Eng. 125 145

    [27]

    Libersky L D, Petscheck A G, Carney T C 1993 J. Comput. Phys. 109 67

    [28]

    Randies P W, Libersky L D 1996 Comput. Methods. Appl. Meth. Eng. 138 375

    [29]

    Liu M B, Liu G R, Lam K Y 2002 Shock Waves 12 181

    [30]

    Dalrymple R A, Knio O Proceedings of Coastal Dynamics, Lund, Sweden: ASCE, 2001 779

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Publishing process
  • Received Date:  02 May 2013
  • Accepted Date:  27 June 2013
  • Published Online:  05 October 2013

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