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Atomization and Sprays
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年間 12 号発行

ISSN 印刷: 1044-5110

ISSN オンライン: 1936-2684

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THE STABILITY CURVE OF NEWTONIAN LIQUID JETS

巻 6, 発行 6, 1996, pp. 623-647
DOI: 10.1615/AtomizSpr.v6.i6.10
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S. Leroux
URA 230 CNRS/CORIA, Mon-Saint-Aignan Cedex, France
Christophe Dumouchel
Université et INSA de Rouen, France
M. Ledoux
CORIA-UMR CNRS 6614, Universite de Rouen, Site du Madrillet Avenue de l’Universite, BP12 76801 Saint Etienne du Rouvray cedex, France

要約

This article reports an experimental investigation on the disintegration of cylindrical jets through a study of the stability curve. We are interested mainly in the behavior of low-velocity jets in order to understand the development of the critical point, the first maximum on the stability curve. The experimental results obtained for a jet of water under varying ambient pressures show that the critical point is not due to the effect of the aerodynamic forces for our working conditions. A detailed comparison with other experimental measurements and with predictions deduced from models available in the literature is carried out and suggests a classification of the jet behavior according to the ratio ρ*GG, where the critical density ρ*G is a new jet parameter that is a function of the Ohnesorge number and of the length-to-diameter nozzle ratio. A new modification of Weber's equation is suggested here in order to predict the critical velocity in any situation. The new model, tested for the experimental situations studied in the present article, calculate critical velocity in good agreement with the experimental measurements.

によって引用された

  1. Dumouchel Christophe, Cousin Jean, Triballier Kaëlig, On the role of the liquid flow characteristics on low-Weber-number atomization processes, Experiments in Fluids, 38, 5, 2005. Crossref

  2. Godelle J., Letellier C., Symbolic sequence statistical analysis for free liquid jets, Physical Review E, 62, 6, 2000. Crossref

  3. Otendal M., Hemberg O., Tuohimaa T. T., Hertz H. M., Microscopic high-speed liquid-metal jets in vacuum, Experiments in Fluids, 39, 5, 2005. Crossref

  4. Couty Philippe, Laser coupling with a multimode water-jet waveguide, Optical Engineering, 44, 6, 2005. Crossref

  5. Dumouchel Christophe, On the experimental investigation on primary atomization of liquid streams, Experiments in Fluids, 45, 3, 2008. Crossref

  6. Sadik S., Zimmels Y., On the mechanism of spray formation from liquid jets, Journal of Colloid and Interface Science, 259, 2, 2003. Crossref

  7. Tabatabaee-Hosseini Pejman, Sadri Behnam, Esmaeilzadeh Esmaeil, Experimental study on the impinging of two opposed inclined electrified laminar jets in the stagnant dielectric medium, Experimental Thermal and Fluid Science, 42, 2012. Crossref

  8. SINHA AVICK, BALASUBRAMANIAN SRIDHAR, GOPALAKRISHNAN SHIVASUBRAMANIAN, A numerical study on dynamics of spray jets, Sadhana, 40, 3, 2015. Crossref

  9. Wegener Mirco, Muhmood Luckman, Sun Shouyi, Deev Alex V., The formation and breakup of molten oxide jets under periodic excitation, AIChE Journal, 60, 9, 2014. Crossref

  10. Wegener M., Muhmood L., Sun S., Deev A.V., The formation and breakup of molten oxide jets, Chemical Engineering Science, 105, 2014. Crossref

  11. Wegener M., Muhmood L., Sun S., Deev A. V., Surface Tension Measurements of Calcia-Alumina Slags: A Comparison of Dynamic Methods, Metallurgical and Materials Transactions B, 46, 1, 2015. Crossref

  12. Blaisot J.B., Adeline S., Instabilities on a free falling jet under an internal flow breakup mode regime, International Journal of Multiphase Flow, 29, 4, 2003. Crossref

  13. Neal Nicholas, Rothamer David, Measurement and characterization of fully transient diesel fuel jet processes in an optical engine with production injectors, Experiments in Fluids, 57, 10, 2016. Crossref

  14. Etzold M., Deswal A., Chen L., Durst F., Break-up length of liquid jets produced by short nozzles, International Journal of Multiphase Flow, 99, 2018. Crossref

  15. Charpentier Jean-Baptiste, Renoult Marie-Charlotte, Crumeyrolle Olivier, Mutabazi Innocent, Growth rate measurement in free jet experiments, Experiments in Fluids, 58, 7, 2017. Crossref

  16. Neal Nicholas, Rothamer David, Evolving one-dimensional transient jet modeling by integrating jet breakup physics, International Journal of Engine Research, 18, 9, 2017. Crossref

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  18. Leys Oliver, Waibel Patrick, Matthes Jörg, Keller Hubert, Knitter Regina, Characterisation of high-temperature jet break-up for ceramic sphere production, The International Journal of Advanced Manufacturing Technology, 98, 9-12, 2018. Crossref

  19. Battaglia Joseph, Mai Tuan Anh, Perrottet Delphine, Richerzhagen Bernold, Waterjet as a multimode waveguide-theoretical and experimental investigation of modal noise and beam propagation in material processing with lasermicrojet, International Congress on Applications of Lasers & Electro-Optics, 2006. Crossref

  20. Wozniak Günter, Literatur, in Zerstäubungstechnik, 2003. Crossref

  21. Kapusta Łukasz Jan, Sutkowski Marek, Rogóż Rafał, Zommara Mohamed, Teodorczyk Andrzej, Characteristics of Water and Urea–Water Solution Sprays, Catalysts, 9, 9, 2019. Crossref

  22. Wu Z. -N., Most unstable waves of a stagnant planar liquid film blown by a high speed viscous gas with a Blasius velocity profile, Acta Mechanica, 149, 1-4, 2001. Crossref

  23. Mitchell Benjamin R., Klewicki Joseph C., Korkolis Yannis P., Kinsey Brad L., Normal impact force of Rayleigh jets, Physical Review Fluids, 4, 11, 2019. Crossref

  24. Iartsev Boris, Vichev Ilia, Tsygvintsev Ilia, Sidelnikov Yuri, Krivokorytov Mikhail, Medvedev Viacheslav, On experimental and numerical study of the dynamics of a liquid metal jet hit by a laser pulse, Experiments in Fluids, 61, 5, 2020. Crossref

  25. Brenn Günter, Müller Ulrich, Strömungen mit mehreren Phasen, in Prandtl - Führer durch die Strömungslehre, 2019. Crossref

  26. Lin S. P., Reitz R. D., DROP AND SPRAY FORMATION FROM A LIQUID JET, Annual Review of Fluid Mechanics, 30, 1, 1998. Crossref

  27. Wegener Mirco, Muhmood Luckman, Sun Shouyi, Deev Alex V., Novel High-Temperature Experimental Setup to Study Dynamic Surface Tension Phenomena in Oxide Melts, Industrial & Engineering Chemistry Research, 52, 46, 2013. Crossref

  28. Shariatnia Shadi, Asadi Amir, Jarrahbashi Dorrin, Experimental analysis of supercritical-assisted atomization, Physics of Fluids, 33, 1, 2021. Crossref

  29. Lehmkühler Felix, Steinke Ingo, Schroer Martin A., Fischer Birgit, Sprung Michael, Grübel Gerhard, Microsecond Structural Rheology, The Journal of Physical Chemistry Letters, 8, 15, 2017. Crossref

  30. Rezayat Sajjad, Farshchi Mohammad, Berrocal Edouard, High-speed imaging database of water jet disintegration Part II: Temporal analysis of the primary breakup, International Journal of Multiphase Flow, 145, 2021. Crossref

  31. Kim Hyunsuh, Choi Hyunhun, Kim Daegil, Chung Jaewon, Kim Hyojun, Lee Kihyun, Experimental study on splash phenomena of liquid jet impinging on a vertical wall, Experimental Thermal and Fluid Science, 116, 2020. Crossref

  32. Brenn Günter, Müller Ulrich, Strömungen mit mehreren Phasen, in Prandtl - Führer durch die Strömungslehre, 2022. Crossref

1179 記事の閲覧数 137 記事のダウンロード 記事の統計
1179 記事の閲覧数 137 記事のダウンロード 32 Crossref 引用数 Google
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類似内容の記事:

The Break-up Length of Laminar Cylindrical Liquid Jets. Modification of Weber's Theory International Journal of Fluid Mechanics Research, Vol.24, 1997, issue 1-3
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The Break-up Length of Laminar Cylindrical Liquid Jets. Modification of Weber's Theory ICLASS 97
Proceedings of the Seventh International Conference on Liquid Atomization and Spray Systems, Vol.1, 1997, issue
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最新号

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