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Oscillatory modes of concentration convection

 a,  b, a,  a
a Perm Federal Research Center of the Ural Branch of the Russian Academy of Sciences, Lenina str. 13a, Perm, 614990, Russian Federation
b Perm National Research Polytechnic University, Komsomol'skii prosp. 29, Perm, 614990, Russian Federation

Experimental studies of oscillatory regimes of Marangoni concentration (solutal) convection, which are due to competition between the capillary and gravitational mechanisms of motion in two-phase fluid systems, are reviewed. Application of optical methods enables advancement from a qualitative description of phenomena to quantitative measurements; it also makes it possible to determine the oscillation period and duration of the oscillatory mode as functions of the features of the concentration distribution of surfactants, physicochemical properties of contacting fluids and the surfactants employed, and the surface activity of the surfactants. The development of oscillatory flow regimes in the vicinity of bubbles and drops in vertical and horizontal layers and near vertical phase interfaces is analyzed.

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Fulltext is also available at DOI: 10.3367/UFNe.2021.07.039030
Keywords: Marangoni convection, solutocapillary flows, surface tension, phase interface, oscillation regime
PACS: 47.20.Dr, 47.55.nb, 47.55.pf (all)
DOI: 10.3367/UFNe.2021.07.039030
URL: https://ufn.ru/en/articles/2022/8/a/
001099034300003
2-s2.0-85160210313
Citation: Denisova M O, Zuev A L, Kostarev K G "Oscillatory modes of concentration convection" Phys. Usp. 65 767–788 (2022)
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Received: 9th, April 2021, revised: 26th, July 2021, 28th, July 2021

Оригинал: Денисова М О, Зуев А Л, Костарев К Г «Колебательные режимы концентрационной конвекции» УФН 192 817–840 (2022); DOI: 10.3367/UFNr.2021.07.039030

References (105) ↓ Cited by (4) Similar articles (15)

  1. Landau L D, Lifshitz E M Fluid Mechanics (Oxford: Pergamon Press, 1987); Translated from Russian, Landau L D, Lifshitz E M Gidrodinamika (Moscow: Nauka, 1988)
  2. Myshkis A D (Ed.) Low-Gravity Fluid Mechanics (Berlin: Springer-Verlag, 1987); Translated from Russian, Myshkis A D (Ed.) Gidrodinamika Nevesomosti (Moscow: Nauka, 1976)
  3. Levich V G Physicochemical Hydrodynamics (Englewood Cliffs, NJ: Prentice-Hall, 1962); Translated from Russian, Levich V G Fiziko-Khimicheskaya Gidrodinamika (Moscow: GIFML, 1959)
  4. Varley C R. Soc. Arts Sci. Mauritius 50 190 (1836)
  5. Weber E H Ber. Verhandl. Kon. Sachs. Ges. Wiss. Leipzig (1854)
  6. Thomson J Philos. Mag. 10 330 (1855)
  7. Segner J A Comment. Soc. Reg. Götting. (1751)
  8. Marangoni C G M Sull’espansione Dell Goccie Di Un Liquido Galleggianti Sulla Superfice Di Altro Liquido (Pavia: Tipografia Fusi, 1865)
  9. Van der Mensbrugghe G Mem. Couronnees Mem. Savants Etrangers 34 (1) 1 (1870)
  10. Van der Mensbrugghe G Mem. Couronnees Mem. Savants Etrangers 37 (4) 1 (1873)
  11. Marangoni C G M Nuovo Cimento 2 3 105 (1870)
  12. Marangoni C G M Ann. Physik Chem. 143 337 (1871)
  13. Plateau J A F Statique Expérimentale Et Théorique Des Liquides Soumis Aux Seules Forces Moléculaires (Paris: Gauthier-Villars, 1873)
  14. Dupré de Rennes A Theorie Mecanique De La Chaleur (Paris: Gauthier-Vilars, 1869)
  15. Young T Philos. Trans. R. Soc. London 95 65 (1805)
  16. Laplace P S Traitéde Mécanique Céleste; Supplément Au Dixiè Me Livre, Sur L’action Capillaire (Paris: Courcier, 1806)
  17. Maxwell J C Theory Of Heat (London: Longmans, Green and Co., 1871)
  18. Maxwell J C Encyclopedia Britannica Vol. 5 9th ed. (Edinburgh: Adam and Clark, 1878)
  19. Harkins W D, Feldman A J. Am. Chem. Soc. 44 2665 (1922)
  20. Gibbs J W Trans. Conn. Acad. 3 (1878)
  21. Gibbs J W JWThe Collected Works Vol. 1 (New Haven, CT: Yale Univ. Press, 1948, 1948); Gibbs J W Statisticheskaya Fizika (Moscow: Nauka, 1982)
  22. Frumkin A Nature 7 235 (1928)
  23. Rice J A Commentary Of The Scientific Writings Of J.W. Gibbs (New Haven, CT: Yale Univ. Press, 1936)
  24. Buff F P J J. Chem. Phys. 19 1591 (1951)
  25. Kondo S J J. Chem. Phys. 25 662 (1956)
  26. Rebinder P A Poverkhnostnye Yavleniya V Dispersnykh Sistemakh. Kolloidnaya Khimiya. Izbrannye Trudy (Surface Phenomena In Disperse Systems. Colloid Chemistry. Selected Works) (Moscow: Nauka, 1978)
  27. Rusanov A I Termodinamika Poverkhnostnykh Yavlenii (Thermodynamics Of Surface Phenomena) (Leningrad: Izd. LGU, 1960)
  28. Rusanov A I Fazovye Ravnovesiya I Poverkhnostnye Yavleniya (Phase Equilibria And Surface Phenomena) (Leningrad: Khimiya, 1967)
  29. Lewis J B, Pratt H R C Nature 171 1155 (1953)
  30. Sterling V, Scriven L E AIChE J. 5 514 (1959)
  31. Scriven L E Chem. Eng. Sci. 12 (4) 98 (1960)
  32. Young N O, Goldstein J S, Block M J J. Fluid Mech. 6 350 (1959)
  33. Povitskii A S, Lyubin L Ya Osnovy Dinamiki I Teploobmena Zhidkostei I Gazov Pri Nevesomosti (Basics Of The Dynamics And Heat Exchange Of Fluids And Gases At Zero Gravity) (Moscow: Mashinostroenie, 1972)
  34. Ganiev R F, Lapchinskii V F Problemy Mekhaniki V Kosmicheskoi Tekhnologii (Mechanical Problems In Space Technology) (Moscow: Mashinostroenie, 1978)
  35. Avduevskii V S et al Problemy Kosmicheskogo Proizvodstva (Space Manufacturing Problems) (Moscow: Mashinostroenie, 1980)
  36. Grishin S D, Leskov L V Industrializatsiya Kosmosa (Industrialization Of Space) (Moscow: Nauka, 1987)
  37. Walter H U (Ed.) Fluid Sciences And Materials Science In Space (Berlin: Springer-Verlag, 1987)
  38. Ratke L, Walter H, Feuerbacher B (Eds) Materials And Fluids Under Low Gravity (Berlin: Springer-Verlag, 1989)
  39. Pukhnachov V V Fluid Dynamics Trans. 14 145 (1989)
  40. Rath H J (Ed.) Microgravity Fluid Mechanics (Berlin: Springer-Verlag, 1991)
  41. Monti R (Ed.) Physics Of Fluids In Microgravity (London: Taylor and Francis, 2001)
  42. Subramanian R S, Balasubramaniam R The Motion Of Bubbles And Drops In Reduced Gravity (Cambridge: Cambridge Univ. Press, 2001)
  43. Birikh R V et al Liquid Interfacial Systems: Oscillations And Instability (New York: M. Dekker, 2003)
  44. Starov V M, Velarde M G, Radke C J Surfactant Science Series Vol. 138 (London: Taylor and Francis, 2007)
  45. Bratukhin Yu K Ravnovesie I Ustoichivost’ Geterogennykh Sistem (Equilibrium And Stability Of Heterogeneous Systems) (Perm: Izd. Perm. Univ., 1987)
  46. Bratukhin Yu K, Makarov S O Mezhfaznaya Konvektsiya (Interfacial Convection) (Perm: Izd. Perm. Univ., 1994)
  47. Bratukhin Yu K, Makarov S O Gidrodinamicheskaya Ustoichivost’ Mezhfaznykh Poverkhnostei (Hydrodynamic Stability Of Interfaces) (Perm: Izd. Perm. Univ., 2005)
  48. Zuev A L, Kostarev K G Dokl. Phys. 49 747 (2004); Zuev A L, Kostarev K G Dokl. Ross. Akad. Nauk 399 490 (2004)
  49. Bratukhin Yu K et al Exp. Fluids 38 594 (2005)
  50. Jehring H, Viet Huyen N, Horn E J. Electroanal. Chem. 88 (2) 265 (1978)
  51. Wang M, Ming N Phys. Rev. A 44 7898 (1991)
  52. Stoilov Y Yu Langmuir 14 5685 (1998)
  53. Stoilov Yu Yu Phys. Usp. 43 39 (2000); Stoilov Yu Yu Usp. Fiz. Nauk 170 41 (2000)
  54. Startsev A V, Stoilov Yu Yu Quantum Electron. 32 463 (2002); Startsev A V, Stoilov Yu Yu Kvantovaya Elektron. 32 463 (2002)
  55. Bratukhin Yu K et al Izv. Ross. Akad. Nauk. Mekh. Zhidk. Gaza (3) 11 (2009)
  56. Ashurov M et al J. Phys. Conf. Ser. 1124 051008 (2018)
  57. Raake D, Siekmann J, Chun Ch-H Exp. Fluids 7 164 (1989)
  58. Wozniak K, Wozniak G, Rösgen T Exp. Fluids 10 12 (1990)
  59. Chun C H, Raake D, Hansmann G Exp. Fluids 11 359 (1991)
  60. Rashidnia N, Balasubramaniam R Exp. Fluids 11 167 (1991)
  61. Kassemi M, Rashidnia N Phys. Fluids 10 3133 (2000)
  62. Arlabosse P et al Heat Transfer 122 (1) 66 (2000)
  63. Betz J, Straub J Heat Mass Transfer 37 215 (2001)
  64. Wozniak G et al Exp. Fluids 31 84 (2001)
  65. Reynard C, Santini R, Tadrist L Heat Transfer 122 66 (2001)
  66. Chun C-H, Raake D, Hansmann G Exp. Fluids 11 359 (1991)
  67. Betz J, Straub J Heat Mass Transfer 37 215 (2001)
  68. Reynard C, Santini R, Tadrist L C.R. Mechanique 331 (3) 237 (2003)
  69. Mizev A I Priklad. Mekh. Tekh. Fiz. 45 (5) 102 (2004)
  70. Dupeyrat M, Nakache E Bioelectrochem. Bioenerget. 5 134 (1978)
  71. Kovalchuk N M, Vollhardt D Adv. Colloid Interface Sci. 120 (1-3) 1 (2006)
  72. Kovalchuk N M et al Langmuir 28 6893 (2012)
  73. Mizev A, Birikh R Eur. Phys. J. Spec. Top. 192 (1) 145 (2011)
  74. Schwarzenberger S, Eckert K, Odenbach S Chem. Eng. Sci. 68 530 (2012)
  75. Zuev A L, Kostarev K G Phys. Usp. 51 1027 (2008); Zuev A L, Kostarev K G Usp. Fiz. Nauk 178 1065 (2008)
  76. Kostarev K G, Zuev A L, Viviani A C.R. Mecanique 332 (1) 1 (2004)
  77. Kostarev K G, Zuev A L, Viviani A Appl. Mech. Trans. ASME 73 (1) 66 (2006)
  78. Zuev A L, Kostarev K G J. Exp. Theor. Phys. 103 317 (2006); Zuev A L, Kostarev K G Zh. Eksp. Teor. Fiz. 130 363 (2006)
  79. Vazquez G, Alvarez E, Navaza J M J. Chem. Eng. Data 40 611 (1995)
  80. Nikol’skii B P (Ed.) Spravochnik Khimika (1962)
  81. Schott R, Pfennig A Mol. Phys. 102 331 (2004)
  82. Kostarev K G, Briskman V A Dokl. Phys. 46 349 (2001); Kostarev K G, Briskman V A Dokl. Ross. Akad. Nauk 378 187 (2001)
  83. Kostarev K G et al Int. J. Micrograv. Sci. Technol. 19 (2) 26 (2007)
  84. Kim M et al Eur. Phys. J. Spec. Top. 192 185 (2011)
  85. Schwarzenberger K et al Colloids Surf. A 481 633 (2015)
  86. Birikh R V et al Izv. Ross. Akad. Nauk. Mekh. Zhidk. Gaza (4) 30 (2006); Birikh R V et al Fluid Dyn. 41 514 (2006)
  87. Kostarev K G, Zuev A L, Viviani A Int. J. Micrograv. Sci. Technol. 21 59 (2009)
  88. Bushueva K A et al Colloid J. 70 416 (2008); Bushueva K A et al Kolloid. Zh. 70 457 (2008)
  89. Kostarev K G, Zuev A L, Viviani A Acta Astronautica 62 431 (2008)
  90. Gorodetskaya A V Zh. Fiz. Khim. 23 (1) 71 (1949)
  91. Denisova M O "Nestatsionarnaya kontsentratsionnaya konvektsiya Marangoni v vertikal’nykh sloyakh zhidkosti (Non-stationary Marangoni concentration convection in vertical layers of liquid)" PhD Thesis (Phys.-Math. Sci.) (Perm: Institute of Continuous Media Mechanics of the Ural Branch of Russian Academy of Science, 2013)
  92. Birikh R V, Rudakov R N Vychisl. Mekh. Splosh. Sred 3 (1) 24 (2010)
  93. Birikh R V Vestn. Nizhegorod. Univ. Im. N I Lobachevskogo (4-3) 647 (2011)
  94. Birikh R V, Denisova M O, Kostarev K G Izv. Ross. Akad. Nauk. Mekh. Zhidk. Gaza (6) 56 (2011); Birikh R V, Denisova M O, Kostarev K G Fluid Dyn. 46 890 (2011)
  95. Birikh R V, Pukhnachev V V, Frolovskaya O A Izv. Ross. Akad. Nauk. Mekh. Zhidk. Gaza (1) 192 (2015); Birikh R V, Pukhnachev V V, Frolovskaya O A Fluid Dyn. 50 173 (2015)
  96. Shmyrov A, Mizev A Langmuir 35 14180 (2019)
  97. Duclaux E Ann. Chim. Phys. 13 (5) 76 (1878)
  98. Traube I Liebigs Ann. B 265 (1) 27 (1891)
  99. Denisova M O, Kostarev K G Procedia IUTAM 8 75 (2013)
  100. Kostarev K G et al Acta Astronautica 66 (3-4) 427 (2010)
  101. Denisova M O, Kostarev K G, Shmyrov A V Micrograv. Sci. Technol. 30 (4) 353 (2018)
  102. Birikh R V, Denisova M O, Kostarev K G J. Appl. Mech. Tech. Phys. 60 1264 (2019); Birikh R V, Denisova M O, Kostarev K G Vychisl. Mekh. Splosh. Sred 11 (4) 463 (2018)
  103. Eckert K et al Soft Matter 14 9250 (2018)
  104. Čejkova J et al Colloids Surf. A 566 141 (2019)
  105. Bratsun D et al Micromachines 9 600 (2018)

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