Source: http://press.psu.ru/index.php/phys/article/view/1515
Timestamp: 2019-04-25 08:07:07+00:00

Document:
Экспериментально изучен колебательный режим конвективного движения, возникающего в результате диффузии ПАВ в системе жидкостей c вертикальной межфазной границей, перегораживающей горизонтальный канал. Специфика рассматриваемой задачи состоит в равной начальной плотности всех жидкостей – как базовых, так и диффундирующей. Описана структура течений и полей концентрации. Исследована динамика колебательного режима конвекции. Проведено сравнение данных эксперимента и результатов численного счета.
Polezhaev V. I., Bello M. S., Verezub N. A., Dubovik K. G., Lebedev A. P., Nikitin S. A., Pavlovskii D. S., Fediushkin A. I. Convective processes in microgravity. Moscow: Nauka, 1992. 240 p. (In Russian).
Bogatyrev G. P., Ermakov M. K., Ivanov A. I., Nikitin S. A., Pavlovskii D. S., Polezhaev V. I., Putin G. F., Savin S. F. Experimental and theoretical investigation of thermal convection in a terrestrial model of a convection detector. Fluid Dynamics, 1994, vol. 29, no. 5, pp. 645–652.
Monti R. (Ed.) Physics of fluids in microgravity. London: Taylor and Francis, 2001, 624 p.
Plateau J. Experimental and theoretical researches on the figures of equilibrium of a liquid mass withdrawn from the actions of gravity. Ann. Rep. Board of Regents of the Smithsonian Institution, 1863. 207 p.
Kosvintsev S. R., Reshetnikov D. G. Droplet motion induced by diffusion of soluble surfactant to the external medium: experiment. Colloid Journal, 2001, vol. 63, no. 3, pp. 318–325.
Morozov K. I., Lebedev A. V. Bifurcations of the shape of a magnetic fluid droplet in a rotating magnetic field. Journal of Experimental and Theoretical Physics, 2000, vol. 91, no. 5, pp. 1029–1032.
Kostarev K. G., Briskman V. A. Dissolution of a drop with a high content of a surface-active substance. Doklady Physics, 2001, vol. 46, no. 5. pp. 349–351.
Denisova M. O., Kostarev K. G., Oshmarina M. V., Torokhova S. V., Shmyrov A. B., Shmyrova A. I. Contraction in nonequilibrium systems. Proc. of Int. Symposium “Non-equlibrium processes in continuous media”, vol. 1. Perm, 2017, pp. 152–155. (In Russian).
Nikolsky B. P. (Ed.) Handbook on chemistry, vol. 3. Moscow: Khimija, 1965. 1008 p. (In Russian).
Denisova M. O. Nonstationary concentration Marangoni convection in vertical liquid layers. PhD Thesis, Perm, 2013. 150 p. (In Russian).
Birikh R. V. Stability of homogeneous non-stationary surfactant diffusion through a flat interface between liquids. Bulletin of Perm University. Series: Physics. 2016. № 1 (32). С. 64–70 (In Russian).
Bushueva K. A., Denisova M. O., Zuev A. L., Kostarev K. G. Flow development at the surfaces of bubbles and droplets in gradient solutions of a surfase-active liquid. Colloid Journal, 2008, vol. 70, no. 4, pp. 416–422.
Birikh R. V. The surfactant diffusion through interface of liquids having equal densities. Convective flows, 2017, vol. 8, pp. 22–34 (In Russian).

References: V. 
 V. 
 V. 
 V. 
 V. 
 V.