M. I. Petukhov scite author profile

We study, both experimentally and theoretically, the fluid flow driven by a thermocapillary effect applied to a partially contaminated interface in a two-dimensional slot of finite extent. The contamination is due to the presence of an insoluble surfactant which is convected by the flow forming a stagnant zone by the colder edge of the interface. The thermocapillary surface stress is produced by a special optocapillary system, which makes it possible, first, to get an almost linear temperature profile along the interface and, second, to apply a surface pressure large enough to force the surfactant to experience a phase transition to a more condensed state. This enabled us for the first time since the release of the paper by Carpenter & Homsy (J. Fluid Mech., vol. 155, 1985, pp. 429–439) to test experimentally their theoretical predictions and obtain new results for the case when the contamination exists simultaneously in two phase states within the interface. We show that one part of the surface is free of surfactant and subject to vigorous thermocapillary flow, while another part is stagnant and subject to creeping flow with a surface velocity which is approximately two orders of magnitude smaller. We found that the extent of the stagnant zone theoretically predicted earlier does not coincide with the newly obtained experimental data. In this paper, we suggest analytical and numerical solutions for the position of the edge of the stagnation zone, which are in perfect agreement with the experimental data.

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Combating data incompetence in pollen images detection and classification for pollinosis prevention

Khanzhina

Filchenkov

Minaeva

et al. 2022

Computers in Biology and Medicine

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Dynamics of a soluble surfactant and evolution of daughterly concentration tongue in a Hele-Shaw cell

Demin

Petukhov

2021

J. Phys.: Conf. Ser.

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The origin and evolution of a concentration tongue, which is generated in the volume of a fluid due to the non-uniform desorption of a soluble surfactant, is investigated theoretically by the method of direct numerical simulation. Initially, a film of the soluble surfactant is located on the surface of the fluid that fills up the thin vertical rectangular slot (Hele – Shaw cell), heated non-uniformly from above. The intensity of desorption into the volume is determined by the compression of the film, caused by the Marangoni force, acting along the up boundary in opposite direction to the tangential component of temperature gradient. The dynamics of concentration tongue depends on the intensity of a creeping convective flow, which is produced in the volume jointly by the Archimedean and thermocapillary forces. The spatial motion of the fluid and the process of an admixture exchange between the surface and the volume in the Hele – Shaw cell are carried out in the plane of wide vertical boundaries of the cavity. This permits to simulate numerically and clearly visualize behaviour of the contaminants in multifarious fluid systems.

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Nonlinear Dynamics of the Film of an Insoluble Surfactant During the Relaxation to Equilibrium

Demin

Petukhov

Shmyrov

et al. 2020

Interfac Phenom Heat Transfer

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M. I. Petukhov

Phase transitions on partially contaminated surface under the influence of thermocapillary flow

Combating data incompetence in pollen images detection and classification for pollinosis prevention

Dynamics of a soluble surfactant and evolution of daughterly concentration tongue in a Hele-Shaw cell

Nonlinear Dynamics of the Film of an Insoluble Surfactant During the Relaxation to Equilibrium

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