M.N. Ryabov scite author profile

M.N. Ryabov

4Publications

3Citation Statements Received

51Citation Statements Given

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Affiliations

Institute of Thermophysics, Novosibirsk State University

Publications

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Experimental study of submillimeter droplets dynamics and breakup in continuous supersonic flow terminated by shock wave

Gobyzov

Lozhkin

Ryabov

et al. 2016

EPJ Web of Conferences

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Abstract. The present paper reports an application of optical methods, namely PIV, background-oriented-schlieren (BOS) and high-magnification imaging with background illumination to study of dynamics and breakup of 10-100 ȝm size droplets in continuous supersonic flow terminated by a normal shock wave. Flow diagnostics was performed by means of BOS and PIV. Shadow photography allowed to specify velocity ranges for different droplet sizes and to visualize droplets dynamics and breakup modes. Features of the experimental setup and certain details of implemented measurement system are considered. Results of velocity measurements and droplets behavior, including deformation and breakup, are presented and analysis of experimental conditions and dimensionless parameters affecting the droplets behavior is performed. Distinctive features of deformation and breakup processes of submillimeter scale droplets are revealed.

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Convection in an evaporating drop of aqueous solution at a high concentration of microscopic particles

Misyura

Bilsky

Gobyzov

et al. 2021

J. Phys.: Conf. Ser.

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This article presents the performed experimental studies on the effect of the concentration of microparticles on free convection in a water drop located on a heated smooth and textured wall surface. It is shown that at a high concentration of particles, their aggregation and deposition take place on the wall and on the free surface of droplet. As a result, the average convection velocity in the droplet decreases significantly. Suppression of convection is important to consider when simulating heat transfer and droplet evaporation. The results obtained are important for technologies that use colloidal solutions (drops, films).

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Study of Deformation and Breakup of Submillimeter Droplets’ Spray in a Supersonic Nozzle Flow

2020

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The problem of secondary atomization of droplets is crucial for many applications. In high-speed flows, fine atomization usually takes place, and the breakup of small droplets determines the final products of atomization. An experimental study of deformation and breakup of 15–60 µm size droplets in an accelerated flow inside a converging–diverging nozzle is considered in the paper. Particle image velocimetry and shadow photography were employed in the experiments. Results of gas and liquid phase flow measurements and visualization are presented and analyzed, including gas and droplets’ velocity, shape and size distributions of droplets. Weber numbers for droplets’ breakup are reported. For those small droplets at low Weber numbers, the presence of well-known droplets’ breakup morphology is confirmed, and rare “pulling” breakup mode is detected and qualitatively described. For the “pulling” breakup mode, a consideration, explaining its development in smaller droplets through shear stress effect, is provided.

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Application of the PSP Technique to Study the Structure of Transonic Flow in Rectangular Channel

Budovsky

Sidorenko

Luzgin

et al. 2022

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M.N. Ryabov

Experimental study of submillimeter droplets dynamics and breakup in continuous supersonic flow terminated by shock wave

Convection in an evaporating drop of aqueous solution at a high concentration of microscopic particles

Study of Deformation and Breakup of Submillimeter Droplets’ Spray in a Supersonic Nozzle Flow

Application of the PSP Technique to Study the Structure of Transonic Flow in Rectangular Channel

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