A. N. Chernyavskiy scite author profile

Abstract. The results of experimental study of evolution of temperature fields under single vapor bubble obtained by high-speed infrared thermometry with high spatial resolution (13 m) are presented in this paper. The data were obtained at pool boiling of saturated ethanol and deionized water at atmospheric pressure. Reconstruction of local instantaneous heat flux distribution on the heater surface was carried out with the use of numerical simulation. It is shown that maximal local heat flux was observed in the microlayer region on the bubble growth stage and reached the value an order of magnitude greater than the input heat flux. Based on the results of experimental and numerical researches the estimations of the microlayer thickness were carried out at pool boiling of water and ethanol, which are in good agreement with the experimental data presented in the literature and obtained using laser interferometry.

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Deep learning segmentation to analyze bubble dynamics and heat transfer during boiling at various pressures

Malakhov

Seredkin

Chernyavskiy

et al. 2023

International Journal of Multiphase Flow

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A. N. Chernyavskiy

Study on Local Heat Transfer in the Vicinity of the Contact Line under Vapor Bubbles at Pool Boiling

Numerical simulation of heat transfer and determination of critical heat fluxes at nonsteady heat generation in falling wavy liquid films

Numerical Simulation of Wave Formation and Heat Transfer in Falling Liquid Films at Unsteady Heat Release

Study of thermal behavior of microlayer under vapor bubble at liquid boiling

Deep learning segmentation to analyze bubble dynamics and heat transfer during boiling at various pressures

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