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Journal of Engineering Thermophysics
Published in: Journal of Engineering Thermophysics 1/2020

01-02-2020

Crisis of Nucleate Boiling in a Finite-Height Horizontal Layer of Liquid

Authors: V. I. Zhukov, A. N. Pavlenko

Published in: Journal of Engineering Thermophysics | Issue 1/2020

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Abstract

This paper presents the results of measurement and calculation within an upgraded Zuber model of critical heat flux (CHF) during nucleate boiling in thin horizontal layers of liquid. The layer height was increased in regimes of developed nucleate boiling. The two-phase layer was foam with vapor columns ascending at the corners of a rectangular square lattice. In the calculations, the foam was considered as an isotropic homogeneous system. The model assumes that the diameter of the vapor columns and the critical Helmholtz instability wavelength are independent of the foam density and are determined by the length of the most dangerous Rayleigh--Taylor instability wavelength. The proposed model fits the CHF experimental data for boiling liquid and can explain the CHF decrease in solutions with addition of surfactants that increase foaming.
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Literature
1.
Liang, G., and Mudawar, I., Pool Boiling Critical Heat Flux (CHF)—Part 1: Review of Mechanisms, Models, and Correlations,Int. J. Heat Mass Transfer, 2018, vol. 117, pp. 1352–1367.
2.
Kutateladze, S.S., Hydrodynamic Model of Heat Transfer Crisis in Liquid Boiling for Free Convection, Zh. Tekh. Fiz., 1950, vol. 20, no. 11, pp. 1389–1392.
3.
Zuber, N., On the Stability of Boiling Heat Transfer,Trans. ASME, 1958, vol. 80, no. 3, pp. 711–720.
4.
Lienhard, J.H. and Dhir, V.K., Extended Hydrodynamic Theory of the Peak and Minimum Pool Boiling Heat Fluxes, NASA Report No. CR-2270, Univ. of Kentucky, Lexington, 1973.
5.
Lienhard, J.H. and Dhir, V.K., Hydrodynamic Prediction of Peak Pool-Boiling Heat Fluxes from Finite Bodies, Trans. ASME J. Heat Transfer, 1973, vol. 95 pp. 152–158.
6.
Mudawar, I., Howard, A.H., and Gersey, C.O., An Analytical Model for Near-Saturated Pool Boiling Critical Heat Flux on Vertical Surfaces, Int. J. Heat Mass Transfer, 1997, vol. 40, pp. 2327–2339.
7.
Liang, G., and Mudawar, I., Pool Boiling Critical Heat Flux (CHF)—Part 2: Assessment of Models and Correlations, Int. J. Heat Mass Transfer, 2018, vol. 117, pp. 1368–1383.
8.
Yagov, V.V., Is a Crisis in Pool Boiling Actually a Hydrodynamic Phenomenon?, Int. J. Heat Mass Transfer, 2014, vol. 73, pp. 265-273.
9.
Zhukov, V.I. and Pavlenko, A.N., Heat Transfer and Critical Phenomena during Evaporation and Boiling in a Thin Horizontal Liquid Layer at Low Pressures, Int. J. Heat Mass Transfer, 2018, vol. 117, pp. 978–990.
10.
Zhukov, V.I., Pavlenko, A.N., Nagaitseva, Yu.V., and Weiss, D., Effect of the Layer Height on Heat Transfer and the Critical Heat Flux in Evaporation of a Fluid under Low Pressures, High Temp., 2015, vol. 53, no. 5, pp. 690–696.
11.
Gaertner, R.F., Photographic Study of Nucleate Pool Boiling on a Horizontal Surface, Trans. ASME J. Heat Transfer, 1965, vol. 87, no. 17, pp. 18–29.
12.
Sakashita, H. and Ono, A., Boiling Behaviors and Critical Heat Flux on a Horizontal Plate in Saturated Pool Boiling of Water at High Pressures, Int. J. Heat Mass Transfer, 2009, vol. 52, pp. 744–750.
13.
Rohsenow, W.M. and Griffith, P., Correlation of Maximum Heat Transfer Data for Boiling of Saturated Liquids, Chem. Eng. Prog., Symp. Ser., 1955, vol. 52, pp. 47–49.
14.
Raza, Md.Q., Kumar, N., and Raj, R., Wettability-Independent Critical Heat Flux during Boiling Crisis in Foaming Solutions,Int. J. Heat Mass Transfer, 2018, vol. 126, pp. 567–579.
15.
Surtaev, A., Serdyukov, V., Zhou, J., Pavlenko, A., and Tumanov, V., An Experimental Study of Vapor Bubbles Dynamics at Water and Ethanol Pool Boiling at Low and High Heat Fluxes, Int. J. Heat Mass Transfer, 2018, vol. 126, pp. 297–311.
16.
Nishio, S. and Tanaka, H., Visualization of Boiling Structures in High Heat–Flux Pool Boiling, Int. J. Heat Mass Transfer, 2004, vol. 47, no. 21, pp. 4559–4568.
17.
Iida, Y. and Kobayasi, K., Distributions of Void Fraction above a Horizontal Heating Surface in Pool Boiling, Bull. JSME, 1969, vol. 12, no. 50, pp. 283–290.
18.
Kutateladze, S.S. and Malenkov, I.G., Experimental Study of Similarity in Boiling and Bubbling Processes, Zh. Prikl. Mekh. Tekh. Fiz., 1966, no. 2, pp. 140–143.
Metadata
Title
Crisis of Nucleate Boiling in a Finite-Height Horizontal Layer of Liquid
Authors
V. I. Zhukov
A. N. Pavlenko
Publication date
01-02-2020
Publisher
Pleiades Publishing
Published in
Journal of Engineering Thermophysics / Issue 1/2020
Print ISSN: 1810-2328
Electronic ISSN: 1990-5432
DOI
https://doi.org/10.1134/S1810232820010014

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