Abstract
A model has been developed for the formation of a porous layer of nanoparticles (nanolayers) on the surface of a heater during the boiling of a nanofluid. From a practical point of view, the properties and the process of the formation of a nanolayer on the heater surface are of interest. Modification of the heating surfaces in power equipment via the formation of a porous layer on them is more promising than the use of a nanofluid as a coolant. The study of the formation of a nanolayer during boiling provides insight into its properties and aids in the study of its effect on heat transfer during boiling and boiling crisis. The main goal of theoretical simulation at this stage is to obtain a calculation expression to calculate the time of the formation of a layer of a certain thickness on the surface.
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REFERENCES
Kutateladze, S.S., Teploperedacha pri kondensatsii i kipenii (Heat Transfer during Condensation and Boiling), Moscow: Mashgiz, 1952.
Jeong, Y.H., Chang, W.J., and Chang, S.H., Int. J. Heat Mass Transfer, 2008, no. 51, p. 3025.
Kim, S.J., Buongiorno, J., Hu, L.W., and Bang, I.C., Int. J. Heat Mass Transfer, 2007, no. 50, p. 4105.
Terekhov, V.I., Kalinina, S.V., and Lemanov, V.V., Thermophys. Aeromech., 2010, vol. 17, no. 2, p. 157.
Isachenko, V.P., Osipova, V.A., and Sukomel, A.S., Teploperedacha (Heat Transfer), Moscow: Energiya, 1969. 440 s.
Dmitriev, A.S., Therm. Eng., 2011, vol. 58, no. 4, p. 301.
Popov, I.A., Shchelchkov, A.V., Gortyshov, Yu.F., and Zubkov, N.N., High Temp., 2017, vol. 55, no. 4, p. 524.
Kuzma-Kichta, Yu.A., Lavrikov, A.V., and Shustov, M.V., in Tr. V Ross. nats. konf. po teploobmenu (Tr. V Russ. Natl. Conf. on Heat Transfer), Moscow: Mosk. Energ. Inst., 2010, vol. 1, p. 211.
Yashnov, V.I., in Krizis kipeniya i temperaturnyi rezhim isparitel’nykh poverkhnostei nagreva (The Boiling Crisis and the Temperature Regime of Evaporative Heating Surfaces), Tr. TsKTI, 1965, no. 58, p. 78.
Kim, S.J., Truong, B., Buongiorno, J., Hu, L.W., and Bang, I.C., in Proc. ICAPP’06, Reno, NV, 2006, p. 1573, Paper 6005.
Vasil’ev, N.V., Varaksin, A.Yu., Zeigarnik, Yu.A., Khodakov, K.A., and Epel’fel’d, A.V., High Temp., 2017, vol. 55, no. 6, p. 880.
Bang, I.Ch. and Chang, S.H., Int. J. Heat Mass Transfer, 2005, no. 48, p. 2407.
Buongiorno, J., Coyle, C., and McKrell, Th., Synthesis of crud and its effect on pool and subcooled flow boiling, CASL L3 Milestone Report, US Department of Energy. March, 2015.
Kuzma-Kichta, Yu.A., Lavrikov, A.V., Shustov, M.V., Chursin, P.S., Chistyakova, A.V., Zvonarev, Yu.A., Zhukov, V.M., and Vasil’eva, L.T., Therm. Eng., 2014, vol. 61, no. 3, p. 210
Sanjo, G.C. and Krishnakumar, T.S., in Proc. Int. Conf. on Energy and Environment 2013 (ICEE 2013), Kottayam, Kerala, India, 2013, vol. 2, no. 1, p. 598.
Rach, S. Patel, P., and Deore, D.A., Int. J. Eng. Dev. Res., 2014, vol. 2, no. 2, p. 2422.
Sharma, S. and Gupta, A.K., in Proc. 7th Int. Conf. on CFD in the Minerals and Process Industries, Melbourne, Australia, 2009, p. 1.
Labuntsov, D.A. and Yagov, V.V., Mekhanika dvukhfaznykh sistem. Uchebnoe posobie dlya VUZov (Mechanics of Two-Phase Systems: Textbook for High Schools), Moscow: Mosk. Energ. Inst., 2000.
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Sirotkina, A.L., Fedorovich, E.D. & Sergeev, V.V. Formation of a Porous Nanoparticle Layer on a Heater Surface Upon the Boiling of a Nanofluid. High Temp 56, 732–737 (2018). https://doi.org/10.1134/S0018151X1804017X
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DOI: https://doi.org/10.1134/S0018151X1804017X