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Портал Begell Электронная Бибилиотека e-Книги Журналы Справочники и Сборники статей Коллекции
International Journal of Fluid Mechanics Research
ESCI SJR: 0.206 SNIP: 0.446 CiteScore™: 0.5

ISSN Печать: 2152-5102
ISSN Онлайн: 2152-5110

Выпуски:
Том 46, 2019 Том 45, 2018 Том 44, 2017 Том 43, 2016 Том 42, 2015 Том 41, 2014 Том 40, 2013 Том 39, 2012 Том 38, 2011 Том 37, 2010 Том 36, 2009 Том 35, 2008 Том 34, 2007 Том 33, 2006 Том 32, 2005 Том 31, 2004 Том 30, 2003 Том 29, 2002 Том 28, 2001 Том 27, 2000 Том 26, 1999 Том 25, 1998 Том 24, 1997 Том 23, 1996 Том 22, 1995

International Journal of Fluid Mechanics Research

DOI: 10.1615/InterJFluidMechRes.v27.i5-6.300
pages 574-587

DEVELOPMENT OF IDEAS PUT FORWARD BY S. S. KUTATELADZE CONCERNING THE PHYSICAL RELATIONSHIPS GOVERNING THE INITIAL BOILING AND CONDENSATION STAGES

I. Z. Kopp
Saint-Petersburg State Technical University, St. Petersburg, Russia
V. V. Nosov
Institute of Mathematical Simulation, Russian Academy of Sciences, Moscow, Russia

Краткое описание

The theoretical and experimental studies of heat transfer in boiling and condensation performed by Prof. S. S. Kutateladze are of seminal significance in the development of many aspects of the theory of heat transfer in the course of phase transitions and for their practical application in designing heat transfer equipment [4, 5]. The most important aspects in the development of heat transfer theory are those related to the role of the initial stage of the boiling and condensation mechanism, developing of a model of the inception of vapor bubble nuclei [ 6-9] and also those associated with heat transfer in boiling of liquid metals and prospects for the use of new coolants [ 10-12].
The question of enhancement of heat transfer in boiling and condensation, which was developed on the basis of seminal theoretical work of Kutateladze is of great importance in designing of modern, high-rate heat exchangers with phase transitions for nuclear energetics, chemical machinery and vehicular engines. The most recent studies point to the feasibility of highly increasing the boiling heat transfer by employing heating surfaces with special manufactured macro- and micro-structures [ 13-15].
The determination of permissible limits of implementation of boiling heat transfer and optimization of the structure of heating surfaces, which have been solved in a manner fully applicable at the design stage are of great importance for new technologies which employ small heat exchangers operating at high heat flux densities [ 16, 17].


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