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Minakov, A. V.
Pryazhnikov, M. I.
Guzei, D. V.
Zeer, G. M.
Rudyak, V. Ya.
2018-02-07T07:28:53Z
2018-02-07T07:28:53Z
2017-06
Minakov, A. V. The experimental study of nanofluids boiling crisis on cylindrical heaters [Текст] / A. V. Minakov, M. I. Pryazhnikov, D. V. Guzei, G. M. Zeer, V. Ya. Rudyak // International Journal of Thermal Sciences. — 2017. — Т. 116. — С. 214-223
12900729
http://www.sciencedirect.com/science/article/pii/S1290072916304872?via%3Dihub
http://elib.sfu-kras.ru/handle/2311/69838
Текст статьи не публикуется в открытом доступе в соответствии с политикой журнала.
The paper deals with the experimental study of nanofluids boiling on cylindrical heater. The studied nanofluids were prepared on the basis of distilled water and nanoparticles of silicon, aluminum and iron oxides as well as diamond. The volume concentration of nanoparticles varied from 0.05 to 1%. The nanoparticles diameter ranged from 10 to 100 nm, the diameter of the heater was varied from 0.1 to 0.3 mm. It is revealed that the use of nanofluids provides a several-fold increase of the critical heat flux. However, critical heat flux in nanofluids depends on the material and size of nanoparticles as well as on the diameter of used cylindrical heater. It is shown that the critical heat flux increases with increasing the nanoparticles size, while it decreases with increasing the heater diameter. It was revealed for the first time that the critical heat flux depends on the boiling process duration. © 2017 Elsevier Masson SAS. All rights reserved.
Nanofluid
Nanoparticles
Boiling crisis
Critical heat flux (CHF)
Deposition of nanoparticles
Heater surface microstructure
The experimental study of nanofluids boiling crisis on cylindrical heaters
Journal Article
Published Journal Article
214-223
29.19.22
2018-02-07T07:28:53Z
10.1016/j.ijthermalsci.2017.02.019
Политехнический институт
Институт инженерной физики и радиоэлектроники
Кафедра материаловедения и технологии обработки материалов
Кафедра теплофизики
Научно-исследовательская часть
International Journal of Thermal Sciences
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Q1


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