Convective heat transfer of a pseudoplastic nanosuspension within a chamber with two heated wall sections of various heat fluxes

Convective heat transfer of a pseudoplastic nanosuspension within a chamber with two heated wall sections of various heat fluxes

Cooling of heat-generating elements in different engineering fields is a very important and crucial topic. The present research is devoted to numerical analysis of thermogravitational convection of a pseudoplastic nanosuspension in a chamber with two heated bottom wall sections of various heat fluxe...

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Опубликовано в: :Symmetry Vol. 14, № 12. P. 2688 (1-13)
Главный автор: Loenko, Darya S.
Другие авторы: Sheremet, Mikhail A.
Формат: Статья в журнале
Язык:English
Предметы:
наножидкости
естественная конвекция
математическое моделирование
конвективный теплообмен
статьи в журналах
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Итог:Cooling of heat-generating elements in different engineering fields is a very important and crucial topic. The present research is devoted to numerical analysis of thermogravitational convection of a pseudoplastic nanosuspension in a chamber with two heated bottom wall sections of various heat fluxes and isothermally cooling vertical walls. A mathematical model formulated employing the time-dependent Oberbeck-Boussinesq equations with non-primitive variables has been worked out by the finite difference technique. It has been revealed that a mixture of 1% carboxymethylcellulose with water can be the most effective medium to cool the heat-generating elements. At the same time, aluminum oxide nano-sized solid particles have a more essential cooling impact on the heated sections.
Библиография:Библиогр.: 35 назв.
ISSN:2073-8994

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