3D natural convection melting in a cubical cavity with a heat source, Electronic resource / N. S. Bondareva, M. A. Sheremet

Уровень набора: International Journal of Thermal SciencesОсновной Автор-лицо: Bondareva, N. S., Nadezhda SergeevnaАльтернативный автор-лицо: Sheremet, M. A., physicist, Associate Professor of Tomsk Polytechnic University, Candidate of physical and mathematical sciences, 1983-, Mikhail AleksandrovichКоллективный автор (вторичный): Национальный исследовательский Томский политехнический университет, Инженерная школа энергетики, Научно-образовательный центр И. Н. Бутакова (НОЦ И. Н. Бутакова)Язык: английский.Страна: .Резюме или реферат: Three-dimensional natural convection melting in a cubical cavity with a local heater has been analyzed numerically. The considered region is an enclosure bounded by two isothermal opposite vertical surfaces of low constant temperature and adiabatic other walls. A heat source of high constant temperature is located on the bottom wall. The governing equations formulated in dimensionless vector potential functions, vorticity vector and temperature with corresponding initial and boundary conditions have been solved using implicit finite difference method of the second-order accuracy. The effects of the Rayleigh number (5?104 ? Ra ? 5?107) and dimensionless time for Prandtl number (Pr = 48.36) and Stefan number (Ste = 5.53) on streamlines, isotherms, profiles of temperature and velocity as well as mean Nusselt number at the heat source surface have been analyzed..Примечания о наличии в документе библиографии/указателя: [References: 35 tit.].Аудитория: .Тематика: электронный ресурс | труды учёных ТПУ | тепловое излучение | естественная конвекция | численные результаты Ресурсы он-лайн:Щелкните здесь для доступа в онлайн
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[References: 35 tit.]

Three-dimensional natural convection melting in a cubical cavity with a local heater has been analyzed numerically. The considered region is an enclosure bounded by two isothermal opposite vertical surfaces of low constant temperature and adiabatic other walls. A heat source of high constant temperature is located on the bottom wall. The governing equations formulated in dimensionless vector potential functions, vorticity vector and temperature with corresponding initial and boundary conditions have been solved using implicit finite difference method of the second-order accuracy. The effects of the Rayleigh number (5?104 ? Ra ? 5?107) and dimensionless time for Prandtl number (Pr = 48.36) and Stefan number (Ste = 5.53) on streamlines, isotherms, profiles of temperature and velocity as well as mean Nusselt number at the heat source surface have been analyzed.

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