Влияние частоты расположения ребер радиатора на плавление парафина с добавлением наночастиц; Перспективы развития фундаментальных наук; Т. 3 : Математика

Влияние частоты расположения ребер радиатора на плавление парафина с добавлением наночастиц; Перспективы развития фундаментальных наук; Т. 3 : Математика

Dettagli Bibliografici
Parent link:Перспективы развития фундаментальных наук=Prospects of Fundamental Sciences Development: сборник научных трудов XV Международной конференции студентов, аспирантов и молодых ученых, г. Томск, 24-27 апреля 2018 г./ Национальный исследовательский Томский политехнический университет (ТПУ) ; под ред. И. А. Курзиной, Г. А. Вороновой.— , 2018
Т. 3 : Математика.— 2018.— [С. 34-36]
Autore principale: Бондарева Н. С.
Ente Autore: Национальный исследовательский Томский государственный университет (ТГУ)
Altri autori: Шеремет М. А. (научный руководитель)
Riassunto:Заглавие с экрана
Heat transfer inside the copper heat sink filled with nano-enhanced paraffin is studied numerically. The hydrodynamic equations were written in dimensionless stream function and vorticity. The energy equation is combined for the melt and solid paraffin by means of the smoothing function φ which determines smooth changes in the latent energy and thermophysical properties of the material during the transition through the interphase. The system of partial differential equations was solved by using the finite difference method. Influence of number of fins and nanoparticles volume fraction on melting regime and natural convection was investigated.
Lingua:russo
Pubblicazione: 2018
Soggetti:
электронный ресурс
частота
расположение
радиаторы
ребра
парафины
наночастицы
транспортировка
энергия
Accesso online:http://earchive.tpu.ru/handle/11683/50836
Natura: MixedMaterials Elettronico Capitolo di libro
KOHA link:https://koha.lib.tpu.ru/cgi-bin/koha/opac-detail.pl?biblionumber=627607
Descrizione
Riassunto:Заглавие с экрана
Heat transfer inside the copper heat sink filled with nano-enhanced paraffin is studied numerically. The hydrodynamic equations were written in dimensionless stream function and vorticity. The energy equation is combined for the melt and solid paraffin by means of the smoothing function φ which determines smooth changes in the latent energy and thermophysical properties of the material during the transition through the interphase. The system of partial differential equations was solved by using the finite difference method. Influence of number of fins and nanoparticles volume fraction on melting regime and natural convection was investigated.

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