Outcome of Nanofluid Flow Containing Arbitrary Shape Nanoparticles Induced by a Permeable Stretching Sheet

Outcome of Nanofluid Flow Containing Arbitrary Shape Nanoparticles Induced by a Permeable Stretching Sheet

In this work we have discussed the impact of thermal radiation on heat transfer to nanofluid flow over an unsteady permeable stretching sheet using various types of arbitrary shape nanoparticles of Copper (Cu), Silver (Ag), Alumina (Al 2 O 3 ), and Titania Oxide (TiO 2 ) in the base fluid. Suitable...

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Xehetasun bibliografikoak
Egile Nagusiak: A. Sarkar, P.K. Kundu
Formatua: Artikulua
Hizkuntza:English
Argitaratua: University of Zielona Góra 2020-06-01
Saila:International Journal of Applied Mechanics and Engineering
Gaiak:
nanofluid
heat transfer
boundary layer flow
thermal radiation
permeable stretching sheet
Sarrera elektronikoa:https://www.ijame-poland.com/Outcome-of-Nanofluid-Flow-Containing-Arbitrary-Shape-Nanoparticles-Induced-by-a-Permeable,166860,0,2.html
Deskribapena
Gaia:In this work we have discussed the impact of thermal radiation on heat transfer to nanofluid flow over an unsteady permeable stretching sheet using various types of arbitrary shape nanoparticles of Copper (Cu), Silver (Ag), Alumina (Al 2 O 3 ), and Titania Oxide (TiO 2 ) in the base fluid. Suitable transformations have been employed to build ODEs from the partial differential equations. Numerical results are therefore obtained particularly for cylindrical shape and spherical shape nanoparticles. Our analysis substantiates that the velocity and temperature profiles increases with enhanced thermal radiation parameter. Further, Nusselt number is more advanced for the nanofluid that contains cylindrical shape nanoparticles as compared to spherical shape nanoparticles.
ISSN:1734-4492
2353-9003

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