期刊
INTERNATIONAL COMMUNICATIONS IN HEAT AND MASS TRANSFER
卷 129, 期 -, 页码 -出版社
PERGAMON-ELSEVIER SCIENCE LTD
DOI: 10.1016/j.icheatmasstransfer.2021.105671
关键词
Tangent hyperbolic-hybrid nanofluid; Inclined magnetic field; Viscous dissipation; Entropy optimization; Finite difference method
资金
- Deanship of Scientific Research, Islamic University of Madinah, Ministry of Education, KSA
The hybrid nanofluid shows potential advantages in enhancing the thermal transfer capacity of regular fluids, containing two-part nanoparticles. The heat transmission level of SiO2-Cu/(CH2OH)(2) steadily increases compared to Cu-(CH2OH)(2).
Due to its application in the industry, heat transport is of crucial relevance. A novel form of nano-fluid known as the hybrid nanofluid helps to increase the thermal transfer capacity of regular fluids and has a larger thermal exponent. The two-part nanoparticle in a standard fluid is connected to the hybrid nanofluids. This study examines the hybrid nanofluid flowing properties and thermal transport passing through a slippy surface. There will be an examination of the forms of Inclined magnetic field, viscous dissipation, inclined joule heating, and thermal radiative impacts. The controlled equations are numerically solved using a numerical methodology, that is the finite difference procedure. This examination has included the hybrid tangent hyperbolic nanofluid which consists of the rich viscous non-Newtonian fluid (CH2OH)(2) (ethylene glycol) of the genre of dual different sorts of nano-solid particles i.e., copper (Cu) and silicon dioxide (SiO2). It is worth noting that the heat transmission level of SiO2-Cu/(CH2OH)(2) which has been steadily increasing compared with the typical nanofluid (Cu-(CH2OH)(2)). The entropy system is amplified to the Inclined magnetic field, radiative heat flux, Eckert and Weissenberg numbers by assimilation of nanoparticles ratio. Furthermore, SiO2-Cu/(CH2OH)(2) tangent hyperbolic hybrid nanofluid combinations hold an upper hand in the main aspects of heat transfer efficiency while compared to the Cu-(CH2OH)(2) tangent hyperbolic nanofluid.
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