Natural Convection and Entropy Generation of Non-Newtonian Hybrid Cu-Al۲O۳/Water Nanofluid in an Inclined Partial Porous Cavity with Different Local Heater Positions in the Presence of Magnetic Field

Publish Year: 1402
نوع سند: مقاله ژورنالی
زبان: English
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JR_JHMTR-10-2_009

تاریخ نمایه سازی: 24 شهریور 1403

Abstract:

In the present paper, natural convection of non-Newtonian hybrid Cu-Al۲O۳ nanofluid in an inclined partial porous cavity with changing heated wall position was numerically investigated. At first, the governing equations are rewritten non-dimensionally by utilizing dimensionless parameters. Then, the entropy generation equations are expressed in non-dimensional form. The discretization of governing equations is done by CVFVM (Control Volume Finite Volume Method). The coupling between pressure and velocity is handled by SIMPLE method and the obtained algebraic equations are computed by SIP solver. Nu number and irreversibility of flow and heat transfer are examined by main parameters such as Ha number, Da number, porosity, porous media thickness, position of heated wall, power law index and angle of inclination. Nu number increases almost ۳۹%, ۵۰% and ۵۲% with enhancing porous media thickness from ۰.۱ to ۰.۶ at inclination angle of -۳۰o, ۰o and ۳۰o, respectively. The Nu number increases by setting the hot surface at the lower part of the cavity. Nu decreases almost ۱۰.۵%, ۷.۶% and ۵.۲% by augmentation of Ha number from ۰.۰ to ۴۰.۰ at viscosity power law index of ۰.۶, ۱.۰ and ۱.۴, respectively. Nu increases almost ۳۶%, ۴۷% and ۵۳% at inclination angle of ۳۰o, ۰o and ‒۳۰o by enhancing volume fraction from ۰.۰۲ to ۰.۱۲, respectively. Convection heat transfer and fluid flow will be more dominant by augmentation of permeability and Da number and this will lead to more entropy generation by fluid flow and less entropy generation and irreversibility by magnetic field and convective heat transfer process. Fluid flow and magnetic field entropy generation decrease and heat transfer irreversibility and Be number rises by porous thickness ratio. Be number and thermal entropy generation increases with porosity. However, irreversibility due to magnetic field and flow friction decreases.

Authors

Amin Kardgar

Department of Mechanical Engineering, Faculty of Engineering and Technology, University of Mazandaran, Babolsar, Iran

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