Thermal effects of nonuniform heating in a nanofluid-filled annulus: Buoyant transport versus entropy generation
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Cita com:
hdl:2117/354356
Tipus de documentArticle
Data publicació2021-09-09
EditorWiley
Condicions d'accésAccés obert
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Reconeixement-NoComercial-SenseObraDerivada 3.0 Espanya
Abstract
The primary challenge in the majority of heat transfer applications, in view of design perspective, is to maximize the thermal transport with the minimum generation of entropy. This paper addresses the numerical investigation of buoyant convection and entropy generation processes of Al2O3–water nanofluid inside a vertical annular configuration having two coaxial cylinders. The vertical cylindrical surfaces are imposed with sinusoidal thermal distribution having different phase deviation and amplitude, while the horizontal surfaces are retained adiabatic. In this analysis, the numerical computations of conservation equations governing the physical process are performed using the time-splitting technique and line overrelaxation methods. Detailed numerical simulations are performed for broad ranges of critical parameters, such as Rayleigh number, phase deviation, amplitude ratio, and nanoparticle volume fraction. From the vast numerical experiments, we systematically identified the suitable parameter regimes at which enhanced thermal transport has been produced with minimum entropy generation. Furthermore, the critical quantities, such as thermal dissipation and entropy generation, could be effectively monitored by a particular selection of phase deviation (¿) and amplitude ratio (¿). It has been identified that these parameters have more influence on thermal transport as well as entropy production as compared to other parameters of the analysis.
CitacióSankar, M. [et al.]. Thermal effects of nonuniform heating in a nanofluid-filled annulus: Buoyant transport versus entropy generation. "HEAT TRANSFER", 9 Setembre 2021, p. 1-30.
ISSN2688-4534
Versió de l'editorhttps://onlinelibrary.wiley.com/journal/26884542
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