2023
DOI: 10.1108/hff-11-2022-0639
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Hybridized nanofluidic convection in umbrella-shaped porous thermal systems with identical heating and cooling surfaces

Abstract: Purpose This study aims to investigate the impact of different heater geometries (flat, rectangular, semi-elliptical and triangular) on hybrid nanofluidic (Cu–Al2O3–H2O) convection in novel umbrella-shaped porous thermal systems. The system is top-cooled, and the identical heater surfaces are provided centrally at the bottom to identify the most enhanced configuration. Design/methodology/approach The thermal-fluid flow analysis is performed using a finite volume-based indigenous code, solving the nonlinear c… Show more

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Cited by 38 publications
(9 citation statements)
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“…Using this code few numerical research works previously, have also been published in the open literature such as in refs. (Biswas et al, 2015;Yadav et al, 2022;Biswas et al, 2023). Again, this code is validated by the results of Ghasemi et al (2011), which are based on nanofluid and MHD effects.…”
Section: Validation Studymentioning
confidence: 87%
“…Using this code few numerical research works previously, have also been published in the open literature such as in refs. (Biswas et al, 2015;Yadav et al, 2022;Biswas et al, 2023). Again, this code is validated by the results of Ghasemi et al (2011), which are based on nanofluid and MHD effects.…”
Section: Validation Studymentioning
confidence: 87%
“…CuO nanoparticles are used to enhance the thermal performance of the carrier fluid, compensating for the dampening effect of the Lorentz force. It is noteworthy that the base fluid and the nanoparticle dispersion are modeled as a single-phase flow in this study (Biswas et al , 2023). In addition, the impact of Joule heating and the Hall effect is minor, with negligible influence from radiation and viscous dissipation effects (Dogonchi et al , 2021; Saha et al , 2022; Mandal et al , 2022a).…”
Section: Mathematical Modeling and Problem Representationmentioning
confidence: 99%
“…Natural convection, with its extensive practical applications, stands as a cornerstone in various engineering and scientific domains. The utilization of porous materials in this process, attributed to their distinctive features such as high surface area, permeability and fluid transport capabilities, further accentuates the significance of understanding heat transfer and fluid flow within porous media (Mebarek-Oudina et al, 2020;Biswas et al, 2023). This holds particular relevance in diverse fields such as geothermal processes, petroleum reservoirs, chemical catalytic reactors, nuclear waste repositories, heat exchangers and heat storage systems (Ingham and Pop, 2005;Saeid, 2005;Nield et al, 2006;Dharmaiah et al, 2023).…”
Section: Introductionmentioning
confidence: 99%
“…The utilization of porous materials in this process, attributed to their distinctive features such as high surface area, permeability and fluid transport capabilities, further accentuates the significance of understanding heat transfer and fluid flow within porous media (Mebarek-Oudina et al. , 2020; Biswas et al. , 2023).…”
Section: Introductionmentioning
confidence: 99%