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• W4387400408 abstract "AbstractThis research aims to enhance convective thermal transport in an inverted T-shaped porous enclosure filled with a water-based hybrid nanofluid, incorporating a circular cylinder at different vertical locations (Case C1-no cylinder, Case C1-cylinder at (0.5, 0.25), Case C2-cylinder at (0.5, 0.5), Case C3-cylinder at (0.5, 0.75)). The numerical investigation employs the penalty finite element technique to simulate the Darcy–Brinkmann–Forchheimer-based mathematical model. Moreover, the complete results of streamlines, isotherms, mean Nusselt number (Num), and thermal enhancement percentage (En%) are analyzed at the broad range of flow parameters, including Rayleigh number (Ra=(103−106)), Darcy number (Da=(10−5−10−2)), and porosity value (ϵ=(0.1−0.9)). Initial comparative investigations of different configurations (C0–C3) at selected Ra values reveal that case C1 exhibits significant potential for enhancing convective heat transport phenomena. Consequently, only case C1 physical domain has been explicitly analyzed for convective heat and fluid flow characteristics at the selected range of flow parameters. Further, it is analyzed that the increasing range of Ra, Da, and ϵ enhances the convective heat and fluid flow phenomena. Furthermore, the comparative study of Num and En% for case C1 against the simple case C0 reveals substantial improvements as Ra, Da, and ϵ increase. The En% for Da and Ra reaches up to 97%, while a maximum of 25% improvement is observed with varying values of ϵ. These findings highlight the promising opportunities to optimize convective thermal transport in the investigated system, mainly through adopting case C1.Keywords: Circular cylinderheat transfer enhancementhybrid-nanofluidinverted T-shapednatural convectionporous media AcknowledgmentsThe author wishes to express sincere gratitude to D.I.A.T., Pune, for their financial support and academic guidance throughout his Ph.D. program. Also, he extends his sincere gratitude to the anonymous reviewers whose thoughtful feedback and constructive input have significantly enhanced the quality and depth of this research article.Authors’ contributionsSumant Kumar: Conceptualization; formal analysis; investigation; methodology, software; validation; visualization; writing – original draft; writing – review & editing. S. V. S. S. N. V. G. Krishna Murthy: Conceptualization; Formal analysis; Methodology; Supervision; Writing – review & editing. B. V. Rathish Kumar: Conceptualization; formal analysis; supervision; writing – review & editing. Deepika Parmar: Formal analysis; investigation; validation; visualization; writing – review & editing.Disclosure statementThe authors declare that they have no competing interests.This research is an integral component of meeting the Ph.D. degree requisites at the institution, and no external funds or financial backing were obtained for any aspect of this investigation.Data availability and materialsAny relevant data may be available by the corresponding author on a reasonable request." @default.
• W4387400408 created "2023-10-07" @default.
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• W4387400408 date "2023-10-06" @default.
• W4387400408 modified "2023-10-07" @default.
• W4387400408 title "Convective heat transfer enhancement in an inverted T-shaped porous enclosure through vertical varying circular cylinder" @default.
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• W4387400408 doi "https://doi.org/10.1080/10407790.2023.2262747" @default.
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