Conjugate Radiation and Convection Heat Transfer Analysis in Solar Cooker Cavity Using a Computational Approach

Sarangi, Abhisek; Sarangi, Ashish; Sahoo, Sudhansu S.; Mallik, Ramesh Kumar; Awad, Mohamed M.

doi:10.3390/en16093868

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2024

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Cited by 3 publications

References 36 publications

(42 reference statements)

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Experimentation, Taguchi and machine learning-based optimisation of parameters concerning heat losses from the trapezoidal box-type solar cooker

Panigrahi,

Nayak,

Bhatra

et al. 2024

Energy Sources, Part A: Recovery, Utilization, and Environmenta

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Experimentation, Taguchi and machine learning-based optimisation of parameters concerning heat losses from the trapezoidal box-type solar cooker

Panigrahi,

Nayak,

Bhatra

et al. 2024

Energy Sources, Part A: Recovery, Utilization, and Environmenta

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Convective Heat Transfer In An Open Trapezoidal Cavity Below A Horizontal Channel Inscribed By Porous Media

Mallikarjuna

2024

Proceeding of Proceedings of the 27th National and 5th International ISHMT-ASTFE Heat and Mass Transfer Conference December 14-

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Natural Convection Fluid Flow and Heat Transfer in a Valley-Shaped Cavity

Bhowmick,

Roy,

et al. 2024

Computation

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The phenomenon of natural convection is the subject of significant research interest due to its widespread occurrence in both natural and industrial contexts. This study focuses on investigating natural convection phenomena within triangular enclosures, specifically emphasizing a valley-shaped configuration. Our research comprehensively analyses unsteady, non-dimensional time-varying convection resulting from natural fluid flow within a valley-shaped cavity, where the inclined walls serve as hot surfaces and the top wall functions as a cold surface. We explore unsteady natural convection flows in this cavity, utilizing air as the operating fluid, considering a range of Rayleigh numbers from Ra = 100 to 108. Additionally, various non-dimensional times τ, spanning from 0 to 5000, are examined, with a fixed Prandtl number (Pr = 0.71) and aspect ratio (A = 0.5). Employing a two-dimensional framework for numerical analysis, our study focuses on identifying unstable flow mechanisms characterized by different non-dimensional times, including symmetric, asymmetric, and unsteady flow patterns. The numerical results reveal that natural convection flows remain steady in the symmetric state for Rayleigh values ranging from 100 to 7 × 103. Asymmetric flow occurs when the Ra surpasses 7 × 103. Under the asymmetric condition, flow arrives in an unsteady stage before stabilizing at the fully formed stage for 7 × 103 < Ra < 107. This study demonstrates that periodic unsteady flows shift into chaotic situations during the transitional stage before transferring to periodic behavior in the developed stage, but the chaotic flow remains predominant in the unsteady regime with larger Rayleigh numbers. Furthermore, we present an analysis of heat transfer within the cavity, discussing and quantifying its dependence on the Rayleigh number.

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Conjugate Radiation and Convection Heat Transfer Analysis in Solar Cooker Cavity Using a Computational Approach

Cited by 3 publications

References 36 publications

Experimentation, Taguchi and machine learning-based optimisation of parameters concerning heat losses from the trapezoidal box-type solar cooker

Experimentation, Taguchi and machine learning-based optimisation of parameters concerning heat losses from the trapezoidal box-type solar cooker

Convective Heat Transfer In An Open Trapezoidal Cavity Below A Horizontal Channel Inscribed By Porous Media

Natural Convection Fluid Flow and Heat Transfer in a Valley-Shaped Cavity

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