Analysis of Entropy Generation Due to Natural Convection in Tilted Square Cavities

In this article, the numerical investigation of entropy generation due to heat transfer irreversibility and fluid friction irreversibility during natural convection within tilted square cavity with hot wall AB, cold side walls (DA and BC), and top insulated wall (CD) has been performed. The numerica...

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Bibliographic Details
Published in:Industrial & engineering chemistry research 2012-10, Vol.51 (40), p.13300-13318
Main Authors: Singh, Abhishek Kumar, Roy, S, Basak, Tanmay
Format: Article
Language:English
Subjects:
Applied sciences
Chemical engineering
Convection
Entropy
Exact sciences and technology
Fluid friction
Heat transfer
Holes
Optimization
Rayleigh number
Walls
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Summary:In this article, the numerical investigation of entropy generation due to heat transfer irreversibility and fluid friction irreversibility during natural convection within tilted square cavity with hot wall AB, cold side walls (DA and BC), and top insulated wall (CD) has been performed. The numerical simulation has been carried out for various fluids of industrial importance (Pr = 0.015, 0.7, and 1000), Rayleigh numbers (103 ≤ Ra ≤ 105), and different inclination angles (φ = 15°, 45°, and 75°). The results are presented in terms of isotherms (θ), streamlines (ψ), entropy generation maps due to heat transfer (S θ), and fluid friction (S ψ). The total entropy generation (S total), average Bejan number (Be av), and average heat transfer rate ( N u ̅ AB) are plotted for Rayleigh number 103 ≤ Ra ≤ 105. The maximum values of S θ occur near the corner regions of wall AB due to a junction of hot and cold walls. On the other hand, maximum values of S ψ are found near the walls of the cavity due to friction between the circulation cells and walls of the cavity. It is found that minimum entropy generation occurs for φ ≥ 45° at convection dominant mode (Ra = 105) for lower Pr (Pr = 0.015 and 0.7). The inclined cavity with φ = 45° may be an alternative optimal inclination angle in optimal thermal processing of high Pr (Pr = 1000).
ISSN:0888-5885
1520-5045
DOI:10.1021/ie3013665