4.6 Article

Effect of Straight, Inclined and Curved Fins on Natural Convection and Entropy Generation of a Nanofluid in a Square Cavity Influenced by a Magnetic Field

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PROCESSES
卷 9, 期 8, 页码 -

出版社

MDPI
DOI: 10.3390/pr9081339

关键词

natural convection; straight fin; inclined fin; curved fin; magnetic field

资金

  1. Taif University Researchers Supporting Project, Taif University, Taif, Saudi Arabia [TURSP-2020/121]

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This paper simulated the free convective heat transfer of nanofluids in a square cavity using numerical methods. The effects of different fin configurations, cavity angles, and magnetic field conditions on heat transfer performance and entropy generation were analyzed. The results showed that tilting or warping the fins improved heat transfer rates, and increasing the Hartmann number reduced both Nusselt number and entropy generation.
In this paper, the free convective heat transfer of nanofluids in a square cavity is simulated using a numerical method. The angle of the cavity could be changed in the horizontal axis from 0 to 90 degrees. The cavity is exposed under a constant magnetic field. Two opposite walls of the cavity are cold and warm, and the rest of the walls are insulated. On the hot wall, there are two fins with the same wall temperature. The equations were discretized by the finite volume method (FVM) and then solved using the SIMPLE algorithm. Three different fin configurations (straight, inclined and curved) were studied in terms of heat transfer rate and generation of entropy. According to the simulation results, the heat transfer rate was improved by tilting the fins toward the top or bottom of the cavity. At Ra = 10(5) and Ha = 20, the maximum heat transfer rate was achieved at a cavity inclination of 90 degrees and 45 degrees, respectively, for straight and curved fins. In the horizontal cavity, heat transfer rate could be improved up to 6.4% by tilting the fins and up to 4.9% by warping them. Increasing the Hartmann number from 0 to 40 reduced the Nusselt number and entropy generation by 37.9% and 33.8%, respectively.

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