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Engineering: Open Access(EOA)

ISSN: 2993-8643 | DOI: 10.33140/EOA

Impact Factor: 0.487

IEEE COINS 2023 Contest for In Sensor Machine Learning Computing

Abstract

Andrey Korobitsyn, Danil Zherebtsov, Danilo Pau, Marco Bianco, Dmitriy Proshin

The purpose of the investigation is to analyze the effect of fin length and position in terms of rotational angle on heat transmission and entropy generation. Different parameters such as Prandtl numbers, Hartmann numbers, Rayleigh numbers, and particle volume fractions are used to analyze nanofluid laminar flow behavior and temperature distribution. The fin has a significant impact on both the isotherm and the streamlines. Findings revealed that increasing the rotational angle of a spinning heat exchanger might result in more consistent temperature distribution along isotherms; larger fins, on the other hand, frequently provide greater heat dissipation due to increased surface area. Furthermore, when Rayleigh numbers increase, so does the temperature distribution between the fins and the surrounding fluid. The presence of a magnetic field affects fluid dynamics and contributes to the generation of entropy. Higher Prandtl numbers can result in the enhancement heat transfer phenomena and the generation of entropy.

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