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Multi-segmental heating of facing vertical walls in porous systems filled with hybrid nanofluid in a constant-strength magnetic environment

Sobhan Pandit (Department of Mechanical Engineering, MS Govt. Polytechnic, Paschim Medinipur, India)
Milan K. Mondal (Department of Mechanical Engineering, MS Govt. Polytechnic, Paschim Medinipur, India)
Dipankar Sanyal (Department of Mechanical Engineering, Jadavpur University, Kolkata, India)
Nirmal K. Manna (Department of Mechanical Engineering, Jadavpur University, Kolkata, India)
Nirmalendu Biswas (Department of Power Engineering, Jadavpur University, Kolkata, India, and)
Dipak Kumar Mandal (Department of Mechanical Engineering, College of Engineering and Management, Kolaghat, India)

International Journal of Numerical Methods for Heat & Fluid Flow

ISSN: 0961-5539

Article publication date: 19 January 2024

Issue publication date: 29 March 2024

61

Abstract

Purpose

This study aims to undertake a comprehensive examination of heat transfer by convection in porous systems with top and bottom walls insulated and differently heated vertical walls under a magnetic field. For a specific nanofluid, the study aims to bring out the effects of different segmental heating arrangements.

Design/methodology/approach

An existing in-house code based on the finite volume method has provided the numerical solution of the coupled nondimensional transport equations. Following a validation study, different explorations include the variations of Darcy–Rayleigh number (Ram = 10–104), Darcy number (Da = 10–5–10–1) segmented arrangements of heaters of identical total length, porosity index (ε = 0.1–1) and aspect ratio of the cavity (AR = 0.25–2) under Hartmann number (Ha = 10–70) and volume fraction of φ = 0.1% for the nanoparticles. In the analysis, there are major roles of the streamlines, isotherms and heatlines on the vertical mid-plane of the cavity and the profiles of the flow velocity and temperature on the central line of the section.

Findings

The finding of a monotonic rise in the heat transfer rate with an increase in Ram from 10 to 104 has prompted a further comparison of the rate at Ram equal to 104 with the total length of the heaters kept constant in all the cases. With respect to uniform heating of one entire wall, the study reveals a significant advantage of 246% rate enhancement from two equal heater segments placed centrally on opposite walls. This rate has emerged higher by 82% and 249%, respectively, with both the segments placed at the top and one at the bottom and one at the top. An increase in the number of centrally arranged heaters on each wall from one to five has yielded 286% rate enhancement. Changes in the ratio of the cavity height-to-length from 1.0 to 0.2 and 2 cause the rate to decrease by 50% and increase by 21%, respectively.

Research limitations/implications

Further research with additional parameters, geometries and configurations will consolidate the understanding. Experimental validation can complement the numerical simulations presented in this study.

Originality/value

This research contributes to the field by integrating segmented heating, magnetic fields and hybrid nanofluid in a porous flow domain, addressing existing research gaps. The findings provide valuable insights for enhancing thermal performance, and controlling heat transfer locally, and have implications for medical treatments, thermal management systems and related fields. The research opens up new possibilities for precise thermal management and offers directions for future investigations.

Keywords

Acknowledgements

Funding: There is no financial support for this work.

Compliance with ethical standards.

Conflict of interest: The authors declare that they have no conflict of interest.

Since submission of this article, the following author has updated their affiliation: Dipak Kumar Mandal is at the Department of Mechanical Engineering, Government Engineering College, Samastipur, India.

Citation

Pandit, S., Mondal, M.K., Sanyal, D., Manna, N.K., Biswas, N. and Mandal, D.K. (2024), "Multi-segmental heating of facing vertical walls in porous systems filled with hybrid nanofluid in a constant-strength magnetic environment", International Journal of Numerical Methods for Heat & Fluid Flow, Vol. 34 No. 4, pp. 1658-1698. https://doi.org/10.1108/HFF-08-2023-0460

Publisher

:

Emerald Publishing Limited

Copyright © 2024, Emerald Publishing Limited

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