Statistical analysis for heat transfer optimization of magnetohydrodynamics trihybrid nanofluid over a convectively heated Riga surface
Maher Jebali, Sohail Rehman, Mohamed Bouzidi, Muhammad Eisa, Samia NASR, Bilal Himmat

TL;DR
This paper studies how tri-hybrid nanofluids improve heat transfer over a Riga surface using statistical and numerical methods.
Contribution
A novel statistical approach using RSM is applied to optimize heat and mass transfer in tri-hybrid nanofluids over a Riga surface.
Findings
Skin friction increases with nanoparticle concentration in narrow boundary layers.
Velocity of tri-HNF increases with Hartman number and electrode-magnet distance.
Activation energy enhances mass transfer but is reduced by higher nanoparticle concentration.
Abstract
The Riga plate is arrangement of electrodes and permanent magnets allows for efficient regulation of fluid flow. The Riga surface leverages Lorentz forces to control boundary layers (BL) and improve cooling purposes for effective electromagnetic flow control in nuclear and aeronautical engineering systems. Furthermore, by utilizing synergistic interactions of different nanoparticles, heat transfer rat can be optimized in industrial setup. The primary focus of this work is to investigate the unsteady BL flow of water-based tri-hybrid nanolfuid (tri-HNF) flow over a Riga plate senor under the influence of activation energy, cross-diffusion, and convective heating. Three different nanoparticles \documentclass[12pt]{minimal} \usepackage{amsmath} \usepackage{wasysym} \usepackage{amsfonts} \usepackage{amssymb} \usepackage{amsbsy} \usepackage{mathrsfs}…
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Taxonomy
TopicsNanofluid Flow and Heat Transfer · Heat Transfer and Optimization · Fluid Dynamics and Vibration Analysis
