Similarity solution for induced magnetic field boundary layer flow of metallic nanofluids via convectively inclined stationary/moving flat plate: Spectral relaxation computation

The present article describes a mathematical model for incompressible free convection flow with convective heat transport from an inclined stationary/moving flat plate under impact of induced magnetic field (IMF). The current flow model is formulated to consider different water‐based nanofluids with...

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Bibliographic Details
Published in:Zeitschrift für angewandte Mathematik und Mechanik 2022-04, Vol.102 (4), p.n/a
Main Authors: Akter, Shahina, Ferdows, Mohammad, MD, Shamshuddin, Siri, Zailan
Format: Article
Language:English
Subjects:
Boundary layer flow
Copper
Flat plates
Flow equations
Fluid flow
Free convection
Incompressible flow
Interplanetary magnetic field
Iterative methods
Magnetic fields
Material properties
Mathematical models
Nanofluids
Nanoparticles
Nusselt number
Perturbation
Relaxation method (mathematics)
Silver
Similarity solutions
Skin friction
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Summary:The present article describes a mathematical model for incompressible free convection flow with convective heat transport from an inclined stationary/moving flat plate under impact of induced magnetic field (IMF). The current flow model is formulated to consider different water‐based nanofluids with metallic nanoparticles (Copper and Silver). Effectively a nanoscale formulation with the Tiwari‐Das model deployed to study material properties for specific nanoparticles and base fluid. A similarity solution is obtained for non‐dimensional form via similarity transformation rendered from basic flow equations for which numerical simulations utilizing the Spectral Relaxation Method (SRM). SRM is a simple iteration scheme that does not require any evaluation of derivatives, perturbation and linearization for solving non‐linear system of equations. Graphical results for linear velocity, IMF, temperature, skin friction and Nusselt number distributions are presented for the different metallic‐aqueous nanofluid cases as well as stationary/moving flat plate. The results are verified for limiting cases by comparing with various investigators for the case of stationary as well as moving flat plate and found to be in excellent agreement. Furthermore, computed numerical results for skin friction and Nusselt number for different emerging parameters in case Cu and Ag nanofluids for moving plate which are tabulated and discussed in detail. The present article describes a mathematical model for incompressible free convection flow with convective heat transport from an inclined stationary/moving flat plate under impact of induced magnetic field (IMF). The current flow model is formulated to consider different water‐based nanofluids with metallic nanoparticles (Copper and Silver). Effectively a nanoscale formulation with the Tiwari‐Das model deployed to study material properties for specific nanoparticles and base fluid.…
ISSN:0044-2267
1521-4001
DOI:10.1002/zamm.202100179