An optimization method based on the Legendre wavelets for 3D rotating, squeezing and stretching magnetohydrodymanic flow in a channel with porous wall

An optimization method based on the Legendre wavelets for 3D rotating, squeezing and stretching magnetohydrodymanic flow in a channel with porous wall

In this paper, the 3D flow in a rotating channel with the lower permeable stretching wall is investigated. The unsteady squeezing flow in the presence of transverse magnetic flux is mathematically modeled by utilizing Navier-Stokes equations. A new optimal wavelet method based on coupling the Legend...

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Bibliographic Details
Published in:Engineering with computers Vol. 38; no. Suppl 3; pp. 2583 - 2592
Main Authors: Heydari, M. H., Bavi, O.
Format: Journal Article
Language:English
Published: London Springer London 01-08-2022
Springer Nature B.V
Subjects:
Boundary conditions
CAE) and Design
Calculus of Variations and Optimal Control; Optimization
Classical Mechanics
Compressing
Computer Science
Computer-Aided Engineering (CAD
Control
Convergence
Engineering
Fluids
Magnetic fields
Magnetic flux
Math. Applications in Chemistry
Mathematical and Computational Engineering
Navier-Stokes equations
Nonlinear differential equations
Oil recovery
Optimization
Original Article
Parameters
Porous walls
Rotation
Stretching
Systems Theory
Three dimensional flow
Velocity
Wavelet analysis
Legendre wavelets
Optimal wavelet method
Three-dimensional squeezing flow
78M22
74S25
Rotating channel
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Summary:In this paper, the 3D flow in a rotating channel with the lower permeable stretching wall is investigated. The unsteady squeezing flow in the presence of transverse magnetic flux is mathematically modeled by utilizing Navier-Stokes equations. A new optimal wavelet method based on coupling the Legendre wavelets and the hat functions with some auxiliary convergence-control parameters is proposed to solve the obtained fourth-order system of nonlinear differential equations. In the proposed method, the residual function and its error of norm two are employed for converting the main problem into an optimization one to optimally choose the auxiliary convergence-control parameters. The main idea behind this approach is to reduce solving such problems to those of solving optimization ones which greatly simplifies the problem and also leads to obtaining a good approximate solution for the problem under consideration.
ISSN:0177-0667
1435-5663
DOI:10.1007/s00366-021-01421-8