Micropolar fluid flow and heat transfer about a spinning cone with Hall current and Ohmic heating

Dinarvand, Saeed; Saber, M.A.; Abulhasansari, Milad

doi:10.1177/0954406213512628

Proceedings of the Institution of Mechanical Engineers, Part C:

2013

DOI: 10.1177/0954406213512628

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Micropolar fluid flow and heat transfer about a spinning cone with Hall current and Ohmic heating

Saeed Dinarvand

M.A. Saber

Milad Abulhasansari

Abstract: In this paper, the laminar boundary layer flow of an electrically conducting micropolar fluid about a spinning cone with Hall current, Ohmic heating, and power-law variation in surface temperature is studied analytically. The governing equations are transformed into a dimensionless system of four nonlinear coupled partial differential equations. These equations have been solved analytically subject to the relevant boundary conditions by employing homotopy analysis method. The convergence of the obtained series… Show more

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Cited by 3 publications

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“…Due to several practical implications, many researchers have taken an interest in analyzing the impact of micropolar fluid on boundary-layer problems with different flow geometries. Furthermore, Singh et al 6 have worked on the permeable wedge, Dinarvand et al 8 have investigated over a spinning cone, Das 9 have explored slip impacts on magnetohydrodynamic (MHD) combined convection on a shrinking vertical sheet. Also, Gorla and Nakamura have worked on a rotating cone, 10 Mahdy has worked on a permeable cone, 11 and Rashad et al 12 have worked on a moving vertical surface.…”

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Insight into the dynamics of micropolar fluid about a vertical cone when nonlinear thermal radiation is significant: The case of triple mixed convection

Patil

Shankar

2022

Heat Trans

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This novel research investigates the nonlinear triple diffusive combined convective micropolar liquid flow past a vertical cone in the presence of nonlinear thermal radiation, cross-diffusion, and a convective boundary condition. We aim to analyze this present problem using nonsimilar transformations. This report presents the significance of nonlinear mixed convection, energy flux due to the concentration gradient, and mass flux due to the temperature gradient and nonlinear thermal radiation in the dynamics of the fluid subject with micropolar fluid is presented. The differential equations defining the boundary-layer parameters are then transformed into dimensionless view, taking into account the nonsimilar transformation. Furthermore, the method of quasilinearization and implicit finite difference approximation is used to work out the nondimensional governing equations for the solution. The velocity pattern diminishes, while dimensionless temperature and concentration distributions enhance with growing values of microrotation parameter. Furthermore, species concentrations of the fluid increase with increasing Soret effect values, while opposite results appear for mass transfer rates. Also, drag coefficient

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confidence: 99%

Insight into the dynamics of micropolar fluid about a vertical cone when nonlinear thermal radiation is significant: The case of triple mixed convection

Patil

Shankar

2022

Heat Trans

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FreeFEM++ based heat transfer analysis of an electrically induced magnetic flow within the framework of micropolar continuum

Khan

Hameed

2023

Numerical Heat Transfer, Part A: Applications

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Numerical analysis of free convection from a spinning cone with variable wall temperature and pressure work effect using MD-BSQLM

et al. 2021

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The problem of the numerical analysis of natural convection from a spinning cone with variable wall temperature, viscous dissipation and pressure work effect is studied. The numerical method used is based on the spectral analysis. The method used to solve the system of partial differential equations is the multi-domain bivariate spectral quasi-linearization method (MD-BSQLM). The numerical method is compared with other methods in the literature, and the results show that the MD-BSQLM is robust and accurate. The method is also stable for large parameters. The numerical errors do not deteriorate with increasing iterations for different values of all parameters. The numerical error size is of the order of 1 0 − 10 1{0}^{-10} . With the increase in the suction parameter ξ \xi , fluid velocity, spin velocity and temperature profiles decrease.

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Micropolar fluid flow and heat transfer about a spinning cone with Hall current and Ohmic heating

Cited by 3 publications

References 42 publications

Insight into the dynamics of micropolar fluid about a vertical cone when nonlinear thermal radiation is significant: The case of triple mixed convection

Insight into the dynamics of micropolar fluid about a vertical cone when nonlinear thermal radiation is significant: The case of triple mixed convection

FreeFEM++ based heat transfer analysis of an electrically induced magnetic flow within the framework of micropolar continuum

Numerical analysis of free convection from a spinning cone with variable wall temperature and pressure work effect using MD-BSQLM

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