Delta Perturbation Method for Couette-Poiseuille flows in Third grade   fluids

Memon, Kamran Nazir; Mushtaque, Ahsan; Shaikh, Fozia; Ghoto, AA; Siddiqui, A. M.

doi:10.21015/vtm.v10i2.1179

VFAST trans. math.

2022

DOI: 10.21015/vtm.v10i2.1179

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Delta Perturbation Method for Couette-Poiseuille flows in Third grade fluids

Kamran Nazir Memon,

Ahsan Mushtaque,

Fozia Shaikh

et al.

Abstract: This work uses the Delta Perturbation Method (DPM) to theoretically evaluate the steady plane Couette-Poiseuille flowbetween two parallel plates for third-grade fluid.That'sa kind of perturbation approach and was deliveredwith the aid of Bender and his colleagues in the 1980s. Utilizing DPM, analytical solutions have been found from the governing continuity and momentum equations subject to the necessary boundary conditions. In this proposed model, the Newtonian solution is obtained through the substitution. I… Show more

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Cited by 2 publications

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The effect of oscillating streams on heat transfer in viscous magnetohydrodynamic MHD fluid flow

Bhutto,

Ahmed,

Rajput

et al. 2023

VFAST trans. math.

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This study focuses on developing and proving exact solutions for equations of motion involving a fluid with finite conductivity, variable viscosities, and heat transfer in the presence of a transverse magnetic field. By utilizing a transformation variable, the governing equation is transformed into a assortment of simple ordinary differential equations, enabling accurate solutions to be achieved for the problem. The solutions demonstrate that the distribution of vorticity is proportional to the stream function, which is disturbed by oscillating (sine or cosine) or even and exponential streams. This study compares the profiles of steady fluid flow with changing viscosity and heat transfer travelling on a plane. The comparison is used to identify differences in the profiles of providing insight into the changes that occur in interesting factors. These findings have significant implications for understanding fluid dynamics in complex systems and may have important applications in fields such as engineering and physics.

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The effect of oscillating streams on heat transfer in viscous magnetohydrodynamic MHD fluid flow

Bhutto,

Ahmed,

Rajput

et al. 2023

VFAST trans. math.

View full text Add to dashboard Cite

show abstract

Numerical Analysis of Inertia Effects on Pressure and Flow Patterns in Unidirectional and Reversed Newtonian Fluid Flows within a Channel

Rahim Bux Khokhar,

Bhutto,

Bhutto

et al. 2023

VFAST trans. math.

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Fluid flows in channel systems are prevalent in many industrial and engineering applications. Flow rates, Reynolds numbers, and inertia significantly impact the dynamics of fluid flows in channel systems. However, analyzing these factors' effects on fluid flows is challenging. This study investigates the impact of flow rates, Reynolds numbers, and inertia on fluid flows within a channel system filled with non-porous media using Taylor-Galerkin/Pressure-Correction Scheme. Various flow conditions, including equal and unequal flow rates, reversed flow, and unidirectional flow, are analyzed to determine the effects on pressure differences and streamline patterns by numerical simulation. The results demonstrate the crucial role of inertia on vortex development, pressure differences, and the formation of eddies in different regions of the channel. The study reveals that pressure differences increase linearly with increasing Reynolds number in unidirectional flow scenarios and that unequal flow rates can significantly alter flow behavior. The study's findings provide insight into the complex interplay between flow rates, inertia, and pressure variations in fluid flows within a channel system.

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Delta Perturbation Method for Couette-Poiseuille flows in Third grade fluids

Cited by 2 publications

References 20 publications

The effect of oscillating streams on heat transfer in viscous magnetohydrodynamic MHD fluid flow

The effect of oscillating streams on heat transfer in viscous magnetohydrodynamic MHD fluid flow

Numerical Analysis of Inertia Effects on Pressure and Flow Patterns in Unidirectional and Reversed Newtonian Fluid Flows within a Channel

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