Three Dimensional MHD Viscous Flow Under the Influence of Thermal Radiation and Viscous Dissipation

Akbar, Syed Ali; Sohail, Muhammad

doi:10.54938/ijemdm.2022.01.3.122

Cited by 21 publications

(10 citation statements)

References 30 publications

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“…A comprehensive study found that the most prevalent methods for enhanced heat transmission in nanofluids include Brownian motion-induced convection and consecutive transmission via propagating nanoparticle pathways. Numerous scholars [12][13][14][15][16][17] have examined Brownian motion and thermophoresis consequences in great depth. With heat augmentation as their ultimate aim, their research examined a wide variety of technical setups.…”

Section: Introductionmentioning

confidence: 99%

Numerical Analysis of the Magnetic Dipole Effect on a Radiative Ferromagnetic Liquid Flowing over a Porous Stretched Sheet

Dharmaiah,

Mebarek-Oudina,

Balamurugan

et al. 2024

FDMP

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The effects of a magnetic dipole on a nonlinear thermally radiative ferromagnetic liquid flowing over a stretched surface in the presence of Brownian motion and thermophoresis are investigated. By means of a similarity transformation, ordinary differential equations are derived and solved afterwards using a numerical (the BVP4C) method. The impact of various parameters, namely the velocity, temperature, concentration, is presented graphically. It is shown that the nanoparticles properties, in conjunction with the magnetic dipole effect, can increase the thermal conductivity of the engineered nanofluid and, consequently, the heat transfer. Comparison with earlier studies indicates high accuracy and effectiveness of the numerical approach. An increase in the Brownian motion parameter and thermophoresis parameter enhances the concentration and the related boundary layer. The skin-friction rises when the viscosity parameter is increased. A larger value of the ferromagnetic parameter results in a higher skin-friction and, vice versa, in a smaller Nusselt number.

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Section: Introductionmentioning

confidence: 99%

Numerical Analysis of the Magnetic Dipole Effect on a Radiative Ferromagnetic Liquid Flowing over a Porous Stretched Sheet

Dharmaiah,

Mebarek-Oudina,

Balamurugan

et al. 2024

FDMP

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“…Alaidrous [12] explored the complexities of three‐dimensional electromagnetic radiative non‐Newtonian nanofluid flow within porous materials, considering Joule heating and higher‐order reactions. Akbar and Sohail [13] investigated three‐dimensional magnetohydrodynamic (MHD) viscous flow influenced by thermal radiation and viscous dissipation. Their research delves into the effects of magnetic fields and thermal processes on fluid dynamics, relevant to applications in energy and engineering.…”

Section: Introductionmentioning

confidence: 99%

Numerical simulations of entropy generation and Arrhenius activation energy on peristaltic transport of Prandtl‐Eyring fluid in a curved conduit

Zahir,

Muhammad,

Ali

et al. 2024

Z Angew Math Mech

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The study aims to explore the combined impact of activation energy and entropy generation on Prandtl‐Eyring fluid flow within a curved channel, considering Hall and ion slip effects, alongside the influence of nonlinear thermal radiation on heat transfer. This research is pivotal as it delves into the multifaceted relationship among these factors, offering important implications spanning various fields, from engineering to physics. Notably, the findings highlight that heightened nonlinear thermal radiation does not solely elevate entropy generation but also amplifies the Bejan number, signifying a substantial effect on fluid flow dynamics. Furthermore, the investigation reveals an intriguing correlation: lower concentrations paired with higher Arrhenius activation energy values correspond to heightened chemical reaction rates, presenting valuable insights applicable to reaction engineering and material sciences. Additionally, exploring the impact of activation energy and entropy generation within this fluid model presents a unique approach to understanding complex fluid dynamics and heat transfer phenomena, offering insights crucial for various engineering applications, particularly in fluid dynamics, thermal sciences, and materials engineering.

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“…Lately, analyzing strong magnetic field with low density is very important, which is distinguished as the Hall current. It has a wide rangr of applications in engineering areas like power generators and warming elements 21 , 22 . As well, Joule heating is generated while electricity force transmits to temperature via resistance 23 – 25 .…”

Section: Introductionmentioning

confidence: 99%

Peristaltic transfer of nanofluid with motile gyrotactic microorganisms with nonlinear thermic radiation

Mostapha

Eldabe

2023

Sci Rep

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In situated theoretical article, a study of peristaltic transition of Jeffery nanofluid comprising motile gyrotactic microorganisms is exposed. The movement floods due to anisotropically stenosed endoscope influenced by Hall current, Joule heating during Darcy-Forchheimer feature. Influences of nonlinear thermic radiation, chemical interactions as well as Soret and Dufour scheme are exhibited. To ameliorate the competence of this article, activation energy has been appended to concentration of nano-particles due to the amended Arrhenius scheme and Buongiorno type. The slip stipulation is deemed relative to the speed scheme. Meanwhile, convective stipulation is reckoned for temperature. The proposition of protracted wavelength besides subdued Reynolds numeral is regulated to transit the manner of partial differential formulations that judges the fluid movement to ordinary one. Homotopy perturbation manner is tackled to manage the traditional solutions of generated neutralizations. Influences of assorted factors of the issue are debated and schematically showed with a class of charts. The situated study grants a medication for the malign cells and clogged arteries of the heart by manner of penetrating a slender tube (catheter). Also, this study may represent the depiction of the gastric juice movement in small intestine when an endoscope is permeating across it.

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Three Dimensional MHD Viscous Flow Under the Influence of Thermal Radiation and Viscous Dissipation

Cited by 21 publications

References 30 publications

Numerical Analysis of the Magnetic Dipole Effect on a Radiative Ferromagnetic Liquid Flowing over a Porous Stretched Sheet

Numerical Analysis of the Magnetic Dipole Effect on a Radiative Ferromagnetic Liquid Flowing over a Porous Stretched Sheet

Numerical simulations of entropy generation and Arrhenius activation energy on peristaltic transport of Prandtl‐Eyring fluid in a curved conduit

Peristaltic transfer of nanofluid with motile gyrotactic microorganisms with nonlinear thermic radiation

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