Heat and mass transfer investigation of a chemically reactive Burgers nanofluid with an induced magnetic field over an exponentially stretching surface

Khan, Maleq; Nadeem, Sohail; Zidan, Ahmed M.

doi:10.1177/09544089211034941

Cited by 20 publications

(5 citation statements)

References 39 publications

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“…Arshad et al 47 examined magneto-hydrodynamic flow with chemical effect above the exponential stretching surface. Khan et al 48 studied heat and mass transmission in Burger's nanofluid with magnetization and chemical reaction over an exponential stretchable surface. Numerous researchers have explored stretching surfaces for heat transfer and analysis of fluid flow 49 – 53 .…”

Section: Introductionmentioning

confidence: 99%

Effect of inclined magnetic field on radiative heat and mass transfer in chemically reactive hybrid nanofluid flow due to dual stretching

Arshad

Alharbi

Hassan

et al. 2023

Sci Rep

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This research analyzes the three-dimensional magneto hydrodynamic nanofluid flow through chemical reaction and thermal radiation above the dual stretching surface in the presence of an inclined magnetic field. Different rotational nanofluid and hybrid nanofluids with constant angular velocity $${\upomega }^{*}$$ ω ∗ for this comparative study are considered. The constitutive relations are used to gain the equations of motion, energy, and concentration. This flow governing extremely non-linear equations cannot be handled by an analytical solution. So, these equations are transformed into ordinary differential equalities by using the similarity transformation and then handled in MATLAB by applying the boundary values problem practice. The outcomes for the considered problem are accessed through tables and graphs for different parameters. A maximum heat transfer amount is observed in the absence of thermal radiation and when the inclined magnetic field and axis of rotation are parallel.

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Section: Introductionmentioning

confidence: 99%

Effect of inclined magnetic field on radiative heat and mass transfer in chemically reactive hybrid nanofluid flow due to dual stretching

Arshad

Alharbi

Hassan

et al. 2023

Sci Rep

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“…Hanaya et al 36 argued the influence of the hybrid nanomaterial flow of micropolar liquid at a curved sheet in the presence of induced magnetohydrodynamics. Khan et al 37 debated the influence of induced magneto-hydrodynamic flow chemically reactive nanomaterial liquid at a nonlinear stretchable sheet. Nawaz et al 38 emphasized the effects of MHD with electrical casson nanomaterial fluid flow.…”

Section: Introductionmentioning

confidence: 99%

Thermodynamic flow of radiative induced magneto modified Maxwell Sutterby fluid model at stretching sheet/cylinder

Abbas,

Shatanawi,

Hasan

et al. 2023

Sci Rep

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A steady flow of Maxwell Sutterby fluid is considered over a stretchable cylinder. The magnetic Reynolds number is considered very high and induced magnetic and electric fields are applied on the fluid flow. Joule heating and radiation impacts are studied under the temperature-dependent properties of the liquid. Having the above assumptions, the mathematical model has been evolving via differential equations. The differential equations are renovated in the dimensionless form of ordinary differential equations using the appropriate transformations. The numerical results have been developed employing numerical techniques on the ordinary differential equations. The impact of involving physical factors on velocity, induced magneto hydrodynamic, and temperature function is debated in graphical and tabular form. The velocity profile is boosted by thicker momentum boundary layers, which are caused by higher values of the magnetic field factor. So, the fluid flow becomes higher velocity due to enlarging values of the magnetic field factor. Heat transfer factor and friction at surface factor boosted up for increment of $${\gamma }_{0}$$ γ 0 (Magnetic field factor). The $${\gamma }_{0}$$ γ 0 (Magnetic field factor) is larger which better-quality of heat transfer at surface and also offered the results of friction factor boosting up in both cases of stretching sheet/cylinder. The $${\lambda }_{0}$$ λ 0 (Magnetic Prandtl number) increased which provided better-quality of heat transfer at surface.

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“…Several models have been proposed to explain the non-Newtonian behavior of fluids. Sisko fluid, 45 micropolar fluid, 46 Maxwell fluid, 47 Burgers fluid, 48 Casson fluid, 49,50 and many others are the examples of non-Newtonian model. Though different models are proposed to explain the behavior of non-Newtonian fluids, the most important non-Newtonian fluid possessing a yield value is the Casson fluid or viscoplastic material.…”

Section: Introductionmentioning

confidence: 99%

The analogy of nanoparticle shapes on the theory of convective heat transfer of Au–Fe₃O₄ Casson hybrid nanofluid

2021

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In recent times, Au nanoparticles have been commonly used for delivering the drug especially in the case of hypothermia of tumors, but low absorption of IR light does not solve destruction of tumor cells. However, nanoparticles such as Fe3O4 coated with Au could be used to deliver the drug to a specific spot due to applied external magnetic field. Due to these applications, boundary layer approximation is invoked to simplify the mathematical model. This paper presents the nanoparticle shape analysis and heat transfer features of the Au–Fe3O4–blood hybrid nanofluid flowing past a stretching surface on a magnetohydrodynamic medium. Numerical solutions of nonlinear differential equations are obtained by RKF‐45 method with the help of shooting technique. The behavior of emerging parameters is described graphically for velocity and temperature profiles. It is found that the blade‐shaped Au and Fe3O4 nanoparticles have better thermal conductance than brick, sphere, cylinder, needle, and platelet shapes. It is also observed that the Lorentz force generated due to magnetic field helps in controlling the flow and enhance the thermal conductivity of hybrid nanofluid.

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Heat and mass transfer investigation of a chemically reactive Burgers nanofluid with an induced magnetic field over an exponentially stretching surface

Cited by 20 publications

References 39 publications

Effect of inclined magnetic field on radiative heat and mass transfer in chemically reactive hybrid nanofluid flow due to dual stretching

Effect of inclined magnetic field on radiative heat and mass transfer in chemically reactive hybrid nanofluid flow due to dual stretching

Thermodynamic flow of radiative induced magneto modified Maxwell Sutterby fluid model at stretching sheet/cylinder

The analogy of nanoparticle shapes on the theory of convective heat transfer of Au–Fe₃O₄ Casson hybrid nanofluid

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Heat and mass transfer investigation of a chemically reactive Burgers nanofluid with an induced magnetic field over an exponentially stretching surface

Cited by 20 publications

References 39 publications

Effect of inclined magnetic field on radiative heat and mass transfer in chemically reactive hybrid nanofluid flow due to dual stretching

Effect of inclined magnetic field on radiative heat and mass transfer in chemically reactive hybrid nanofluid flow due to dual stretching

Thermodynamic flow of radiative induced magneto modified Maxwell Sutterby fluid model at stretching sheet/cylinder

The analogy of nanoparticle shapes on the theory of convective heat transfer of Au–Fe3O4 Casson hybrid nanofluid

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The analogy of nanoparticle shapes on the theory of convective heat transfer of Au–Fe₃O₄ Casson hybrid nanofluid