Homogeneous–Heterogeneous Reactions Within Magnetic Sisko Nanofluid Flow Through Stretching Sheet Due to Convective Conditions Using Buongiorno’s Model

Upreti, Himanshu; Joshi, Navneet; Pandey, Alok Kumar; Rawat, Sawan Kumar

doi:10.1166/jon.2022.1875

Cited by 3 publications

(3 citation statements)

References 47 publications

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“…Zeb et al 23 has calculated the consequences of homogeneous heterogeneous chemical reactions on flow of non-Newtonian ferrofluid toward a stretching sheet. Effects of homogeneous and heterogeneous chemical reactions on motion of Casson nanoliquid due to curved oscillatory sheet were analyzed by Abbas et al 24 Upreti et al 25 has investigated the homogeneous–heterogeneous reactions effects in sisko nanofluid flow past across convectively heated stretching sheet.…”

Section: Introductionmentioning

confidence: 99%

Heat transfer analysis in hydromagnetic flow of couple stress fluid in presence of homogeneous and heterogeneous chemical reactions over a porous oscillatory stretchable sheet

Naveed

Imran

Gul

2023

Advances in Mechanical Engineering

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The prime objective of this theoretical study is to investigate the flow, mass, and heat transfer in the time-dependent couple stress fluid over a permeable stretching oscillatory surface. The effect of applied magnetic field is also taken in the momentum equation. In addition, the energy equation is modeled by incorporating thermal radiation and heat generation. Furthermore, the concentration equation is designed in presence of homogenous and heterogeneous chemical reactions. The flow mechanism occurs because of the to and fro motion of the surface about a fixed point. For similar solution of the developed flow problem suitable similarity transformations is adopted. The analytical solution of the obtained flow equations in the form of partial differential equations (PDEs) is attained by utilizing a valuable method called Homotopy analysis method (HAM). An extensive assessment is performed to study the influence of various involved parameters namely the couple stress parameter, the relation of the parameter of the surface oscillatory frequency to its stretched rate constant, the Prandtl number, the strength of heterogeneous and homogeneous chemical reactions parameters, Schmidt number, heat production parameter and magneto-porosity parameter on the flow, concentration and temperature distributions, skin friction coefficient, and rate of heat transfer via tables and graphs and are discussed in detail. It is observed that the amplitude of velocity and skin friction coefficient shows a declining response with varying values of the couple stress parameter and it increases for higher values of the magneto-porous parameter.

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Section: Introductionmentioning

confidence: 99%

Heat transfer analysis in hydromagnetic flow of couple stress fluid in presence of homogeneous and heterogeneous chemical reactions over a porous oscillatory stretchable sheet

Naveed

Imran

Gul

2023

Advances in Mechanical Engineering

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“…Many researchers have widely considered the stretching/shrinking sheet problems (see Magyari, 27 Banks, 28 Upreti, 29 Pandey and Kumar, 30 and Singh et al 31,32 ). The uniform fluid due to a stretching plate is studied by Blasius 33 .…”

Section: Introductionmentioning

confidence: 99%

“…In the Darcy-Brinkman model, the porous media offers resistance to the flow without any driving pressure gradient. [24][25][26] Many researchers have widely considered the stretching/shrinking sheet problems (see Magyari, 27 Banks, 28 Upreti, 29 Pandey and Kumar, 30 and Singh et al 31,32 ). The uniform fluid due to a stretching plate is studied by Blasius.…”

Section: Introductionmentioning

confidence: 99%

Mass transfer of viscous gas flow over porous stretching/shrinking sheet in the presence of slip and mass transpiration

Vinaykumar¹,

Anusha

Mahabaleshwar

et al. 2023

Heat Trans

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The effect of the mass transpiration parameter on the viscous gas flow past a porous stretching/shrinking sheet in the presence of Navier's slip is investigated, and also, the mass transfer characteristics are examined. The physical flow problem executes the Navier–Stokes and the mass equation, which forms the system of nonlinear partial differential equations. These are transformed via similarity variables into a system of ordinary differential equations. The slip flow model of the total mass transfer on the moving sheet is modeled by introducing gas slip velocity. The total mass transfer on the moving sheet is modeled by inducing slip models of first and second order. Further, the suction which induces the slip velocity as opposed to the surface movement is examined. The mass suction‐induced slip forces the adjacent gases to flow in the reverse direction to sheet movement. Thus, the solution space expands with the slip‐induced suction and sheet movement. In the mass injection case, the induced slip increases the effect of the fluid flow for sheet movement. Upon all previous flow models, the present investigation is significant due as it investigates the mass transfer of viscous gasses flow past a porous medium in the presence of slip and mass transpiration.

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A numerical analysis of the blood-based Casson hybrid nanofluid flow past a convectively heated surface embedded in a porous medium

Yasmin,

Mahnashi,

Hamali

et al. 2024

Open Physics

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The analysis of the fluid flow with the energy transfer across a stretching sheet has several applications in manufacturing developments such as wire drawing, hot rolling, metal extrusion, continuous casting, paper production, and glass fiber fabrication. The current examination presents the hybrid nanofluid flow past a convectively heated permeable sheet. The ferrous oxide (Fe3O4) and Gold (Au) nanoparticles have been dispersed in the blood. The significances of thermal radiation, inclined magnetic field, and space-dependent heat source have been observed in this work. The modeled equations are presented in the form of partial differential equations and reformed into the set of ordinary differential equations (ODEs) by using the similarity substitution. The Matlab built-in package (bvp4c) is employed to resolve the transform nonlinear set of ODEs. The significance of flow constraints versus the velocity and temperature profiles is demonstrated in the form of Figures and Tables. The numerical outcomes for the physical interest quantities are presented in tables. It has been perceived from the results that raising the angle of inclination from 0° to 90° reduces both the velocity and energy profile. The escalating values of Eckert number, constant heat source, and space-dependent heat source factor accelerate the temperature profile. The velocity and temperature distributions are very effective in the cases of hybrid nanofluid (Au–Fe3O4/blood) when compared to nanofluid (Au/blood). The skin friction and rate of heat transfer are very effective in the cases of hybrid nanofluid (Au–Fe3O4/blood) when compared to nanofluid (Au/blood).

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Homogeneous–Heterogeneous Reactions Within Magnetic Sisko Nanofluid Flow Through Stretching Sheet Due to Convective Conditions Using Buongiorno’s Model

Cited by 3 publications

References 47 publications

Heat transfer analysis in hydromagnetic flow of couple stress fluid in presence of homogeneous and heterogeneous chemical reactions over a porous oscillatory stretchable sheet

Heat transfer analysis in hydromagnetic flow of couple stress fluid in presence of homogeneous and heterogeneous chemical reactions over a porous oscillatory stretchable sheet

Mass transfer of viscous gas flow over porous stretching/shrinking sheet in the presence of slip and mass transpiration

A numerical analysis of the blood-based Casson hybrid nanofluid flow past a convectively heated surface embedded in a porous medium

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