Chemical Reaction Effect on MHD Jeffery Fluid Flow over a Stretching Sheet Through Porous Media with Heat Generation/Absorption

Jena, S.; Mishra, S. R.; Dash, G. C.

doi:10.1007/s40819-016-0173-8

Cited by 42 publications

(17 citation statements)

References 32 publications

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“…Viscous hydromagnetic boundary layer theory is a practical tool for building accurate models in these regions of MHD generators. Jena et al [21] analysed the collective influence of heat sink/source and chemical reaction in boundary-layer magnetic convection with a nonlinear rheological pumping fluid.…”

mentioning

confidence: 99%

Computation of Transient Radiative Reactive Thermosolutal Magnetohydrodynamic Convection in Inclined MHD Hall Generator Flow With Dissipation and Cross Diffusion

Bég

Sheri

Modugula

et al. 2019

Comput Thermal Scien

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mentioning

confidence: 99%

Computation of Transient Radiative Reactive Thermosolutal Magnetohydrodynamic Convection in Inclined MHD Hall Generator Flow With Dissipation and Cross Diffusion

Bég

Sheri

Modugula

et al. 2019

Comput Thermal Scien

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“…An examination of entropy generation in MHD flow with Joule heating effect through concentric cylinders was organized by Srinivasacharya and Shafeeurrahman 29 . Jena et al 30 introduced heat absorption/generation on MHD Jeffery fluid flow. The influence of ion‐slip and Hall on mixed convection chemically reacting Newtonian fluid through parallel plates was examined by RamReddy et al 31 Hayat et al 32 examined Williamson's nanofluid flow.…”

Section: Introductionmentioning

confidence: 99%

Mixed convection flow over a vertical cone with double dispersion and chemical reaction effects

Meena

2021

Heat Trans

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This contribution brings mixed convection flow across a vertical cone in the presence of double dispersion and chemical reaction effects. The model of the problem is designed mathematically in the forms of governing equations; it is nondimensionalized for ease of numerical computations and the gained nonsimilarity equations are solved numerically throughout the detailed numerical technique. The outcomes are summarized in graphical and numerical forms to illustrate the impacts of governing parameters Prandtl number, Schmidt number, buoyancy ratio, thermal dispersion, chemical reaction, solutal dispersion, and buoyancy parameters at various streamwise spots of velocity, temperature, and concentration profiles. Moreover, skin friction, heat, and mass transfer rates are tabulated. To establish the exactness of the adopted numerical technique, residual analysis study also portrayed; we made a comparison with prior published outcomes and found them to be in great consent.

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“…Jeffrey fluid is a rate typesfluid which manifests the behavior of the relaxation as well as the retardationstime. Some contributions in this area are made by Saif et al [20], Narayana et al [21], Jena et al [22], Sreelakshmi et al [23]and Ahmad et al [24].…”

Section: Introductionmentioning

confidence: 99%

Transport of MHD nanofluid in a stratified medium containing gyrotactic microorganisms due to a stretching sheet

2021

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In this article, an elaborated evaluation has been presented for the stratified MHD Jeffrey nanofluid flow towards a stretching surface in the presence of gyrotactic micro-organisms. The analysis of the flow by taking into consideration the viscous dissipation, Brownian motion, Joule heating and thermophoresis and the assumption of thermal, solutal and motile density stratification aspects. The governing nonlinear system of partial differential equations (PDEs), administering the flow, are turned to a group of the nonlinear ordinary differential equations (ODEs) via using an appropriate similarity transformation and later solved numerically by implementing the Keller-box approach with the help of algebraic software Matlab. The impacts of a variety of parameters on the fluid motion, heat, mass, density of the motile micro-organisms, local skin friction, local Nusselt number, local Sherwood number and local density number of the motile micro-organisms are examined with the aid of graphs as well as tables. The results suggest that the motile micro-organisms density is a decreasing function of the bioconvection Lewis number, bioconvection Pecket number and microorganisms concentration difference. The Sherwood number and density rate of motile micro-organisms are bigger in the case of magnetic parameter and Lewis number.

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Chemical Reaction Effect on MHD Jeffery Fluid Flow over a Stretching Sheet Through Porous Media with Heat Generation/Absorption

Cited by 42 publications

References 32 publications

Computation of Transient Radiative Reactive Thermosolutal Magnetohydrodynamic Convection in Inclined MHD Hall Generator Flow With Dissipation and Cross Diffusion

Computation of Transient Radiative Reactive Thermosolutal Magnetohydrodynamic Convection in Inclined MHD Hall Generator Flow With Dissipation and Cross Diffusion

Mixed convection flow over a vertical cone with double dispersion and chemical reaction effects

Transport of MHD nanofluid in a stratified medium containing gyrotactic microorganisms due to a stretching sheet

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