Unsteady MHD Mixed Convection Flow of Jeffrey Fluid Past a Radiating Inclined Permeable Moving Plate in the Presence of Thermophoresis Heat Generation and Chemical Reaction

Raju, K. Venkateswara; Parandhama, A.; Raju, M. C.; Babu, K. Ramesh

doi:10.22147/jusps-a/300107

Cited by 7 publications

(3 citation statements)

References 24 publications

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“…The term radiative plays a substantial role in the field of heat and mass transfer studies of a problem. Raju et al, [14] discussed the unsteady MHD mixed convection flow of Jeffrey fluid past over a radiating inclined permeable moving plate in the presence of thermophoresis heat generation and chemical reaction. Cui et al, [15] examined the effect of convection and radiation of heat transfer upon cooling performance over radiative panel.…”

Section: Introductionmentioning

confidence: 99%

Characteristics of MHD Jeffery Fluid Past an Inclined Vertical Porous Plate

Obulesu Mopuri,

A.Sailakumari,

Aruna Ganjikunta

et al. 2024

CFDL

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This paper is concerned with the study of an unsteady, MHD natural convective boundary layer flow of a viscous, incompressible and electrically conducting, non-Newtonian Jeffery fluid over a semi-infinite vertically inclined permeable moving plate embedded in a porous medium in the presence of thermal radiation, heat absorption and thermal diffusion, heat and mass transfer. . The permeability of the porous medium and the suction velocity are considered to be an exponentially decreasing function of time. The fundamental governing equations for this investigation are solved numerically using the perturbation technique. The results are presented graphically and in tabular form for various controlling parameters. The behavior of different physical parameters is shown graphically. The numerical values of Skin friction, Nusselt number, and Sherwood number are presented in a tabular form. Obtained outcomes are compared with earlier studies in the special case and strong agreement is noted. From graphical representation, it is concluded that velocity and temperature distribution increases with the mixed convection parameter and buoyancy force parameter. An increasing value of magnetic field parameter, slip parameter, and Jeffery parameter tends to reduced velocity and also raising the values of Prandtl number, radiation parameter and heat absorption parameter tends to downfallen temperature profiles. This study may be useful in several industrial applications, for example, polymer production, manufacturing of ceramics or glassware and food processing, and so forth.

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Section: Introductionmentioning

confidence: 99%

Characteristics of MHD Jeffery Fluid Past an Inclined Vertical Porous Plate

Obulesu Mopuri,

A.Sailakumari,

Aruna Ganjikunta

et al. 2024

CFDL

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“…In the real world, there will be tremendous applications related to MHD fluid flow, such as magnetic devices for cell severance, nuclear reactor coolants, levitating and heating liquid metals, magnetic endoscopy, metallurgical industries, molten metal pumps is an imperative substitution of convectional pumps due to their poignant parts cannot get up the molten metal temperature, bio‐medical field, magnetic drug targeting, environmental engineering and pharmaceutical industries, a salt pump is employed for nuclear reactor coolants for the reason that it is no poignant parts characteristic, metallurgical industry for stirring, and so on. Various investigators investigated huge work connected to MHD, that is, Rajakumar et al, 1 Ahmmed et al, 2 Rajakumar et al, 3 Raju et al, 4 Matta et al, 5 Riaz et al, 6 Manideep et al, 7 Anantha Kumar et al, 8 Ullah et al, 9 Mishra et al, 10 Srinivasa Raju et al, 11 and Venkatesh et al 12 examined analytical as well as experimental on MHD free convective fluid flows by means of the vertical porous plate but still, they have not discussed on MHD fluid flow along with semi‐infinite inclined permeable plate Veera Krishna et al 13 discussed second‐grade fluid on MHD oscillatory free convective flow in presence of hall current in between two normal plates, Veera Krishna et al 13 explored MHD rotating flow of non‐Newtonian fluid through permeable plate by means of hall and ion‐slip current. Chamkha 14 investigated MHD free convective flow from a nonparallel plate embedded in a thermally stratified porous medium by means of the hall effect.…”

Section: Introductionmentioning

confidence: 99%

Viscous dissipation and radiation absorption effects on unsteady MHD free convective fluid flow past an inclined porous plate with chemical reaction

2022

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The current scrutinization concentrated on the consequences of viscous dissipation and chemical reaction on unsteady MHD two‐dimensional free convective fluid flow past a semi‐infinite inclined permeable plate with radiation absorption and heat generation. The governing equations are determined analytically by employing the perturbation technique. The impact of various physical estimators on velocity, temperature, concentration, skin friction, and Nusselt number along with Sherwood number were exemplified quantitatively through graphs. It was concluded that velocity declined with the incremental values of Eckert number, but contradictory impact occurred in the case of skin friction. In addition temperature, Nusselt number, as well as velocity, declined with the progressive values of radiation absorption. However, skin friction was accelerated with the augmented values of radiation absorption. Velocity accelerated, with the progressive values of angle of inclination. Concentration declined with the various augmentation values of chemical reaction as well as Schmidt number.

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“…In an environment where heat is produced and resultantly a mixed MHD convection flow in case of Jeffrey fluid is obtained this flow is observed through a radiating, inclined permeable moving layer is possessed by Raju et al, [1]. Vedavathi et al, [2] have expressed Casson magneto hydro mechanics fluid flow chemical reactions, radiation, and Dufour results in a vertical plate of heat source/sink.…”

Section: Introductionmentioning

confidence: 99%

MHD Heat and Mass Transfer Steady Flow of a Convective Fluid Through a Porous Plate in The Presence of Diffusion Thermo and Aligned Magnetic Field

Mopuri

Kodi²,

Ganteda

et al. 2021

ARFMTS

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In the presence of a diffusion thermal and coupled magnet field effect, this manuscript seeks continuous free convective motion by a viscous, incompressible fluid that conducts electrically past a sloping platform via a porous medium. The free flow speed may be compatible with the exponentially tiny disrupting law. Two-term harmonic and non-harmonic functions solve dimensional-less control equations analytically. Detailed graphs are used to determine the budgets for tempo, temperature, and concentration for various limit calculations. Also, the numbers of Nusselt and Sherwood are given and evaluated with the graphs. Its sketches illustrate that the velocity profiles get reduced by the increase of aligned magnetic field parameter (α) and inclined angle parameter (ξ). Temperature profile is accelerated by rising heat absorption, Dufour number and concentration distribution is decelerated by enhancing the chemical reaction and Schmidt number. Heat and mass transfer frequently occurs in chemically processed industries, distribution of temperature and moisture over agricultural fields, dispersion of fog and environment pollution and polymer production. Free convection flow of coupled heat and mass transfer occurs due to the temperature and concentration differences in the fluid as a result of driving forces. For example, in atmospheric flows, thermal convection resulting from heating of the earth by sunlight is affected differences in water vapour concentration.

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Unsteady MHD Mixed Convection Flow of Jeffrey Fluid Past a Radiating Inclined Permeable Moving Plate in the Presence of Thermophoresis Heat Generation and Chemical Reaction

Cited by 7 publications

References 24 publications

Characteristics of MHD Jeffery Fluid Past an Inclined Vertical Porous Plate

Characteristics of MHD Jeffery Fluid Past an Inclined Vertical Porous Plate

Viscous dissipation and radiation absorption effects on unsteady MHD free convective fluid flow past an inclined porous plate with chemical reaction

MHD Heat and Mass Transfer Steady Flow of a Convective Fluid Through a Porous Plate in The Presence of Diffusion Thermo and Aligned Magnetic Field

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