Unsteady thermally radiative Prandtl fluid flow past a magnetized inclined porous stretching device with double-diffusion, viscous dissipation, and Joule heating

Patil, Amar B.; Patil, Nalini S.; Patil, Vishwambhar S.; Humane, Pooja P.; Rajput, Govind R.

doi:10.1177/09544089221107295

Cited by 8 publications

(2 citation statements)

References 27 publications

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“…The stagnant flow of magnetized Prandtl liquid toward a shrinking sheet was explored by Akbar et al [30]. The magnetized and dissipative flow of Prandtl liquid over an inclined surface with radiative thermal energy was studied by Patil et al [31]. Flow characteristics of Prandl nanoliquid with multiple physical factors over a vertical surface by performing numerical simulations were elaborated by Zafar et al [32].…”

Section: Introductionmentioning

confidence: 99%

Volumetric thermo-convective and stratified prandtl fluid magnetized flow over an extended convectively inclined surface with chemically reactive species

Bilal,

Asadullah,

Pan

et al. 2024

Phys. Scr.

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Substantive applications of stratified flows have been observed in various industrial operating systems. Stratified flows driven by gravity differences possesses pervasive significance in performance of nuclear reactor along with management of safety problems due to pressurized thermal shock and induced water condensation. In addition, thermogravitational stratified regimes also play exclusive role in multiphase processes in diversified engineering disciplines. Therefore, this artifact investigates the thermal and solutally stratified Prandtl fluid flow over an inclined extendable surface with magnetic field aspects. Convective boundary constraints are prescribed at the surface of sheet and chemical reaction of first-order is also accounted. Firstly, problem formulation is conceded in the form of PDEs which are later transformed into ODEs by employing a similar set of variables. Then these ODEs are solved by employing shooting method in collaboration with Runge-Kutta scheme. A comparison of results in restrictive sense with outcomes attained from analytical approach to analyze robustness and accuracy of currently employed schemes is also executed. The results expressing the behavior of the involved parameters on flow distributions are revealed in graphical and tabular formats. It is revealed that the heat and mass flux coefficients increase by up to 41% and 22%, respectively, in the presence of stratification in comparison to the situation when it is absent. The velocity of the fluid is accelerated by uplifting the angle of inclination and buoyancy ratio parameters. By increasing the magnitude of the model flow parameters, the fluid velocity increased. The Prandtl number tends to reduce the temperature and elevate the heat-flux coefficient. The velocity distribution showed a positive trend with the change in the angle of inclination.

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Section: Introductionmentioning

confidence: 99%

Volumetric thermo-convective and stratified prandtl fluid magnetized flow over an extended convectively inclined surface with chemically reactive species

Bilal,

Asadullah,

Pan

et al. 2024

Phys. Scr.

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“…16 Most recently, Srinivas et al 17 considered the viscoelastic fluid over stretching pipe with chemical processes. Similarly, the MHD FCBLF with chemical reaction of NF through a vertical surface was explored by Uddin et al 18 Patil et al 19 investigated the magnetized chemically hybrid nanofluid with thermal over stretched with Ohmic heating and dissipation effect. Shamshuddin et al 20 studied the thermal exploration of ethylene glycol nanofluid movement with viscosity effect over a permeable cylindrical annulus.…”

Section: Introductionmentioning

confidence: 99%

Numerical solution of heat and mass transfer using buongionro nanofluid model through a porous stretching sheet impact of variable magnetic, heat source, and temperature conductivity

Zeeshan,

Khan,

Khan

et al. 2023

Science Progress

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Fluid flow chronologically is widely recognized due to its various uses in turbines, the framework of spinning magnet stars, gyromagnetic generators, and chemical engineers observing the progression of petroleum through the aquifer, and blood vessels in the respiratory alveolar plate. Tropical cyclones, pools of water, and storms all exhibit rotational movement. The current investigation aims to analyse the micro polar fluid flow between two infinite vertical discs enclosing Hall impact, varying thermal conductivity, heat flux as well as anomalous heat generation. The implication of a chemical change combined with chemical potential improves mass propagation. Suitable similarity conversions are used to convert the defined problems into conventional differential equations (ODEs). Furthermore, by introducing new variables the ODEs are transformed into nonlinear coupled ODEs and then solved numerically by the RK 4th order along with the shooting technique. The velocity profiles decrease as suction parameter increases. The temperature field exhibits a rising behaviour for the increasing values of thermophoresis, Brownian and radiations parameters while the concentration field shows a decreasing behaviour. Shear stress at the upper wall increases when the rotation variable and suction variable are augmented. Heat transmission escalations at the bottom wall when Prandtl number and radiation factor are enhanced. The novelty of the present work is to examine the Buongionro model in the presence of a heat source and chemical reaction inside the Darcian porous rotating channel, which has not been investigated yet. In some limiting cases, a comparison of the on-going study with existing literature is also included to justify the contemplated problem.

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Darcy-Forchheimer Flow of Prandtl Nanofluid with Irreversibility Analysis and Cubic Autocatalytic Chemical Reactions

ur Rahman,

Haq,

Ghazwani

et al. 2023

BioNanoSci.

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Unsteady thermally radiative Prandtl fluid flow past a magnetized inclined porous stretching device with double-diffusion, viscous dissipation, and Joule heating

Cited by 8 publications

References 27 publications

Volumetric thermo-convective and stratified prandtl fluid magnetized flow over an extended convectively inclined surface with chemically reactive species

Volumetric thermo-convective and stratified prandtl fluid magnetized flow over an extended convectively inclined surface with chemically reactive species

Numerical solution of heat and mass transfer using buongionro nanofluid model through a porous stretching sheet impact of variable magnetic, heat source, and temperature conductivity

Darcy-Forchheimer Flow of Prandtl Nanofluid with Irreversibility Analysis and Cubic Autocatalytic Chemical Reactions

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