The effects of Soret and Dufour, chemical reaction, Hall and ion currents on magnetized micropolar flow through co-rotating cylinders

Gajjela, Nagaraju; Matta, Anjanna; Kaladhar, K.

doi:10.1063/1.4991442

Cited by 20 publications

(7 citation statements)

References 21 publications

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“…The velocity and concentration distributions involve auxiliary parameters h1 and h2. Convergence rate for the homotopy approximations strongly taking the value of h [26]. As a result, h-curves are depicted for finding the range of h1 and h2.…”

Section: Resultsmentioning

confidence: 99%

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Effect of Mass Transfer in a Horizontal Pipe with Suction and Chemical Reaction on Magnetic Newtonian Flow

Gajjela¹,

Garvandha²,

Matta³

2019

MMEP

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This paper examines the impact of reactive diffusion(mass) transport with the application of a magnetic field vertical to the flow direction where the Newtonian fluid is passing over a circular pipe. Uniform suction is applied, externally, across the wall in the transverse direction. A strong analytical methodology, specifically, the homotopy analysis method (HAM) is employed to realize solutions to the non-linear coupled equations. The effect of magnetic parameter(M), suction Reynold number (Re), Schmidt parameter (Sc), first-order chemical reaction parameter(γ) on velocity components and concentration are displayed graphically and explained numerically. The dimensionless of axial concentration𝜙 decrease for a given rise in 𝛾. Further, the behavior is inverted i.e. for the cases of radial concentration 𝜙 increases as γ increases.

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Section: Resultsmentioning

confidence: 99%

“…They notice that the fluid concentration near the centerline rises with distinct cycles of time. Other interesting and recent investigations into pipe dynamics have been communicated in previous studies [19][20][21][22][23][24][25][26][27][28].…”

Section: Introductionmentioning

confidence: 99%

Effect of Mass Transfer in a Horizontal Pipe with Suction and Chemical Reaction on Magnetic Newtonian Flow

Gajjela¹,

Garvandha²,

Matta³

2019

MMEP

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“…The effects of Soret and Dufour are important because the effect of Soret is used for the separation of isotopes, electrostatic precipitators, drug discovery, etc. Several researchers studied and reported results for such fluid flows, due to importance of the importance of the cross-diffusion effects for very light and medium molecular weights fluids (Nabil et al [15], Rani and Reddy [16], Srinivas et al [17], Odelu and Naresh kumar [18], Nagaraju et al [19,20]. )…”

Section: Introductionmentioning

confidence: 99%

Two-Dimensional Flow Through the Uniformly Porous Horizontal Pipe with Thermal Radiation and Cross-Diffusion Effects

Gajjela¹,

Garvandha²,

Matta³

2020

MMC_B

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This paper is dedicated to the mathematical analysis of an axisymmetric, steady Newtonian fluid flow through a horizontal pipe within the occurrence of radiation, Dufour, and Soret effects. The flow is exposed to associate outwardly functional constant suction above the pipe along Z-direction. The homotopy analysis methodology (HAM) is utilized to get semi-analytical solutions for the coupled differential equations. The results of diverse rising constraints on velocities, thermal and solutal are discussed and pictured. The flow is studied through streamlines, isotherms and pressure contours area unit likewise shown as pictured. It is identified that the temperature can increase with an increase in Dufour parameter but decelerates with an improvement in the radiation parameter. For the given increase within the Soret number, the concentration decelerates.

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“…Due to thermal volumetric expansion decrease because of buoyancy force which gives rise the density of fluid results the temperature distribution go down. Reddy et al, 21 Gajjala et al, 22 and Nadeem et al 23 have presented the impact of magnetic field on MHD micropolar fluid past an elongating sheet, magnetized micropolar flow through cylinders, and bioconvective micropolar nanofluid. The foundations conclude that the existence of magnetic domain exhibits enhancing behavior in the flow of the fluid.…”

Section: Introductionmentioning

confidence: 99%

Nonlinear free convection flow of micropolar nanofluid over a cylinder

Ibrahim

Zemedu

2020

Heat Trans

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Buoyancy‐determined steady, laminar nonlinear convection flow of micropolar nanofluid with Soret effect, viscous dissipation over a cylinder were evaluated numerically using method bvp4c from matlab software for assorted quantities of leading parameters. Mathematical modeling for the flow problem has been completed with fitting resemblance change and dimensionless variable. A variable similarity solution is offered that bases on various quantities of leading parameters. Influences of these parameters on θ false″ ( 0 ), − h ' ( 0 ) , ϑ ' ( 0 ) , − ϕ ' ( 0 ) are tested and displayed with the charts and graphs. The convergence test has been continued; for quantity of spots larger than suitable mesh number of points. The correctness is unchanged, but it takes time. Also, a comparison with prior study reachable in the literature has been offered with very good conformity is got. The findings show that the existence of Soret number agrees to enhance concentration profile ϕ )(ζ, Wall couple stress coefficient − h false′ )(0 , θ false″ )(0 , and Nusselt number – ϑ ′ ( 0 ). But the presence of Eckert Number Ec, allows declining velocity, microrotation, temperature, and concentration profiles.

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The effects of Soret and Dufour, chemical reaction, Hall and ion currents on magnetized micropolar flow through co-rotating cylinders

Cited by 20 publications

References 21 publications

Effect of Mass Transfer in a Horizontal Pipe with Suction and Chemical Reaction on Magnetic Newtonian Flow

Effect of Mass Transfer in a Horizontal Pipe with Suction and Chemical Reaction on Magnetic Newtonian Flow

Two-Dimensional Flow Through the Uniformly Porous Horizontal Pipe with Thermal Radiation and Cross-Diffusion Effects

Nonlinear free convection flow of micropolar nanofluid over a cylinder

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