Influence of an inclined stretching cylinder over MHD mixed convective nanofluid flow due to chemical reaction and viscous dissipation

Mondal, Hiranmoy; Das, Subrata; Kundu, Prabir Kumar

doi:10.1002/htj.21714

Cited by 19 publications

(16 citation statements)

References 28 publications

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“…The radiation impacts under the Magnetohydrodynamic (MHD) movement of Casson-type nano liquid across a shrinking/stretched cylinder in the presence of chemical processes were reported by Bhandari et al [5]. Mondal et al [6] evaluated a steady 2-dimensional (MHD) Magnetohydrodynamic mixed convection flow of viscous nano liquid and heat transformation in an inclined stretched cylinder with a chemical process and a uniformly magnetic field. Basha et al [7] discussed the properties of fluid transportation and entropy production of tangent hyperbolic nano liquid across a horizontal revolving cylinder with the impact of nonlinear Boussinesq estimation.…”

Section: Introduction 1review Of the Literaturementioning

confidence: 96%

Numerical Simulation for Bioconvection of Unsteady Stagnation Point Flow of Oldroyd-B Nanofluid with Activation Energy and Temperature-Based Thermal Conductivity Past a Stretching Disk

Rashad¹,

Liu²,

Khan³

2022

Computer Modeling in Engineering &Amp; Sciences

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A mathematical modeling is explored to scrutinize the unsteady stagnation point flow of Oldroyd-B nanofluid under the thermal conductivity and solutal diffusivity with bioconvection mechanism. Impacts of Joule heating and Arrhenius activation energy including convective boundary conditions are studied, and the specified surface temperature and constant temperature of wall (CTW) are discussed. The consequences of thermal conductivity and diffusivity are also taken into account. The flow is generated through stretchable disk geometry, and the behavior of non-linear thermal radiation is incorporated in energy equation. The partial differential equations governing the fluid flow in the structure is reduced into dimensionless nonlinear ODEs by applying suitable similarity variables. The obtained system of non-dimensional nonlinear ODEs is treated numerically with the help of bvp4c solver in Matlab under shooting algorithm. The impact of various prominent parameters on velocity profile, thermal profile, volumetric nanoparticle concentration and microorganism distribution is depicted in graphical form. The numerical outcomes for skin friction coefficient, heat transfer rate, Sherwood number as well as microorganism density number versus various parameters are listed in the tables. The results show that fluid velocity is reduced by increasing buoyancy ratio parameter, while the fluid flow increases with mixed convective parameter. The temperature profile is enhanced with the amount of nonlinear thermal radiation and temperature dependent thermal conductivity. Furthermore, concentration profiles of nanoparticles have opposite behavior for Brownian motion coefficient and thermophoresis diffusion parameter, and it is noticed that by varying Peclet number the microorganisms profile is declined. The proposed study is useful to control and optimize heat transfer in industrial applications.

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Section: Introduction 1review Of the Literaturementioning

confidence: 96%

Numerical Simulation for Bioconvection of Unsteady Stagnation Point Flow of Oldroyd-B Nanofluid with Activation Energy and Temperature-Based Thermal Conductivity Past a Stretching Disk

Rashad¹,

Liu²,

Khan³

2022

Computer Modeling in Engineering &Amp; Sciences

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“…The concept of magneto-hydrodynamic (MHD) has been widely used in microfluidics, especially for micromixing, micropumping, and fluid control. [19][20][21][22][23] It employs the Lorentz forces for manipulating the movement of highly conducting fluids such as magneto-fluid, and electrolytes. 1,2,[19][20][21]24,25 By carefully exploiting electrode design, and the direction of electric and magnetic fields, secondary flows or/and vortices can be generated for the stirring and mixing of fluid.…”

Section: Introductionmentioning

confidence: 99%

Enhanced mixing in dual-mode cylindrical magneto-hydrodynamic (MHD) micromixer

Buglie

Tamrin

2022

Proceedings of the Institution of Mechanical Engineers, Part E:

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The proposed cylindrical magneto-hydrodynamic (MHD) micromixer developed in this study was a geometrically modified conventional T-micromixer combining the characteristics of passive and active micromixers. Characterization was achieved by observing the mixing efficiencies of NaCl solution (1% concentration) based on supplied electrical potential and inlet flow rates. The design mainly aimed to utilize the pumping capability of the magneto-hydrodynamic principle as a secondary element to give counter pumping energy towards inlet flows, such that perturbation of fluid increased mixing performance. NaCl solution was mixed by advection through the stretching and folding by micro-vortices generated in the mixing reservoir. The cylindrical MHD micromixer achieved its highest mixing index of 99.42% at Re = 40 with 3 V of direct-current potential (VDC) supplied to the electrodes. Mixing efficiency increased in a considerably similar and linear pattern for Re = 5, 10, 20, and 40 within the electrical potential range of 0.5 ≤ V ≤ 3.0. Control was gained by manipulating the external electrical potential source which only required a smaller capacity of direct-current voltage sources. Overall, the proposed cylindrical MHD micromixer, which emphasizes the use of inexpensive material and simple design, has been experimentally proven to be practical as compared to the passive and active micromixers found in the literature.

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“…Vinita and Poply [4] examined the impact of heat generation on nanofluid flow past a stretching cylinder. Mondal et al [5] examined the impact of viscous dissipation and mixed convection on nanoliquid stream past a stretching cylinder. The combination of dual or more nanoparticles which are suspended in a convectional liquid yield's hybrid nanofluid.…”

Section: Introductionmentioning

confidence: 99%

“…In this study, we discuss the consequence of hybrid nanoparticles on the dusty fluid flow through a stretching cylinder by utilising the modified Fourier heat flux law. The dusty-fluid expressions for dust and nanoparticles are discussed by using equations [1][2][3][4][5][6], and are employed with corresponding boundary conditions [7], both the dust and fluid particles are governed by the coupled set of the energy and momentum expressions. Further, we chose Molybdenum disulphide and silver as nanoparticles suspended in carrier liquid water.…”

Section: Introductionmentioning

confidence: 99%

Two-phase flow of dusty fluid with suspended hybrid nanoparticles over a stretching cylinder with modified Fourier heat flux

et al. 2021

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The current paper explores the influence of hybrid nanoparticles on the dusty liquid flow through a stretching cylinder by employing the modified Fourier heat flux law. Two phase model is implemented in the present research to characterise the fluid flow. Molybdenum disulphide and silver are used as nanoparticles suspended in base fluid water. The equations which represent the described flow are changed into a set of ordinary differential equations by opting appropriate similarity variables. The reduced dimensionless nonlinear ODEs are numerically solved out by using Runge–Kutta–Fehlberg fourth fifth order inclusive of shooting approach. The impact of several dimensionless parameters over velocity and thermal gradients are deliberated by using graphs. Graphical illustrations for skin friction are also executed. Result outcome reveals that, rise in values of mass concentration of particle declines the velocity and thermal gradient of both dust and fluid phases and cumulative in curvature parameter upsurges the velocity and thermal gradient within the boundary. Further, the heightening of thermal relaxation parameter enhances the thermal profile of both fluid and dust phases.

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Influence of an inclined stretching cylinder over MHD mixed convective nanofluid flow due to chemical reaction and viscous dissipation

Cited by 19 publications

References 28 publications

Numerical Simulation for Bioconvection of Unsteady Stagnation Point Flow of Oldroyd-B Nanofluid with Activation Energy and Temperature-Based Thermal Conductivity Past a Stretching Disk

Numerical Simulation for Bioconvection of Unsteady Stagnation Point Flow of Oldroyd-B Nanofluid with Activation Energy and Temperature-Based Thermal Conductivity Past a Stretching Disk

Enhanced mixing in dual-mode cylindrical magneto-hydrodynamic (MHD) micromixer

Two-phase flow of dusty fluid with suspended hybrid nanoparticles over a stretching cylinder with modified Fourier heat flux

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