MHD Second Grade NanoFluid Flow Induced by a Rotatory Cone

Bilal, S.; Mustafa, Zubair; Rehman, Khalil Ur; Malik, M.Y.

doi:10.1166/jon.2019.1627

Cited by 18 publications

(6 citation statements)

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“…Fetecau and Fetecau [4] determined solution for second-grade fluids due to an oscillating circular cylinder by using Hankel transform method). A wealth of knowledge about the analysis of second-grade fluid over various physical configurations and conditions can be accessed through References [5][6][7][8].…”

Section: Literature Surveymentioning

confidence: 99%

Heat and Mass Transfer in Hydromagnetic Second-Grade Fluid Past a Porous Inclined Cylinder under the Effects of Thermal Dissipation, Diffusion and Radiative Heat Flux

et al. 2020

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Current disquisition is presented to excogitate heat and mass transfer features of second grade fluid flow generated by an inclined cylinder under the appliance of diffusion, radiative heat flux, convective and Joule heating effects. Mathematical modelling containing constitutive expressions by obliging fundamental conservation laws are constructed in the form of partial differential equations. Afterwards, transformations are implemented to convert the attained partial differential system into ordinary differential equations. An implicit finite difference method known as the Keller Box was chosen to extract the solution. The impact of the flow-controlling variables on velocity, temperature and concentration profiles are evaluated through graphical visualizations. Variations in skin friction, heat transfer and mass flux coefficients against primitive variables are manipulated through numerical data. It is inferred from the analysis that velocity of fluid increases for incrementing magnitude of viscoelastic parameter and curvature parameter whereas it reduces for Darcy parameter whereas skin friction coefficient decreases against curvature parameter. Assurance of present work is manifested by constructing comparison with previous published literature.

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Section: Literature Surveymentioning

confidence: 99%

Heat and Mass Transfer in Hydromagnetic Second-Grade Fluid Past a Porous Inclined Cylinder under the Effects of Thermal Dissipation, Diffusion and Radiative Heat Flux

et al. 2020

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“…In mechanical and web engineering, nanofluids are renowned as the most remarkable coolants. Bilal et al 36 taught MHD nanofluid flow driven by a cone. Two distinct nanoparticles are merged in the same host fluid to yield a hybrid nanofluid.…”

Section: Introductionmentioning

confidence: 99%

Numerical study of unsteady tangent hyperbolic fuzzy hybrid nanofluid over an exponentially stretching surface

Nadeem,

Siddique,

Riaz

et al. 2023

Sci Rep

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The significance of fuzzy volume percentage on the unsteady flow of MHD tangent hyperbolic fuzzy hybrid nanofluid towards an exponentially stretched surface is scrutinized. The heat transport mechanism is classified by Joule heating, nonlinear thermal radiation, boundary slippage, and convective circumstances. Ethylene glycol (EG) as a host fluid along with the nanomaterial’s Cu and $${\text{Al}}_{{2}} {\text{O}}_{{3}}$$ Al 2 O 3 are used for heat transfer analysis is also considered in this investigation. The nonlinear governing PDEs are meant to be converted into ODEs employing appropriate renovations. Then, a built-in MATLAB program bvp4c is employed to acquire the outcome of the given problem. The variation of flow rate, thermal heat, drag force and Nusselt number and their influence on fluid flow with heat transfer have been scrutinized through graphs. An increase in thermal radiation, power law index and nanoparticle volume friction heightens the heat transmission rate. Skin friction is diminished by swelling the power-law index, Weissenberg number, and ratio parameters, whereas it is increased by enhancing the magnetic parameter. The heat transfer rate upsurges with an increase in Weissenberg number and nanoparticle volume fraction. Also, the nanoparticle volume percentage is expressed as a triangular fuzzy number (TFN). The triangular membership function (MF) and TFN are regulated by the $$\chi - {\text{cut}}$$ χ - cut parameter, which has a range of 0 to 1. In comparison to nanofluids, hybrid nanofluids have a higher heat transmission rate, according to the fuzzy analysis. This investigation has applications in the areas of paper manufacturing, metal sheet cooling and crystal growth.

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“…Sulochana et al 6 have examined the magnetohydrodynamic (MHD) MgO/CuO-water hybrid nanofluid flow driven by two distinct geometries. Bilal et al 7 have investigated the MHD second-grade nanofluid flow induced by a rotatory cone. The properties of a nonuniform heat source/sink of nanofluids with chemically reactive fluid were reported by Thameem Basha et al 8 They looked at two sorts of geometries embedded in a porous media in their research.…”

Section: Introductionmentioning

confidence: 99%

Influence of nonlinear radiation on MHD nanofluid flow over a cone with second‐order velocity and thermal slips: A numerical study

Sreelatha¹,

Kumar²,

Narayana

2022

Heat Trans

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This computational study discovered the influence of magnetohydrodynamics nanofluid flow over a vertical cone. The nonlinear form of thermal radiation and irregular heat generation/sink takes an active part in this study. The influences of chemical reactions and second‐order slip parameters (velocity and temperature) are taken into account. Copper nanoparticles were mixed with water as base fluid in the present investigation. The leading partial differential equations which model the flow are altered as a set of nonlinear ordinary differential equations by means of self‐similarity alterations and then a numerical solution is cultivated with the support of fourth order Runge–Kutta Fehlberg method with the shooting method. The influence of appropriate parameters such as nonlinear radiation, chemical reaction, and slip parameters (velocity and temperature) on common fields (concentration, temperature, and velocity) are visualized through graphs. Also, we have analyzed the effects of identical parameters on the coefficient of skin friction and rate of transfer (mass and heat) by means of tables. The skin friction coefficient is boosted when the magnetic parameter is incremented. For larger values of nonlinear radiation parameter R d ${R}_{d}$, the rate of heat transfer was reduced.

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MHD Second Grade NanoFluid Flow Induced by a Rotatory Cone

Cited by 18 publications

References 0 publications

Heat and Mass Transfer in Hydromagnetic Second-Grade Fluid Past a Porous Inclined Cylinder under the Effects of Thermal Dissipation, Diffusion and Radiative Heat Flux

Heat and Mass Transfer in Hydromagnetic Second-Grade Fluid Past a Porous Inclined Cylinder under the Effects of Thermal Dissipation, Diffusion and Radiative Heat Flux

Numerical study of unsteady tangent hyperbolic fuzzy hybrid nanofluid over an exponentially stretching surface

Influence of nonlinear radiation on MHD nanofluid flow over a cone with second‐order velocity and thermal slips: A numerical study

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