On unsteady 3D bio-convection flow of viscoelastic nanofluid with radiative heat transfer inside a solar collector plate

Farooq, Umar; Waqas, Hassan; Shah, Zahir; Deebani, Wejdan

doi:10.1038/s41598-022-06728-0

Cited by 14 publications

(4 citation statements)

References 58 publications

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“…Hannes Alfén [24] introduced the notion of magnetohydrodynamics (MHD). More frameworks on MHD hybrid nanofluid flow with thermal radiation are studied in [25][26][27][28][29][30][31][32][33][34][35][36].…”

Section: Introductionmentioning

confidence: 99%

Heat transfer aspects in Carreau nanofluid having hybrid nanoparticles through a porous medium

et al. 2023

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The effects of nanofluid radiation and magnetic fields are important in biotechnology and medical treatment. The efficiency of hybrid nanomaterials flow (Carreau fluid) over a porous medium was investigated, and the findings were presented. The partial slip impact was used to thoroughly scrutinize the properties of the nanofluid flow. Using suitable variables, the PDEs in the Carreau model were reduced to ODEs, and the governing PDEs were transformed to ODEs using similarity transformations. The consequent ODEs are numerically investigated using the RKF‐45 Method. Furthermore, the results of the parameters involved in thermal and velocity were discussed. To the finest of the journalists' knowledge, no one has endeavored to depict medical occurrences and medical approaches by watching the flow through a malleable porous medium including blood as a base fluid and hybrid nanostructure materials. Indeed, the endeavors of this study are exceptional, and the obtained simulations have never been published by anyone academic.

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Section: Introductionmentioning

confidence: 99%

Heat transfer aspects in Carreau nanofluid having hybrid nanoparticles through a porous medium

et al. 2023

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“…Waqas et al [4] evaluated the second-order slip effects, activation energy, and Cattaneo-Christov heat and mass flux model with the melting phenomenon on the bioconvection flow of viscoelastic nanofluid. Farooq et al [5] analyzed the three-dimensional bioconvectional flow of viscoelastic nanofluids past an elongated surface with motile microorganisms, thermal radiation, and solutal boundary conditions. Waqas et al [6] disclosed the effects of Brownian motion, thermophoresis, thermal radiation, and Arrhenius activation energy on the bioconvection flow of Burgers nanofluid.…”

Section: Introductionmentioning

confidence: 99%

Thermodynamics of second-grade nanofluid over a stretchable rotating porous disk subject to Hall current and cubic autocatalysis chemical reactions

Khan

Fernandez-Gamiz²,

Khan³

et al. 2022

Front. Phys.

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Homogeneous–heterogeneous chemical reactions for second-grade nanofluid and gyrotactic microorganisms in a rotating system with the effects of magnetic fields and thermal radiation are examined. The boundary layer equations of the problem in a non-dimensional form are evaluated by a strong technique, namely, the homotopy analysis method (HAM). The rates of flow, heat, mass, and gyrotactic microorganism motion are obtained for the augmentations in the pertinent parameters. The graphical pictures of the results are described by the physical significance. The Hall current effect decreases the azimuthal velocity, the axial velocity increases with the injection of mass, the Biot number leads to enhanced heat transfer and gyrotactic microorganisms, the concentration diffusion rate decreases with the Peclet number, and the concentration of the chemical reaction reduces with the Schmidt number. Excellent agreement of the present work is found with the previously published work. The present study has applications in the hydromagnetic lubrication, semiconductor crystal growth control, austrophysical plasmas, magnetic storage disks, computer storage devices, care and maintenance of turbine engines, aeronautical, mechanical, and architectural engineering, metallurgy, polymer industry, hydromagnetic flows in porous media, and food processing and preservation processes.

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“…Bioconvection containing gyrotactic microbes is studied in nanofluidic squeezing flow through rotational circular plates . Similarly, bioconvection phenomena with nanofluid is presented for the chemical reaction-based flow through sheets in rotatory medium, for the non-Newtonian force with Darcy Forchheimer and electroosmosis forces, in non-Darcian micropolar fluid along various nanoparticles, in second grade nanofluid, in MHD Maxwell fluid based on SWCNTs-MECNTs types nanoparticles, and in other various fluid models in different situations. − …”

Section: Introductionmentioning

confidence: 99%

Numerical Study of the Electromagnetohydrodynamic Bioconvection Flow of Micropolar Nanofluid through a Stretching Sheet with Thermal Radiation and Stratification

et al. 2022

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The current work explores the bioconvection micropolar nanofluid through a stretching surface subjected to thermal radiation, stratification, and heat and mass transmission. Bioconvection contains the gyrotactic (random movement of microorganism in the direction of gravity with weak horizontal verticity) unicellular microorganism in aqueous environments. Heat and mass transfer assists the bioconvection to occur. The aim of this research is to evaluate the heat transfer rate of nanofluid in the presence of a unicellular microorganism. Self-similar variables are induced to reduce the governing equations into a non-linear differential system which is further solved via the bvp4c algorithm to tackle the fluid problem. Using visual representations, the effects of a number of dimensional less factors arising from the dimensional less differential system are determined. For a range of limiting conditions, the obtained results of this model correspond precisely to those in the literature. This study’s findings are highly regarded in the evaluation of the impact of key design factors on heat transfer and, therefore, in the optimization of industrial processes. Skin friction, local Nusselt number, Sherwood number, and density of microorganism concentrations are also studied for various parameters. Buoyancy ratio factor supports skin friction and density of microorganism profile to increase. Local Nusselt number drops due to the thermal radiation factor. Brownian motion speeds up the Sherwood number.

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On unsteady 3D bio-convection flow of viscoelastic nanofluid with radiative heat transfer inside a solar collector plate

Cited by 14 publications

References 58 publications

Heat transfer aspects in Carreau nanofluid having hybrid nanoparticles through a porous medium

Heat transfer aspects in Carreau nanofluid having hybrid nanoparticles through a porous medium

Thermodynamics of second-grade nanofluid over a stretchable rotating porous disk subject to Hall current and cubic autocatalysis chemical reactions

Numerical Study of the Electromagnetohydrodynamic Bioconvection Flow of Micropolar Nanofluid through a Stretching Sheet with Thermal Radiation and Stratification

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