Dynamics of nonuniform viscosity of unsteady CuO–H<sub>2</sub>O nanofluid flow from a spinning body

Giri, Shib Sankar; Das, Kalidas; Kundu, Prabir Kumar

doi:10.1002/htj.21510

Cited by 6 publications

(1 citation statement)

References 32 publications

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“…They observed the decline in velocity field for larger values of viscosity parameter and Weissenberg numbers. Giri et al (2019) numerically studied the upshot of thermal and momentum distribution for the flow of temperature-dependent viscosity modeling the absence of chemically reactive species. They mentioned that the unsteadiness parameter boosts the transport of heat.…”

Section: Introductionmentioning

confidence: 99%

Application of double diffusion theories to Maxwell nanofluid under the appliance of thermal radiation and gyrotactic microorganism

Sohail

Naz

Raza

2019

MMMS

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Purpose The purpose of this paper is to address the entropy analysis of the 3D flow of Maxwell nanofluid containing gyrotactic microorganism in the presence of homogeneous–heterogeneous reactions with improved heat conduction and mass diffusion models over a stretched surface. Improved models are supported out by utilizing Cattaneo–Christov heat flux and generalized Fick’s law, respectively. Design/methodology/approach Governing equations which present the given flow phenomenon are modeled in the form of PDEs by applying boundary layer analysis and then suitable makeovers are engaged to transfigure prevailing partial differential equations into a set of ordinary differential equations. Transformed equations are handled via optimal homotopy analysis process in computational tool Mathematica and also a special case of already published work is substantiated and found to be in excellent settlement. Findings The bearing of innumerable convoluted physical parameters on velocity, temperature, concentration, reaction rate, the concentration of motile microorganism and entropy generation are presented and deliberated through graphs. Moreover, the convergence of the homotopic solution is presented in tabular form which confirms the reliability of the proposed scheme. It is perceived that mounting values of the magnetic parameter and Brinkman number boosts the irreversibility analysis and Bejan number diminishes for these parameters. Moreover, the growing values of Prandtl and Schmidt numbers reduce the temperature and concentration fields, respectively. Practical implications The work contained in this paper has applications in a different industry. Originality/value The work contained in this paper is original work and it is good for the researcher in the field of applied mathematics.

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Section: Introductionmentioning

confidence: 99%

Application of double diffusion theories to Maxwell nanofluid under the appliance of thermal radiation and gyrotactic microorganism

Sohail

Naz

Raza

2019

MMMS

View full text Add to dashboard Cite

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Heat transportation phenomena subject to Ellis fluid over a spinning body: A dynamics of trihybrid nanoparticles

Habib,

Salamat,

Ali

et al. 2024

Z Angew Math Mech

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The boosting of base fluid thermal transport is a remarkable significance in the current research era, and numerous types of techniques are being utilized to achieve this goal. The mixture of nanoparticles inside the host fluid is responsible to improve base fluid thermal performance. The modified Buongiorno's nanofluid model is explored in the current study along with the significant trihybrid nanoparticle effect. The fundamental equations of the chosen flow model are transformed using a similarity transformation, and the succeeding equations are then resolved numerically using the discretization of Keller‐Box in MATLAB. The primary velocity profile is directly raised with large values of the Hartman number, unsteady, and Ellis's fluid parameters, while an inverse curves trend is reported in secondary velocity. The primary speed of fluid is significantly greater compared to di and mono‐hybrid cases, and this study reveals that optimal thermal transport is achieved against tri‐hybrid cases. The tri‐hybrid model has 9% improvement in Nusselt number when compared to single and two‐type nanoparticle fluid models.

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Local Similar Solution of Magnetized Hybrid Nanofluid Flow Due to Exponentially Stretching/Shrinking Sheet

Farooq,

Waqas,

Bariq

et al. 2024

BioNanoSci.

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Dynamics of nonuniform viscosity of unsteady CuO–H₂O nanofluid flow from a spinning body

Cited by 6 publications

References 32 publications

Application of double diffusion theories to Maxwell nanofluid under the appliance of thermal radiation and gyrotactic microorganism

Application of double diffusion theories to Maxwell nanofluid under the appliance of thermal radiation and gyrotactic microorganism

Heat transportation phenomena subject to Ellis fluid over a spinning body: A dynamics of trihybrid nanoparticles

Local Similar Solution of Magnetized Hybrid Nanofluid Flow Due to Exponentially Stretching/Shrinking Sheet

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Dynamics of nonuniform viscosity of unsteady CuO–H2O nanofluid flow from a spinning body

Cited by 6 publications

References 32 publications

Application of double diffusion theories to Maxwell nanofluid under the appliance of thermal radiation and gyrotactic microorganism

Application of double diffusion theories to Maxwell nanofluid under the appliance of thermal radiation and gyrotactic microorganism

Heat transportation phenomena subject to Ellis fluid over a spinning body: A dynamics of trihybrid nanoparticles

Local Similar Solution of Magnetized Hybrid Nanofluid Flow Due to Exponentially Stretching/Shrinking Sheet

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Dynamics of nonuniform viscosity of unsteady CuO–H₂O nanofluid flow from a spinning body