Irreversibility analysis of micropolar nanofluid flow using Darcy–Forchheimer rule in an inclined microchannel with multiple slip effects

Gireesha, B.J.; Anitha, L.

doi:10.1002/htj.22571

Cited by 11 publications

(2 citation statements)

References 46 publications

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“…Amit et al [11] carried out a numerical study of conjugated heat transfer to propose a microsink with a disruptive structure in a rectangular channel to maximize the thermal performance and reduce the entropy generation. Gireesha and Anitha [12] looked into the repercussion of irreversibility analysis of the micropolar liquid flowing in an inclined channel when exhibits nonlinear radiation in the existence of a magnetic force.…”

Section: Introductionmentioning

confidence: 99%

Irreversibility analysis of tangent hyperbolic fluid flow in a microchannel: a hybrid nanoparticles aspects

Anitha¹,

Gireesha

Keerthi

2023

Phys. Scr.

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The tangent hyperbolic fluid model is interesting models in all the non-Newtonian fluid model, which is developed for particular applications in chemical engineering systems such as polymer solution, ceramic processing, fluid beds and oil recovery. Hence the intent of the present study is to explore the flow and thermal behavior of tangent hyperbolic fluid flowing through an upright microchannel. In the analysis, water and ethylene glycol are the base fluid with titanium and copper nanoparticles considered. The combined impact of nonlinear thermal radiation, no slip, buoyancy force, and Newton boundary condition on the thermal performance are studied, and further the skin friction and Nusselt number are examined. The thermal dependent heat source effect was also taken into account. The governing equations were solved numerically by employing Runge-Kutta Fehlberg’s fourth-fifth order. The impact of the pertinent constraint on the Nusselt number, thermal field, flow field, skin friction, Bejan number, and entropy generation are depicted graphically and examined. Entropy generation rises by 15% when ethylene glycol is a base fluid and 12% when the water a base fluid, with an enhancement of the Brinkman number by 200%. The outturn entrenched that the heat transfer rate in water-based hybrid nanofluid is more remarkable when compared with the heat transfer rate of EG-based hybrid nanofluid. It is noted that the significant increment in Nusselt number has been attained through a rise in the Weissenberg number and power law index.

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Section: Introductionmentioning

confidence: 99%

Irreversibility analysis of tangent hyperbolic fluid flow in a microchannel: a hybrid nanoparticles aspects

Anitha¹,

Gireesha

Keerthi

2023

Phys. Scr.

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“…Mahabaleshwar et al [33] examine the flow of an inclined MHD micropolar fluid in the presence of mass transpiration and thermal radiation. More recent studies on this subject are referred to in [34][35][36].…”

Section: Introductionmentioning

confidence: 99%

Effectiveness of Radiation on Magneto-Combined Convective Boundary Layer Flow in Polar Nanofluid around a Spherical Shape

et al. 2022

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Many physical aspects emerging from the local structure and micromotions of liquid particles can be studied by utilizing the governing model of micropolar liquid. It has the ability to explain the behavior of a wide range of real fluids, including polymeric solutions, liquid crystals, lubricants, and animal blood. This earned it a major role in the treatment of many industrial and engineering applications. Radiative heat transmission induced by a combined convection flow of micropolar fluid over a solid sphere, and its enhancement via nanoparticle oxides, are investigated in this study. An applied magnetic field and a constant wall temperature are also considered. The Tiwari–Das model is used to construct the mathematical model. An approximate numerical solution is included using the Keller box method, in which its numerical calculations are performed via MATLAB software, to obtain numerical results and graphic outputs reflecting the effects of critical parameters on the physical quantities associated with heat transfer. The investigation results point out that a weakness in the intensity of the magnetic field, or an increment in the nanoparticle volume fraction, causes an increment in velocity. Raising the radiation parameter promotes energy transport, angular velocity, and velocity.

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Repercussion of Hall effect and nonlinear radiation on Couette-Poiseuille flow of Casson-Williamson fluid through upright microchannel

Gireesha

Anitha

2022

Appl. Math. Mech.-Engl. Ed.

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Irreversibility analysis of micropolar nanofluid flow using Darcy–Forchheimer rule in an inclined microchannel with multiple slip effects

Cited by 11 publications

References 46 publications

Irreversibility analysis of tangent hyperbolic fluid flow in a microchannel: a hybrid nanoparticles aspects

Irreversibility analysis of tangent hyperbolic fluid flow in a microchannel: a hybrid nanoparticles aspects

Effectiveness of Radiation on Magneto-Combined Convective Boundary Layer Flow in Polar Nanofluid around a Spherical Shape

Repercussion of Hall effect and nonlinear radiation on Couette-Poiseuille flow of Casson-Williamson fluid through upright microchannel

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