Numerical treatment for Casson liquid flow in a microchannel due to porous medium: A hybrid nanoparticles aspects

Manohar, G R; Venkatesh, Puttaswamy; Gireesha, B.J.; Ramesh, G.

doi:10.1177/09544062211008933

Cited by 2 publications

(3 citation statements)

References 32 publications

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“…Shobha et al 21 examined the mixed convection in a vertically placed channel with the effect of chemical reaction they used the shooting method of Runge–Kutta fourth–order to tackle the flow problem. Casson fluid flow along a microchannel with magnetic effect is considered for the study by Manohar et al 22 and the flow problem is solved using the RK45 numerical method study reports that magnetic field enhances the drag coefficient. Felicita et al 23 considered the third‐grade fluid moving in a vertical microchannel that has the slip and convective boundaries and examined the entropy production in the flow using the Runge–Kutta–Fehlberg method.…”

Section: Introductionmentioning

confidence: 99%

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Entropy generation analysis for mixed convective flow of Casson fluid in a vertical microchannel with the influence of nonlinear radiation by maintaining inconstant viscosity

2022

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The study of entropy generation in the fluid flow has great importance in the field of engineering. The present analysis is to investigate the entropy production in Casson fluid flow in a vertically placed porousfilled microchannel. The flow is influenced by the nonlinear radiation and exponential heat source. Viscosity is kept varying throughout the flow. The equations which govern the considered flow are nonlinear and are nondimensionalized by considering the appropriate nondimensional variables. The flow problem is tackled by converting the ordinary differential equation (ODE) by assigning the new variables.The flow problem is tackled by using the effective mechanism which involves the finite difference technique by converting the equations into a set of firstorder ODE. The results attained are discussed using the graphs. It is noted that by maintaining the lesser values for the Casson parameter and mixed convection parameter, entropy production can be reduced. The Bejan number profile has the highest magnitude for the variation of mixed convection parameter and the same is found to be less for the nonlinear radiation parameter.

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Section: Introductionmentioning

confidence: 99%

“…22 display the impact of viscosity variation on the thermal profile, entropy generation, and Bejan number. An increase in viscosity gradient leads to amplifying the viscous heating.…”

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confidence: 99%

Entropy generation analysis for mixed convective flow of Casson fluid in a vertical microchannel with the influence of nonlinear radiation by maintaining inconstant viscosity

2022

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“…Further, Jasim et al 13 examined the convective energy transmission of HNF in a static/ revolving cylinder. Puneeth et al 14 and Manohar et al 15 discussed the mixed nanoliquid flow above a stretching/micro-channel. Recent developments in augmenting the thermal transmission capacities can be found in Ref.…”

Section: Introductionmentioning

confidence: 99%

Transpiration effect on Falkner-Skan bioconvective mixed nanoliquid flow above a poignant wedge

Sandeep

Nanda

Ashwinkumar

2022

Proceedings of the Institution of Mechanical Engineers, Part C:

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Numerical computations are executed to investigate the consequence of the Buongiorno slip mechanism and radiative heat on gyrotactic microorganisms containing Casson cross nanoliquid flow across a moving wedge. The mixed nanofluid comprises magnesium and copper oxide (MgO and CuO) nanoparticles pondered in water. The bioconvection Falkner-Skan flow governing equations are resolved using the BVP5C Matlab package. Simultaneous solutions are drawn for suction and injection cases. Plots illustrate the effect of pertinent physical factors on flow, thermal, diffusion, and motile organism density. The wall friction, energy rate, and mass transmission are interpreted via tables. The outcomes reveal that the consequence of embedded features on the bioconvective mixed nanoliquid stream are substantial in the suction case as matched with injection case. The deposition of MgO and CuO nanomaterials raises the heat transmission of the base liquid to a more significant level. Further, the Buongiorno slip mechanism parameter intensifies the thermal outlines and decays the energy transport rate for suction/injection cases. The major applications of current investigation can be found in geothermal energy systems.

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Numerical treatment for Casson liquid flow in a microchannel due to porous medium: A hybrid nanoparticles aspects

Cited by 2 publications

References 32 publications

Entropy generation analysis for mixed convective flow of Casson fluid in a vertical microchannel with the influence of nonlinear radiation by maintaining inconstant viscosity

Entropy generation analysis for mixed convective flow of Casson fluid in a vertical microchannel with the influence of nonlinear radiation by maintaining inconstant viscosity

Transpiration effect on Falkner-Skan bioconvective mixed nanoliquid flow above a poignant wedge

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