Heat transfer analysis of hybrid nano-fluid through porous medium

D, Vidyanadha Babu

doi:10.26524/sajet.2022.12.27

sajet

2022

DOI: 10.26524/sajet.2022.12.27

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Heat transfer analysis of hybrid nano-fluid through porous medium

Vidyanadha Babu D¹

Abstract: The main focus of this paper is to use water based hybrid nanofluid in place of ordinary fluid in porous medium to improve thermal properties. This paper deals with the effect of MHD and chemical reaction on a hybrid nanofluid through porous medium with suction/injection. We also studied the effects of MHD, heat source, suction/injection and chemical reaction influences on a hybrid nanofluid. Two types of nano particles namely copper (Cu) and Aluminum oxide (Al2O3) are suspended in base f… Show more

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2024

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Cited by 2 publications

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Thermal analysis of AIN-Al2O3 Casson hybrid nano fluid flow through porous media with inclusion of slip impact

Afridi,

Srinivas Reddy,

Deepika

et al. 2024

Case Studies in Thermal Engineering

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Thermal analysis of AIN-Al2O3 Casson hybrid nano fluid flow through porous media with inclusion of slip impact

Afridi,

Srinivas Reddy,

Deepika

et al. 2024

Case Studies in Thermal Engineering

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Porous Medium Influenced Dissipative Hybrid Casson Nanofluid Flow Over a Nonlinearly Stretching Sheet Under Inclined Ohmic Lorentz Force Field

Deepika,

Govardhan,

Basha

et al. 2024

Special Topics Rev Porous Media

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The main aim of this numerical analysis is to demonstrate the influence of inclined magnetic field on the hybrid Casson nanofluid flow over a permeable stretching sheet with porous medium and thermal source/sink effects. A novel magnetic Ohmic heating and slip effects are introduced into the boundary conditions to simulate flow behavior accurately. Pertaining to this, the developed nonlinear coupled two-dimensional partial differential equations are rendered dimensionless through appropriate similarity transformations. The produced complex nonlinear boundary value nanofluid problem is solved by deploying a robust matlab-based Runge-Kutta fourth order scheme with shooting technique. The magneto-thermo nanofluid features are discussed through suitable graphical and tabular illustrations by virtue of velocity, temperature and concentration fields within the boundary layer regime. It is recorded from the current investigation that magnifying porous number and nanofluid volume fraction decelerates the velocity field. Enhancing radiation number amplifies the thermal transfer process. Accelerating Lewis number diminish the concentration field. Hybrid nanofluids show higher order thermal performance when compared to the usual nanofluids. Finally, the novelty of the present study is to generalize the former studies by including porous medium, Ohmic heating, heat source/sink, radiation, thermophoresis, and Brownian effects into the respective governing equations. A comparative study with the former results indicates good agreement with the previously published results.

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Heat transfer analysis of hybrid nano-fluid through porous medium

Cited by 2 publications

References 23 publications

Thermal analysis of AIN-Al2O3 Casson hybrid nano fluid flow through porous media with inclusion of slip impact

Thermal analysis of AIN-Al2O3 Casson hybrid nano fluid flow through porous media with inclusion of slip impact

Porous Medium Influenced Dissipative Hybrid Casson Nanofluid Flow Over a Nonlinearly Stretching Sheet Under Inclined Ohmic Lorentz Force Field

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