A Computational Study of Chaotic Flow and Heat Transfer within a Trapezoidal Cavity

Rahaman, Md. Mahafujur; Bhowmick, Sidhartha; Mondal, Rabindra Nath; Saha, Suvash C.

doi:10.3390/en16135031

Energies

2023

DOI: 10.3390/en16135031

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A Computational Study of Chaotic Flow and Heat Transfer within a Trapezoidal Cavity

Md. Mahafujur Rahaman

Sidhartha Bhowmick

Rabindra Nath Mondal

et al.

Abstract: Numerical findings of natural convection flows in a trapezoidal cavity are reported in this study. This study focuses on the shift from symmetric steady to chaotic flow within the cavity. This cavity has a heated bottom wall, a cooled top wall, and adiabatic inclined sidewalls. The unsteady natural convection flows occurring within the cavity are numerically simulated using the finite volume (FV) method. The fluid used in the study is air, and the calculations are performed for different dimensionless paramete… Show more

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2024

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Cited by 5 publications

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“…Rajesh and Sheremet [18] presented "natural convection on ternary hybrid nanofluid in a differential heated enclosure with non-uniform heating wall". Comprehensive review of nanofluid heat transfer in porous medium, was revealed by Nabwey et al [19], other related study is Rahaman et al [20].…”

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confidence: 99%

Hybrid Nano Fluid Slip Flow Over a Permeable Sheet with Radiative Heat Flux, Variable Thermal Conductivity and Heat Source

Ahmed,

Muhammad,

Ucheri

2024

Phys. Sci. Int. J.

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Purpose: This aims to investigate heat and mass transfer characteristics of hybrid Nano fluid slip flow over a permeable sheet with radiative heat flux, variable thermal conductivity and heat source. Methodology: Formulated Mathematical equations are transformed into self-similar equations using similarity transformation. Boundary value problem solver in MATLAB was used to solve the system of reduced similarity equations. In this study thorough examination was made on flow and heat transfer properties for various values of variable thermal conductivity parameter, thermal radiation and heat source. Validation of the present results with published results are in excellent agreement. Findings: It is noticed that increase in radiative parameter attracts increase in temperature of the fluid at the shrinking region. It indicates that on shrinking region heat absorption take place with increase in value of variable thermal conductivity parameter (ℇ). The velocity of the fluid is appreciated with increase in silver volume fraction and depreciates with increase in velocity slip parameter (P). Increase in velocity slip parameter decreases the local skin friction (P) and local Nusselt number is appreciated by increasing radiation parameter (R).Heat absorption is noticed with increase in variable thermal conductivity, silver volume fraction and heat source/sink parameter (Q). Practical implication: In practice the investigation of effects of hybrid nanofluid flow over a permeable sheet with radiative heat flux, variable thermal conductivity and heat source have real-life and industrial applications, for example manufacturing, cooling electrical devices, biomedical, military etc.

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Hybrid Nano Fluid Slip Flow Over a Permeable Sheet with Radiative Heat Flux, Variable Thermal Conductivity and Heat Source

Ahmed,

Muhammad,

Ucheri

2024

Phys. Sci. Int. J.

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Transition to chaotic flow, bifurcation, and entropy generation analysis inside a stratified trapezoidal enclosure for varying aspect ratio

Rahaman,

Bhowmick,

Saha

et al. 2024

Chinese Journal of Physics

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Simulation of Bingham–Papanastasiou model within trapezoidal cavity with mixed convection effects

Tanveer,

Ashraf

2024

International Journal of Thermofluids

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A Computational Study of Chaotic Flow and Heat Transfer within a Trapezoidal Cavity

Cited by 5 publications

References 50 publications

Hybrid Nano Fluid Slip Flow Over a Permeable Sheet with Radiative Heat Flux, Variable Thermal Conductivity and Heat Source

Hybrid Nano Fluid Slip Flow Over a Permeable Sheet with Radiative Heat Flux, Variable Thermal Conductivity and Heat Source

Transition to chaotic flow, bifurcation, and entropy generation analysis inside a stratified trapezoidal enclosure for varying aspect ratio

Simulation of Bingham–Papanastasiou model within trapezoidal cavity with mixed convection effects

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