Towards numerical computation of double-diffusive natural convection within an eccentric horizontal cylindrical annulus

Ghernoug, C.; Djezzar, Mahfoud; Naji, Hassane; Bouras, Abdelkarim

doi:10.1108/hff-10-2014-0330

Cited by 9 publications

(3 citation statements)

References 32 publications

(23 reference statements)

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“…The physical model of the DDNC system that conveys its intricate operation is of particular importance to researchers. Ghernoug et al (2016) performed a numerical simulation on the DDNC inside a horizontal tubal ring. Magnetized DDNC in a nanofluid-loaded container with a fluctuating pipe was analyzed by M.…”

Section: Introductionmentioning

confidence: 99%

Second law and thermal analyses of non-Newtonian nanofluid double-diffusive natural convection within a two-hot-baffles-equipped C-shaped domain impacted by magnetic field

Irshad,

Pasha,

Mesfer

et al. 2023

HFF

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Purpose The entropy and thermal behavior analyses of non-Newtonian nanofluid double-diffusive natural convection inside complex domains may captivate a bunch of scholars’ attention because of the potential utilizations that they possess in modern industries, for example, heat exchangers, solar energy collectors and cooling of electronic apparatuses. This study aims to investigate the second law and thermal behavior of non-Newtonian double-diffusive natural convection (DDNC) of Al2O3-H2O nanofluid within a C-shaped cavity emplacing two hot baffles and impacted by a magnetic field. Design/methodology/approach For the governing equations of the complicated and practical system with all considered parameters to be solved via a formidable numerical approach, the finite element method acts as an approach to achieving the desired solution. This method allows us to gain a detailed solution to the studied geometry. Findings This investigation has been executed for the considered parameters of range, such as power-law index, baffle length, Lewis number, buoyancy ratio, Hartmann number and Rayleigh number. The main results reveal that isothermal and concentration lines are significantly more distorted, indicating intensified concentration and temperature distributions because of the growth of baffle length (L). Nuave decreases by 8.4% and 0.8% while it enhances by 49.86% and 33.87%, respectively, because of growth in the L from 0.1 to 0.2 and 0.2 to 0.3. Originality/value Such a comprehensive study on the second law and thermal behavior of DDNC of Al2O3-H2O nanofluid within a C-shaped cavity emplacing two hot baffles and impacted by magnetic field has not yet been carried out.

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Section: Introductionmentioning

confidence: 99%

Second law and thermal analyses of non-Newtonian nanofluid double-diffusive natural convection within a two-hot-baffles-equipped C-shaped domain impacted by magnetic field

Irshad,

Pasha,

Mesfer

et al. 2023

HFF

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“…The problem of natural convection heat transfer in concentric and eccentric cylindrical annuli has been attracted lots of attention due to its wide applications including heat exchangers, thermal storage systems, solar collectors, water distillation and underground Free convection heat transfer 915 electric transmission cables (Garg and Szeri, 1992;Khanafer and Chamkha, 2003;Ghernoug et al, 2016;Mahmoud Aly and Asai, 2016;Afrand et al, 2017;Alipour et al, 2017). However, modifying the heat transfer characteristics in the natural convection flows in the annulus is always sought out due to a large number of applications (Afrand, 2017;Abhilash and Lab, 2018;Zhao et al, 2018;Mashayekhi et al, 2017).…”

Section: Introductionmentioning

confidence: 99%

Free convection heat transfer and entropy generation analysis of water-Fe₃O₄/CNT hybrid nanofluid in a concentric annulus

Shahsavar

Talebizadehsardari

Toghraie

2019

HFF

126

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Purpose This paper aims to numerically investigate the heat transfer and entropy generation characteristics of water-based hybrid nanofluid in natural convection flow inside a concentric horizontal annulus. Design/methodology/approach The hybrid nanofluid is prepared by suspending tetramethylammonium hydroxide-coated Fe3O4 (magnetite) nanoparticles and gum arabic (GA)-coated carbon nanotubes (CNTs) in water. The effects of nanoparticle volume concentration and Rayleigh number on the streamlines, isotherms, average Nusselt number and the thermal, frictional and total entropy generation rates are investigated comprehensively. Findings Results show the advantageous effect of hybrid nanofluid on the average Nusselt number. Furthermore, the study of entropy generation shows the increment of both frictional and thermal entropy generation rates by increasing Fe3O4 and CNT concentrations at various Rayleigh numbers. Increasing Rayleigh number from 103 to 105, at Fe3O4 concentration of 0.9 per cent and CNT concentration of 1.35 per cent, increases the average Nusselt number, thermal entropy generation rate and frictional entropy generation rate by 224.95, 224.65 and 155.25 per cent, respectively. Moreover, increasing the Fe3O4 concentration from 0.5 to 0.9 per cent, at Rayleigh number of 105 and CNT concentration of 1.35 per cent, intensifies the average Nusselt number, thermal entropy generation rate and frictional entropy generation rate by 18.36, 22.78 and 72.7 per cent, respectively. Originality/value To the best knowledge of the authors, there are not any archival publications considering the detailed behaviour of the natural convective heat transfer and entropy generation of hybrid nanofluid in a concentric annulus.

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“…This porous layer surrounded by two elliptic cylinders, isothermal hot surface for the inner wall and isothermal cold surface for the outer wall. Ghernoug et al [12][13] studied numerically the phenomenon of the natural convection, in laminar and permanent in an annular space, situated between two horizontal eccentric cylinders, oriented according to an angle α. They considered in a first case, both cylindrical isothermal walls of the enclosure.…”

Section: Introductionmentioning

confidence: 99%

Natural convective heat transfer from a heated horizontal elliptical cylinder to its coaxial square enclosure

Bouras¹,

Taloub²,

Djezzar³

et al. 2018

MMEP

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A numerical study of the natural convection of laminar heat transfer in the stationary state in a horizontal annular space between a heated square inner cylinder and a cold elliptical outer cylinder was investigated. This annular space is traversed by a Newtonian and incompressible fluid. The Prandtl number is set to 0.71 (air case) for different Rayleigh numbers. The governing equations of the problem were solved numerically by the commercial code Fluent, based on the finite volume method and the Boussinesq approximation. The inner and outer surfaces are isothermal. The study was performed for Rayleigh numbers ranging from 1.3 × 10 3 to 5.5× 10 5. Particularly, we have studied the effects of different thermal Rayleigh numbers on natural phenomenon convection. The results were presented in the form of isotherms, streamlines, and local and average Nusselt numbers. The purpose of this study is to observe the influence of the thermal Rayleigh number on the structure of the flow and distribution of the temperature.

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Towards numerical computation of double-diffusive natural convection within an eccentric horizontal cylindrical annulus

Cited by 9 publications

References 32 publications

Second law and thermal analyses of non-Newtonian nanofluid double-diffusive natural convection within a two-hot-baffles-equipped C-shaped domain impacted by magnetic field

Second law and thermal analyses of non-Newtonian nanofluid double-diffusive natural convection within a two-hot-baffles-equipped C-shaped domain impacted by magnetic field

Free convection heat transfer and entropy generation analysis of water-Fe₃O₄/CNT hybrid nanofluid in a concentric annulus

Natural convective heat transfer from a heated horizontal elliptical cylinder to its coaxial square enclosure

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Towards numerical computation of double-diffusive natural convection within an eccentric horizontal cylindrical annulus

Cited by 9 publications

References 32 publications

Second law and thermal analyses of non-Newtonian nanofluid double-diffusive natural convection within a two-hot-baffles-equipped C-shaped domain impacted by magnetic field

Second law and thermal analyses of non-Newtonian nanofluid double-diffusive natural convection within a two-hot-baffles-equipped C-shaped domain impacted by magnetic field

Free convection heat transfer and entropy generation analysis of water-Fe3O4/CNT hybrid nanofluid in a concentric annulus

Natural convective heat transfer from a heated horizontal elliptical cylinder to its coaxial square enclosure

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Free convection heat transfer and entropy generation analysis of water-Fe₃O₄/CNT hybrid nanofluid in a concentric annulus