2021
DOI: 10.2514/1.t6037
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Enhanced Mixed Convection in a Vertical Channel by Addition of Staggered Inclined Baffles

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Cited by 9 publications
(3 citation statements)
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“…Numerical studies of convection in turbulent flows, in the most diverse applications, are strongly represented by the works of Shirvan et al (2016) with double pipe heat exchanger filled with porous media; Shirvan et al (2017) with solar cavity receiver with heat transfer by natural convection and radiation combined; Akbarzadeh et al (2018) with corrugated solar heaters of triangular and sinusoidal wall profiles and irreversibilities and multi-phase nanofluid flows; Mishra et al (2019) in the study of natural convection in generalized Newtonian fluids (power law and Bingham plastic) in an isothermal vertical cone; Hassan et al (2019) in the study of the flow of viscoelastic nanofluid under the influence of nanoparticles of different materials past around a vertical cone; Khan et al (2020) in the study of the effect of 2D Darcy-Forchheimer flow over second-grade fluid with linear stretching, using convective boundary conditions; Souayeh et al (2020) in the study of natural convection and entropy generation around a sphere within cuboidal enclosure; Elelamy et al (2020) in the investigation of a mathematical numeric model of study, where the blood flow of magnetohydrodynamics non-Newtonian nanofluid with heat transfer and slip effects is applied to bacterial growth in a heart valve; Majeed et al (2020) in the numerical study of the activation energy of chemically reactive heat transfer unsteady flow with multiple slips; Dash and Dash (2020) in a horizontal cylinder suspended in the air with combined heat transfer by natural convection and radiation; and Henniche and Korichi (2020) in the use of software OpenFOAMV R in the modeling and study of heat transfer by enhanced mixed convection in a vertical channels with the addition of staggered inclined baffles.…”
Section: Parameters In Turbulent Simulationsmentioning
confidence: 99%
“…Numerical studies of convection in turbulent flows, in the most diverse applications, are strongly represented by the works of Shirvan et al (2016) with double pipe heat exchanger filled with porous media; Shirvan et al (2017) with solar cavity receiver with heat transfer by natural convection and radiation combined; Akbarzadeh et al (2018) with corrugated solar heaters of triangular and sinusoidal wall profiles and irreversibilities and multi-phase nanofluid flows; Mishra et al (2019) in the study of natural convection in generalized Newtonian fluids (power law and Bingham plastic) in an isothermal vertical cone; Hassan et al (2019) in the study of the flow of viscoelastic nanofluid under the influence of nanoparticles of different materials past around a vertical cone; Khan et al (2020) in the study of the effect of 2D Darcy-Forchheimer flow over second-grade fluid with linear stretching, using convective boundary conditions; Souayeh et al (2020) in the study of natural convection and entropy generation around a sphere within cuboidal enclosure; Elelamy et al (2020) in the investigation of a mathematical numeric model of study, where the blood flow of magnetohydrodynamics non-Newtonian nanofluid with heat transfer and slip effects is applied to bacterial growth in a heart valve; Majeed et al (2020) in the numerical study of the activation energy of chemically reactive heat transfer unsteady flow with multiple slips; Dash and Dash (2020) in a horizontal cylinder suspended in the air with combined heat transfer by natural convection and radiation; and Henniche and Korichi (2020) in the use of software OpenFOAMV R in the modeling and study of heat transfer by enhanced mixed convection in a vertical channels with the addition of staggered inclined baffles.…”
Section: Parameters In Turbulent Simulationsmentioning
confidence: 99%
“…The state of the art of natural convection numerical studies, in the most diverse applications and methodologies of modeling and solution, is broadly represented by the references (Salari et al , 2017) in the three-dimensional study of turbulent/transitional natural convection with different turbulence/transition models in trapezoidal enclosures (Dash and Dash, 2020). In the analysis of conjugate heat transfer by natural convection and thermal radiation in a horizontal cylinder that is suspended in the air; (Lukose and Basak, 2020) in the study of natural convection through the Galerkin finite element method in nine different shapes of containers, with the same surface area and identical isothermal heat input at the bottom wall; (Henniche and Korichi, 2020) in the study and numerical simulation (using the software OpenFOAM®) of enhanced mixed convection heat transfer in a vertical channel with staggered inclined baffles; Raizah (2020) in the application of the ISPH method for the study of natural convection with copper-water nanofluid inside cavities with cross blades or circular cylinder cylinder; Alshomrani et al (2020) in the three-dimensional study of the influence of different locations of cooler and the tilting angles of a cavity on natural convection heat transfer in a laminar regime; Aghighi et al (2020) in obtaining solutions, through the Galerkin’s weighted residual finite element method, of the natural convection of Casson fluid in a square enclosure, under conditions of differentially heated side walls; Sasidharan and Dutta (2020) in the study of the thermal performance of a hybrid tubular and cavity solar thermal receiver; Ullah et al (2021) in the two-dimensional study of natural convection of micropolar nanofluid in a rectangular vertical container, heated on the lower wall to generate the internal flow; Lukose and Basak (2021) in the extensive literature review on the mixed convection and the proposition of 10 unified models in different physical–numerical conditions; and Nishad et al (2021) in the two-dimensional study of natural convection inside a wavy enclosure with Cu-water nanofluid under magnetic field and using the element-free Galerkin method (EFGM) with parallel algorithm.…”
Section: Introductionmentioning
confidence: 99%
“…Their findings suggest that the best nanofluid configuration that yields the highest transfer performance is characterized by a lower aspect ratio, a lower magnetic field and a heat source placed at the end of the undermost wall. Through numerical investigation, Henniche and Korichi (2020) explored the improvement of heat transfer and unsteady mixed convective flow in a vertical channel by addition of an inclined baffles arranged in staggered manner. The heat transfer enhancement has been evaluated for both steady-state fluid flow and unsteady, selfsustaining flow under the influence of buoyancy.…”
Section: Hff 342mentioning
confidence: 99%