Height Partition Effect on Combined Mixed Convection and Surface Radiation in a Vented Rectangular Cavity

A. Bahlaoui; A. Raji; M. Hasnaoui; C. Ouardi; M. Naïmi; T. Makayssi

Height Partition Effect on Combined Mixed Convection and Surface Radiation in a Vented Rectangular Cavity

Publish place: Journal of Applied Fluid Mechanics، Vol: 4، Issue: 1

Publish Year: 1391

Type: Journal paper

Language: English

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Link to this Paper:

https://civilica.com/doc/1383125

Document National Code:

JR_JAFM-4-1_010

Index date: 22 January 2022

Height Partition Effect on Combined Mixed Convection and Surface Radiation in a Vented Rectangular Cavity abstract

The present paper reports numerical results of mixed convection and surface radiation within a horizontal ventilated cavity heated from below and provided with an adiabatic thin partition on the heated surface. Air, a radiatively transparent medium, is considered to be the cooling fluid. The effect of the governing parameters, which are the Reynolds number, 200 Re 5000, the relative height of the baffle, 0 Hb 0.75, and the emissivity of the walls, 0 1, on the fluid flow and heat transfer characteristics is studied in detail. The maximum and mean temperatures, the ratio, QE/QL, of the heat quantities leaving the cavity through the exit, QE, and through the left vertical cold side, QL, are also presented versus the above controlling parameters.

Height Partition Effect on Combined Mixed Convection and Surface Radiation in a Vented Rectangular Cavity Keywords:

Mixed convection , ventilated cavity , Surface radiation , Numerical study , adiabatic partition

Height Partition Effect on Combined Mixed Convection and Surface Radiation in a Vented Rectangular Cavity authors

A. Bahlaoui

Sultan Moulay Slimane University, Polydisciplinary Faculty, Physics Department, Interdisciplinary Laboratory of Research in Sciences and Technologies (LIRST), B. P. ۵۲۳, Béni-Mellal ۲۳۰۰۰, Morocco

A. Raji

Sultan Moulay Slimane University, Faculty of Sciences and Technologies, Physics Department, Laboratory of Flows and Transfers Modelling (LAMET), B. P. ۵۲۳, Béni-Mellal ۲۳۰۰۰, Morocco

M. Hasnaoui

Cadi Ayyad University, Faculty of Sciences Semlalia, Physics Department, Laboratory of Fluid Mechanics and Energetics (LMFE), B.P. ۲۳۹۰, Marrakech, Morocco

C. Ouardi

Sultan Moulay Slimane University, Faculty of Sciences and Technologies, Physics Department, Laboratory of Flows and Transfers Modelling (LAMET), B. P. ۵۲۳, Béni-Mellal ۲۳۰۰۰, Morocco

M. Naïmi

Sultan Moulay Slimane University, Faculty of Sciences and Technologies, Physics Department, Laboratory of Flows and Transfers Modelling (LAMET), B. P. ۵۲۳, Béni-Mellal ۲۳۰۰۰, Morocco

T. Makayssi

Sultan Moulay Slimane University, Faculty of Sciences and Technologies, Physics Department, Laboratory of Flows and Transfers Modelling (LAMET), B. P. ۵۲۳, Béni-Mellal ۲۳۰۰۰, Morocco