An experimental device was designed to perform the thermal and dynamic study of natural convection airflow in an open vertical channel. The two side walls of the vertical channel are made of Plexiglas allowing the visualization of the flow via the particle image velocimetry (PIV) method. For the two other vertical walls, one is heated at a constant temperature, and the other is insulated with a 9-cm thick polystyrene insulation. The dynamic characterization of convection is carried out by nonintrusive measurements (PIV), and thermal phenomena are analyzed using nonintrusive heat flux instrumentation (simultaneous temperature and velocity measurements have been carried out across the channel at different elevations). Moreover, this study deals with the influence of the Rayleigh number on the measured vertical velocity profiles as well as the thermal flux densities recorded along the heated wall. To do this, different values of the modified Rayleigh numbers were considered in the interval with the channel aspect ratio of A = 5 and A = 12.5. The obtained Nusselt number values have been compared successfully with those of the literature. The impacts of the Rayleigh number and the aspect ratio on the velocity profiles and the convective and radiative heat transfer have been examined.
Skip Nav Destination
Article navigation
October 2019
Research-Article
Experimental Analysis of Natural Convection and Flow Visualization in an Asymmetrically Heated Open Vertical Channel
Yassine Cherif,
Yassine Cherif
1
Laboratory of Civil Engineering and Geo-Environment (LGCgE),
F-62400 Béthune,
e-mail: yassine.cherif@univ-artois.fr
University of Artois
,F-62400 Béthune,
France
e-mail: yassine.cherif@univ-artois.fr
1Corresponding authors.
Search for other works by this author on:
Emilio Sassine,
Emilio Sassine
1
Faculty of Sciences,
Laboratory of Applied Physics (LPA),
Beirut,
e-mail: emilio.sassine@ul.edu.lb
Laboratory of Applied Physics (LPA),
Lebanese University
, Fanar Campus,Beirut,
Lebanon
e-mail: emilio.sassine@ul.edu.lb
1Corresponding authors.
Search for other works by this author on:
Laurent Zalewski,
Laurent Zalewski
Laboratory of Civil Engineering and Geo-Environment (LGCgE),
F-62400 Béthune,
e-mail: laurent.zalewski@univ-artois.fr
University of Artois
,F-62400 Béthune,
France
e-mail: laurent.zalewski@univ-artois.fr
Search for other works by this author on:
Kaies Souidi,
Kaies Souidi
Département Chimie, CS20819,
62408 Béthune,
e-mail: kaies.souidi@gmail.com
Université d’Artois, IUT Béthune
,62408 Béthune,
France
e-mail: kaies.souidi@gmail.com
Search for other works by this author on:
Stephane Lassue
Stephane Lassue
Laboratory of Civil Engineering and Geo-Environment (LGCgE),
F-62400 Béthune,
e-mail: stephane.lassue@univ-artois.fr
University of Artois
,F-62400 Béthune,
France
e-mail: stephane.lassue@univ-artois.fr
Search for other works by this author on:
Yassine Cherif
Laboratory of Civil Engineering and Geo-Environment (LGCgE),
F-62400 Béthune,
e-mail: yassine.cherif@univ-artois.fr
University of Artois
,F-62400 Béthune,
France
e-mail: yassine.cherif@univ-artois.fr
Emilio Sassine
Faculty of Sciences,
Laboratory of Applied Physics (LPA),
Beirut,
e-mail: emilio.sassine@ul.edu.lb
Laboratory of Applied Physics (LPA),
Lebanese University
, Fanar Campus,Beirut,
Lebanon
e-mail: emilio.sassine@ul.edu.lb
Laurent Zalewski
Laboratory of Civil Engineering and Geo-Environment (LGCgE),
F-62400 Béthune,
e-mail: laurent.zalewski@univ-artois.fr
University of Artois
,F-62400 Béthune,
France
e-mail: laurent.zalewski@univ-artois.fr
Kaies Souidi
Département Chimie, CS20819,
62408 Béthune,
e-mail: kaies.souidi@gmail.com
Université d’Artois, IUT Béthune
,62408 Béthune,
France
e-mail: kaies.souidi@gmail.com
Stephane Lassue
Laboratory of Civil Engineering and Geo-Environment (LGCgE),
F-62400 Béthune,
e-mail: stephane.lassue@univ-artois.fr
University of Artois
,F-62400 Béthune,
France
e-mail: stephane.lassue@univ-artois.fr
1Corresponding authors.
Contributed by the Heat Transfer Division of ASME for publication in the Journal of Thermal Science and Engineering Applications. Manuscript received October 29, 2018; final manuscript received March 29, 2019; published online July 18, 2019. Assoc. Editor: Sandip Mazumder.
J. Thermal Sci. Eng. Appl. Oct 2019, 11(5): 051020 (9 pages)
Published Online: July 18, 2019
Article history
Received:
October 29, 2018
Revision Received:
March 29, 2019
Accepted:
March 29, 2019
Citation
Cherif, Y., Sassine, E., Zalewski, L., Souidi, K., and Lassue, S. (July 18, 2019). "Experimental Analysis of Natural Convection and Flow Visualization in an Asymmetrically Heated Open Vertical Channel." ASME. J. Thermal Sci. Eng. Appl. October 2019; 11(5): 051020. https://doi.org/10.1115/1.4043533
Download citation file:
Get Email Alerts
Cited By
Research on thermal comfort of human body under localized automotive air conditioning
J. Thermal Sci. Eng. Appl
Temperature Analysis of Waveform Water Channel for High-Power Permanent Magnet Synchronous Motor
J. Thermal Sci. Eng. Appl
Related Articles
An Experimental Study of Free Convection Heat Transfer From an Array of Horizontal Cylinders Parallel to a Vertical Wall
J. Heat Transfer (May,1992)
Effects of Natural Convection on Ice Formation Around an Isothermally Cooled Horizontal Cylinder
J. Heat Transfer (November,1988)
Experimental Investigation of Radiation Effects on Natural Convection in Horizontal Channels Heated From Above
J. Heat Transfer (June,2009)
Free Convection in Antisymmetrically Heated Vertical Channels
J. Heat Transfer (January,2014)
Related Proceedings Papers
Related Chapters
Finite Element Solution of Natural Convection Flow of a Nanofluid along a Vertical Flat Plate with Streamwise Sinusoidal Surface Temperature
International Conference on Computer and Electrical Engineering 4th (ICCEE 2011)
An Analysis of the Feasibility of Photoelectric Technique Applied in Defrost-Control
Inaugural US-EU-China Thermophysics Conference-Renewable Energy 2009 (UECTC 2009 Proceedings)
What Have We Learned About Uncertainty? Are We Still Playing with Fire
Uncertainty in Fire Standards and What to Do About It