EMPIRICAL MODELS FORLOSSES CALCULATION IN A RECTANGULAR DUCT EQUIPPED BYARTIFICIALROUGHNESS

  • N. CHOUCHANE Civil Engineering, Hydraulics Laboratory , Development Sustainability and Environment (LAR-GHYDE), University of MohamedKhider-Biskra
  • A. MOUMMI Civil Engineering, Hydraulics Laboratory , Development Sustainability and Environment (LAR-GHYDE), University of MohamedKhider-Biskra
  • A. BRIMA Mechanical Engineering Laboratory( LGM), University of Mohamed Khider-Biskra
  • N. MOUMMI Mechanical Engineering Laboratory( LGM), University of Mohamed Khider-Biskra

Résumé

The objective of this work is to find empirical models linking load losses to the geometric characteristics of artificial roughness
called baffles and different modes of provisions of these fluids in the vein of a rectangular channel.
An experimental design was set up to measure the lossesLoadcausedby baffles between the upstream and downstream of the
channel. The experimental measurements made have enabled us to establish empirical relationships to evaluate losses in
accordance with load losses configuration and arrangement of baffles and for different flow regimes.

Références

[1] J.L .Bhagoria, J.S. Saini, S.C. Solanki , Heat transfer
coefficient and friction factor correlations for rectangular
solar air heater duct having transverse wedge shaped rib
roughness on the absorber plate .Renew Energy 2002;25 (3)
:341-69.
[2] R.Karwa ,S.C.Solanki , J.S.Saini, Heat transfer coefficient
and frictin factor correlations for the transient flow regime in
rib –roughened rectangular ducts ,Int .J.Heat Mass Transfer
42 (1999) 1597 -1615.
[3] A.Chaube,P.K.Sahoo,S.C.Solanki , Analysis of heat transfer
augmentation and flow characteristics due to rib roug hness
over obserber plate of a solar air heater .Renew Energy
2006 ;(3) m317 -31 .
[4] Apura Layek , J.S.Saini ,S.C.Solanki , Heat transfer and
friction characteristics for artificially roughened ducts with
compound turbulators .I.J.of heat and Mass Transfer 50
(2007) 4845 -4854.
[5] D.Cavallero , G.Tanda , An experimental investigation of
forced convection heat transfer in channels with rib
turbulators by means of liquid crystal thermography .
Experimental Thermal and Fluid Science 26 (2002) 115 -121.
[6] G.Tanda, Heat transfer in rectangular channels with
transverse and V-shaped broken ribs. I.J.of heat and Mass
Transfer 47 (2004) 229 -243.
[7] A.R.Jauker, J.S.Saini, B.K.Gandhi, Heat transfer and friction
characteristics of rectangular solar air heater duct using –
grooved artificial roughness .Solar Energy; 80(8) m895-907.
[8] B.N.Prasad , J.S.Saini, effect of artificial roughness on heat
transfer and friction factor in a solar air heater , Solar Energy
41 ( 1988) 555 -560 .
[9] S.K.Verrma,*, B.N. Prasad. Investigation for the optimal
thermohydraulic performance of artificially roughened solar
air heaters. Renewable Energy Vol.20 pp.19-36. (2000).
[10] M.Carlier, Hydraulique Générale et Appliquée, Edition
Eyrolles Paris 1986.
[11] B.B.Prasad et J.S.Saini, Optimal thermohydrolic
performance of artificially roughned solar air heating, Solar
Energy Vol.47, N°2, pp.91-96 (1991).
[12] B.B.Prasad et J.S.Saini, Effect of artificial roughness on heat
transfer and friction factor in solar air-heaters, Solar Energy
Vol.41, N°6. pp.505-560 (1980).
[13] A.Moummi, Etude globale et locale du rôle de la géométrie
dans l'optimisation des capteurs solaires plans à air, Thèse
de doctorat, Université de Valenciennes, France 1994.
[14] N.Chouchane, Modélisation des pertes de charge dans
un conduit rectangulaire garni de rugosités artificielles
avec une partie supérieure inclinée, Mémoire de
Magister, Université de Biskra, Algérie 2003.
[15] Webb RL. Air-side heat transfer correlations for flat
and wavy plate fin-and-tube geometries. ASHRAE
Transaction Vol.96 (2) pp.445-449. (1990)
[16] Chi-Chuan Wang et Young-Ming Hwang. Corrélations
empiriques relatives au transfert de chaleur et aux
pertes par frottement pour des échangeurs à tubes
ailettes, avec ailettes ondulées. International Journal of
Refrigeration Vol.25 pp.673-680. (2002)
[17] Mohamed Mahfoud, Salah Benhadid, Michel
Lebouché. Frottements et pertes de charge des fluides
viscoélastiques dans des conduites rectangulaires. Heat
and Mass transfer 17 February 2006.
[18] C.C.Wanga,J-Y, Jang, N.F-Chioub. A heat transfer
and friction correlation for wavy_and tube heat
exchangers. International Journal of Heat and Mass
Transfer Vol.42 pp.1919-1924.(1999)
[19] Dong Junqi , Chen Jiangping, Chen Zhijiu, Zhou
Yimin, Zhang Wenfeng. Heat transfer and pressure
drop correlations for the wavy fin and flat tube heat
exchangers. Applied Thermal Engineering Vol.27
2066-2073. (2007).
[20] Apura Layek , J.S.Saini ,S.C.Solanki , Effect of
chamfering on heat transfer and friction charateristics
of solar air heatet having absorber plate roughened
with compound turbulators .Renewable Energy 34
(2009) 1292 -1298
Comment citer
CHOUCHANE, N. et al. EMPIRICAL MODELS FORLOSSES CALCULATION IN A RECTANGULAR DUCT EQUIPPED BYARTIFICIALROUGHNESS. Courrier du Savoir, [S.l.], v. 13, mai 2014. ISSN 1112-3338. Disponible à l'adresse : >https://revues.univ-biskra.dz/index.php/cds/article/view/426>. Date de consultation : 22 déc. 2024
Rubrique
Articles