Abstract

This work deals with the flow of a liquid film condensation on a vertical wall in contact with an anisotropic porous medium, with main axes of permeability noncoincident with the gravitational field. Generalized Darcy's law is used to describe the fluid flow in the porous medium, and boundary layer equations are formulated. The time variable is involved only in the energy equation. The studies concerning isotropic porous medium have been extended to take into account the anisotropic properties of the porous medium, using the flow permeability tensor. Thus, on the basis of Kärman-Pholhausen integral method, the analytical solution of the governing equations of the problem by the similarity method allows the inference of the expressions of the dimensionless thickness of the liquid film, the Nusselt number, and the characteristic limit time of the transition from transient to steady-state.

Issue Section:
Evaporation, Boiling, and Condensation
Keywords:
transient film condensation, anisotropic porous medium, vertical surface, Darcy flow model
Topics:
Anisotropy, Film condensation, Flow (Dynamics), Liquid films, Permeability, Porous materials, Transients (Dynamics), Steady state, Vertical plates, Condensation

References

1.
EL Hammami
,
Y.
,
2010
, “Étude numérique des transferts thermique et massique lors de la condensation d'un mélange en film liquide à l'intérieur d'un tube,”
Thèse de doctorat en Génie des procédés
,
Université Ibn Zohr d'Agadir
.https://thesesenafrique.imist.ma/handle/123456789/1564
2.
Merouani
,
L.
,
2011
, Etude des transferts de chaleur et de masse lors de la condensation en film liquide,
Thèse de doctorat en Sciences
,
Université Mentouri-Constantine
.https://www.thesesalgerie.com/3129259157532643
3.
Nusselt
,
W.
,
1916
, “
The Condensation of Steam on Cooled Surfaces (Traduit Par D. Fullarton)
,”
Z. Des Vereines Deutscher Ingenieure
,
60
(
27
), pp.
541
575
.
4.
Chen
,
S. L.
,
Gerner
,
F. M.
, and
Tien
,
C. L.
,
1987
, “
Film Condensation Correlations
,”
Exp. Heat Transfer
,
1
(
2
), pp.
93
107
.10.1080/08916158708946334
Google Scholar
Crossref
Search ADS
 
5.
Méndez
,
F.
, and
Treviño
,
C.
,
1997
, “
Film Condensation Induced by a Natural Convective Flow: Steady-State Analysis
,”
Int. J. Heat Mass Transfer
,
40
(
6
), pp.
1279
1289
.10.1016/S0017-9310(96)00209-8
Google Scholar
Crossref
Search ADS
 
6.
Cheng
,
P.
,
1981
, “
Film Condensation Along an Inclined Surface in Porous Medium
,”
Int. J. Heat Mass Transfer
,
24
(
6
), pp.
983
990
.10.1016/0017-9310(81)90129-0
Google Scholar
Crossref
Search ADS
 
7.
Liu
,
C. Y.
,
Ismail
,
K. A. R.
, and
Ibinuma
,
C. D.
,
1984
, “
Film Condensation With Lateral Mass Flux About a Body of Arbitrary Shape in a Porous Medium
,”
Int. Comm. Heat Mass Transfer
,
11
(
4
), pp.
377
384
.10.1016/0735-1933(84)90066-6
Google Scholar
Crossref
Search ADS
 
8.
Cheng
,
P.
, and
Chui
,
D. K.
,
1984
, “
Transient Film Condensation on a Vertical Surface in a Porous Medium
,”
Int. J. Heat Mass Transfer
,
27
(
5
), pp.
795
798
.10.1016/0017-9310(84)90149-2
Google Scholar
Crossref
Search ADS
 
9.
Degan
,
G.
,
Vasseur
,
P.
, and
Bilgen
,
E.
,
1995
, “
Convective Heat Transfer in a Vertical Anisotropic Porous Layer
,”
Int. J. Heat Mass Transfer
,
38
(
11
), pp.
1975
1985
.10.1016/0017-9310(94)00330-X
Google Scholar
Crossref
Search ADS
 
10.
Degan
,
G.
,
Sanya
,
A.
, and
Akowanou
,
C.
,
2016
, “
Laminar Film Condensation Along a Vertical Plate Embedded in an Anisotropic Porous Medium With Oblique Principal Axes
,”
Heat Mass Transfer
,
52
(
10
), pp.
2119
2128
.10.1007/s00231-015-1684-2
Google Scholar
Crossref
Search ADS
 
11.
Bejan
,
A.
,
1984
,
Convection Heat Transfer
,
Wiley
, Hoboken, NJ, pp.
146
150
.
12.
Cheng
,
P.
, and
Pop
,
I.
,
1984
, “
Transient Free Convection About a Vertical Flat Plate Embedded in a Porous Media
,”
Int. J. Eng. Sci.
,
22
, pp.
253
264
.10.1016/0020-7225(84)90006-5
13.
Degan
,
G.
,
Akowanou
,
C.
, and
Awanou
,
C. N.
,
2007
, “
Transient Natural Convection of non-Newtonian Fluids About a Vertical Surface Embedded in an Anisotropic Porous Medium
,”
Int. J. Heat Mass Transfer
,
50
(
23–24
), pp.
4629
4639
.10.1016/j.ijheatmasstransfer.2007.03.023
Copyright © 2022 by ASME
You do not currently have access to this content.