This experimental and analytical study focuses on the formation of banded condensate films on a horizontal tube, when the ammonia mass fraction of the vapor is less than 0.0126. The experimental results show that there is a step change in the heat transfer coefficient when a banded film is formed. This change develops when the vapor mass fraction is approximately 0.004 and the heat transfer coefficient at the end of the change is 15% greater than the value expected for steam. The banded films are initiated at the base of the tube; midway between the regions where droplets detach. Photographs taken during the tests show that the development starts with the formation of a single band; when this band is complete, secondary bands are formed on either side and then further bands are added until the complete tube surface is covered with a banded film. The reason for the delay in the formation of the bands is examined using a simple two-dimensional force balance. The success of this examination provides an insight to the mechanisms employed in the formation of banded films.

Issue Section:
Evaporation, Boiling, and Condensation
Keywords:
ammonia, drops, film condensation, gas mixtures, heat transfer, liquid films, water, binary condensation, ammonia–water mixtures, Marangoni instabilities
Topics:
Condensation, Condensed matter, Vapors, Water, Heat transfer, Heat transfer coefficients, Temperature, Surface tension

References

1.
Sparrow
,
E. W.
, and
Marschall
,
E.
, 1969, “
Binary Gravity-Flow Film Condensation
,”
ASME J. Heat Tranfer
,
91
, pp.
205
211
.
Crossref
Search ADS
 
2.
Stephan
,
K.
, 1992,
Heat Transfer in Condensation and Boiling
,
Springer Verlag
,
Berlin
.
3.
Mirkovich
,
V. V.
, and
Missen
,
R. W.
, 1961, “
Non-filmwise Condensation of Binary Vapors of Miscible Liquids
,”
Can. J. Chem. Eng.
,
39
, pp.
86
87
.
Crossref
Search ADS
 
4.
Mirkovich
,
V. V.
, and
Missen
,
R. W.
, 1963, “
A Study of the Condensation of Binary Vapors of Miscible Liquids. Part 2: Heat Transfer Coefficients for Filmwise and Non-filmwise Condensation
,”
Can. J. Chem. Eng.
,
41
, pp.
73
78
.
5.
Tamir
,
A.
, 1979, “
Mixed Pattern Condensation of Multi-Component Mixtures
,”
Chem. Eng. J.
,
17
, pp.
141
156
.
Crossref
Search ADS
 
6.
Ford
,
J. D.
, and
Missen
,
R. W.
, 1968, “
On the Conditions for Stability of Falling Films Subject to Surface Tension Disturbances; The Condensation of Binary Vapors
,”
Can. J. Chem. Eng.
,
46
, pp.
309
312
.
Crossref
Search ADS
 
7.
Ford
,
J. D.
, and
McAleer
,
J. E.
, 1971, “
Non-Filmwise Condensation of Binary Vapors: Mechanism and Droplet Sizes
,”
Can. J. Chem. Eng.
,
49
, pp.
157
158
.
Crossref
Search ADS
 
8.
Goto
,
M.
, and
Fujii
,
T.
, 1982, “
Film Condensation of Binary Refrigerant Vapors on a Horizontal Tube
,”
Proceedings of the 7th International Heat Transfer Conference
,
U.
Grigull
 et al., eds.,
Hemisphere, Washington, DC
, Vol.
5
, pp.
71
76
.
9.
Fujii
,
T.
,
Koyama
,
S.
,
Simizu
,
Y.
,
Watabe
,
M.
, and
Nakamura
,
Y.
, 1989, “
Gravity Controlled Condensation of an Ethanol and Water Mixture on a Horizontal Tube
,”
JSME
,
55
, pp.
210
215
.
Crossref
Search ADS
 
10.
Fujii
,
T.
,
Koyama
,
S.
,
Ndiwalana
,
N. M.
, and
Nakamura
,
Y.
, 1990, “
Experimental Study of Gravity Controlled Condensation of Binary Vapor Mixtures on a Smooth Horizontal Tube
,”
Proceedings of the 9th International Heat Transfer Conference
,
G.
Hestroni
 et al., eds.,
Hemisphere, Washington, DC
, Vol.
3
, pp.
109
114
.
11.
Goto
,
M.
,
Kojima
,
M.
,
Kashiwagi
,
T.
,
Koyama
,
S.
, and
Fujii
,
T.
, 1994, “
Free-Convection Condensation of an Ammonia/Water Vapor Mixture on a Horizontal Smooth Tube
,”
Heat Transfer-Jpn. Res.
,
23
(
7
), pp.
627
644
.
12.
Utaka
,
Y.
, and
Terachi
,
N.
, 1995, “
Measurement of Condensation Characteristic Curves for Binary Mixture of Steam and Ethanol Vapor
,”
Heat Transfer-Jpn. Res.
,
24
(
1
), pp.
57
67
.
13.
Morrison
,
J. N. A.
, and
Deans
,
J.
, 1997, “
Augmentation of Steam Condensation Heat Transfer by Addition of Ammonia
,”
Int. J. Heat Mass Transfer
,
40
, pp.
765
772
.
Crossref
Search ADS
 
14.
Philpott
,
C.
, and
Deans
,
J.
, 2004, “
Condensation Of Ammonia-Water Mixtures In A Horizontal Shell And Tube Condenser
,”
ASME J. Heat Tranfer
,
126
(
4
), pp
527
534
.
Crossref
Search ADS
 
15.
Morrison
,
J. N. A.
,
Philpott
,
C.
, and
Deans
,
J.
, 1998, “
Augmentation of Steam Condensation Heat Transfer by Addition of Methylamine
,”
Int. J. Heat Mass Transfer
,
41
, pp.
3679
3683
.
Crossref
Search ADS
 
16.
Murase
,
T.
,
Wang
,
H. S.
, and
Rose
,
J. W.
, 2007, “
Marangoni Condensation of Steam—Ethanol Mixtures on a Horizontal Tube
,”
Int. J. Heat Mass Transfer
,
50
, pp.
3774
3779
.
Crossref
Search ADS
 
17.
Morrison
,
J. N. A.
, 1996, “
The Condensation of Ammonia-Water Vapours on a Horizontal Tube
,”
Ph. D. thesis
,
University of Auckland
,
Auckland, New Zealand
.
18.
Philpott
,
C.
, 2003, “
The Condensation of Ammonia-Water Mixtures in Horizontal Shell and Tube Condenser
,” Ph. D. thesis, University of Auckland, Auckland, New Zealand.
19.
Fujii
,
T.
, 1992, “
Overlooked Factors and Unsolved Problems in Experimental Research on Condensation Heat Transfer
,”
Exp. Therm. Fluid Sci.
,
5
, pp.
652
663
.
Crossref
Search ADS
 
20.
Rose
,
J. W.
, 1997,
International Encyclopedia of Heat and Mass Transfer
,
G. F.
Hewitt
,
G. L.
Shires
, and
Y. V.
Polezhaev
, eds.,
CRC
,
Boca Raton, FL
, pp.
202
203
.
21.
Morrison
,
J. N. A.
,
Deans
,
J.
, and
McFeaters
,
J.
, 1998, “
Condensation of Steam on a Thick Walled Horizontal Tube
,”
Heat Transfer Eng.
,
19
(
1
), pp.
17
24
.
Crossref
Search ADS
 
22.
IAPWS
, 1994, “
Release on Surface Tension of Ordinary Water Substance
,”
International Association for the Properties of Water and Steam
,
London
.
23.
King
,
H. H.
,
Hall
,
J. L.
, and
Ware
,
G. C.
, 1930, “
A Study of the Density, Surface Tension and Adsorption in the Water Ammonia System at 20°C
,”
J. Am. Chem. Soc.
,
52
, pp.
5128
5135
.
Crossref
Search ADS
 
24.
McDuffie
,
N. G.
, 2001, “
Ammonia Adsorption at the Aqueous Interface
,”
Langmuir
,
17
, pp.
5711
5713
.
Crossref
Search ADS
 
25.
Conde
,
M. R.
, 2006, “
Thermo-Physical Properties of {NH3 + H2O} Mixtures for Industrial Design of Absorption Refrigeration Equipment
,”
M. Conde Engineering, Zurich
.
26.
Figueiredo
,
J. R.
,
Fernandes
,
B. L.
, and
Silverio
,
R. J. R.
, 2006, “
Non-equilibrium Modeling of an Ammonia-Water Rectifying Column via Fundamental Thermodynamic and Transport Relations
,”
Braz. J. Chem. Eng.
,
23
(
4
), pp.
539
553
.
27.
Lemmon
,
E. W.
,
Huber
,
M. L.
, and
McLinden
,
M. O.
, 2007,
NIST Standard Reference Database 23: Reference Fluid Thermodynamic and Transport Properties-REFPROP, Version 8.0
,
National Institute of Standards and Technology, Standard Reference Data Program, Gaithersburg
.
28.
Navascues
,
G.
, 1979, “
Liquid Surfaces: Theory of Surface Tension
,”
Rep. Prog. Phys.
,
42
, pp.
1131
1183
.
Crossref
Search ADS
 
29.
Guyon
,
E.
,
Hulin
,
J -P.
,
Petit
,
L.
, and
Mitescu
,
C. D.
, 2001,
Physical Hydrodynamics
,
Oxford University
,
Oxford
, pp.
160
163
.
30.
Yung
,
D.
,
Lorenz
,
J. J.
, and
Ganic
,
E. N.
, 1980, “
Vapor/liquid Interaction and Entrainment in Falling Film Evaporators
,”
ASME J. Heat Transfer
,
102
, pp.
20
25
.
Crossref
Search ADS
 
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