Previous work has demonstrated the mechanism of enhanced corrosion in slug flow due to entrained pulses of gas bubbles (Gopal et al., 1997). Corrosion rate measurements have been made at pressures up to 0.79 MPa and temperatures up to 90°C, and it has been shown that the effect of these pulses of bubbles increases with pressure and Froude number. This paper describes mass transfer measurements under multiphase slug and annular flows using the limiting current density technique. The experiments are carried out in a 10-cm-dia pipe using a 0.01-M potassium ferro/ferricyanide solution in 1.3 N sodium hydroxide for the liquid phase and nitrogen in the gas phase. Froude numbers of 4, 6, and 9 in slug flow have been studied, while gas velocities up to 10 m/s are investigated in annular flows. The results show instantaneous peaks in the mass transfer rates corresponding to the pulses of bubbles in slug flow. Instantaneous increases of 10–100 times the average values in multiphase flow are seen. Peaks are also seen in instantaneous mass transfer rates in some annular flows.

1.
Bhongale, S., 1996, “Effect of Pressure, Temperature and Froude Number on Corrosion Rates in Horizontal Multiphase Slug Flow,” MS thesis, Ohio University, Athens, OH.
2.
Campbell
J. A.
, and
Hanratty
T. J.
,
1983
, “
Turbulent Velocity Fluctuations That Control Mass Transfer to a Solid Boundary
,”
AIChE Journal
, Vol.
29
, p.
215
215
.
3.
Chilton
C. H.
, and
Colburn
A. P.
1934
,
Ind. Eng. Chem.
, Vol.
26
, p.
1183
1183
.
4.
Economou
D. J.
and
Alkire
R. C.
,
1985
, “
Two-Phase Mass Transfer in Channel Electrolyzers with Gas-Liquid Flow
,”
Journal of Electrochemical Society
, Vol.
132
, p.
601
601
.
5.
Douglas, J. F., Gasiorek, J. M., and Swaffield, J. A., 1979, Fluid Mechanics, Pitman Publishing Limited, p. 648.
6.
Gopal, M., Kaul, A. and Jepson, W. P. 1995, “Mechanisms Contributing to Enhanced Corrosion in Three Phase Slug Flow in Horizontal Pipes,” CORROSION/95, Paper No. 105.
7.
Gopal
M.
, and
Jepson
W. P.
,
1997
, “
Development of Digital Image Analysis Techniques for the Study of Velocity and Void Profiles in Slug Flow
,”
International Journal of Multiphase Flow
, Vol.
23
, p.
945
945
.
8.
Jepson, W. P. 1987. “The Flow Characteristics in Horizontal Slug Flow,” 3rd International Conference on Multiphase Flow, Paper F2, p. 187.
9.
Landau, U. 1981. “Determination of Laminar and Turbulent Mass Transport Rates in Flow Cells by the Limiting Current Technique,” Ph.D. thesis, Case Western Reserve University, Cleveland, OH.
10.
Maley, L., 1997, “Slug Flow Characteristics and Corrosion Rates in Inclined High Pressure Multiphase Flow Pipes,” M.S. thesis, Ohio University, Athens, OH.
11.
Reiss, L. P., 1962, “Investigation of Turbulence Near a Pipe Wall Using a Diffusion Controlled Electrolytic Reaction on a Circular,” Ph.D. thesis, University of Illinois, Urbana, IL.
12.
Shaw
P. V.
, and
Hanratty
T. J.
,
1964
, “
Fluctuations in the Local Rate of Turbulent Mass Transfer to a Pipe Wall
,”
AIChE Journal
, Vol.
10
, p.
475
475
.
13.
Sirkar
K. K.
, and
Hanratty
T. J.
1970
, “
Relation of Turbulent Mass Transfer to a Wall at High Schmidt Numbers to the Velocity Field
,”
Journal of Fluid Mechanics
, Vol.
44
, p.
589
589
.
14.
Sun, J. Y., and Jepson, W. P., 1992, “Slug Flow Characteristics and Their Effect on Corrosion Rates in Horizontal Oil and Gas Pipelines,” 67th Annual Technical Conference and Exhibition of the Society of Petroleum Engineers, Washington DC, October 4-7, p. 215.
15.
Vieth
W. R.
,
Porter
J. H.
, and
Sherwood
T. K.
1963
, “
Mass Transfer and Chemical Reaction in a Turbulent Boundary Layer
,”
Ind. Eng. Chem. Fundam.
, Vol.
2
, p.
1
1
.
16.
Vuppu, A. K., and Jepson, W. P. 1994 “Study of Sweet Corrosion in Horizontal Multiphase, Carbon Steel Pipelines,” Proceedings, Offshore Technology Conference, p. 265.
17.
Zhang, R., Gopal, M., and Jepson, W. P., 1997, “Development of a Mechanistic Model for Predicting Corrosion Rate in Multiphase Oil/Water/Gas Flows,” CORROSION/97, Paper No. 601.
18.
Zhou, X., 1993, “Experimental Study of Corrosion Rate and Slug Flow Characteristics in Horizontal, Multiphase Pipelines,” M.S. thesis, Ohio University, Athens, OH.
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