The problem of the enhanced axial contaminant dispersion by sinusoidal oscillation of fluid in a cylindrical pipe connected to reservoirs filled with contaminated groundwater involving different concentrations of species has been examined. It is found that the axial contaminant transfer along the pipe can be greatly enhanced by the fluid oscillation, which leads to a rapid removal of contaminants from groundwater and develops a relative low concentration region in the neighborhood of the subsurface collector. The enhanced dispersion coefficients, Deff, of several heavy metal ions and organic compounds with water as carrying fluid were computed, and the results show they are about four to six orders of magnitude larger than those in the absence of fluid oscillation. The operational energy cost is low. For example, by operating the presented U-type enhanced mass pump, whose total cross-section area in one leg is 0.0154 m2, it takes 15 days to extract and remove acetone from a contaminated groundwater body that is 12 m below grade and 10 m3 in volume, such that the acetone concentration can be decreased from 650 mg/l to 325 mg/l (i.e:, 50 percent lower than its original level) and the averaged daily (24 hours) operational energy cost is only 12.6 kJ (1.56 Btu).

Issue Section:
Research Papers
Topics:
Fluid oscillations, Fluids, Groundwater, Heavy metals, Ions, Organic compounds, Oscillations, Pipe flow, Pipes, Pumps, Reservoirs, Water
1.
Bowden
K. F.
,
1965
, “
Horizon Mixing in the Sea Due to Shearing Current
,”
Journal of Fluid Mechanics
, Vol.
21
, p.
84
84
.
2.
Chatwin
P. C.
,
1975
, “
On the Longitudinal Dispersion of Passive Contaminant in Oscillatory Flow in Pipes
,”
Journal of Fluid Mechanics
, Vol.
71
, Part 3, pp.
513
527
.
3.
Harris
H. G.
, and
Goren
S. L.
,
1967
, “
Axial Diffusion in a Cylinder with Pulsed Flow
,”
Chemical Engineering Science
, Vol.
22
, pp.
1571
1576
.
4.
Jaeger
M. J.
, and
Kurzweg
U. H.
,
1983
, “
Determination of the Longitudinal Dispersion Coefficient in Flows Subjected to High Frequency Oscillations
,”
Physics Fluids
, Vol.
26
, No.
6
, pp.
1380
1382
.
5.
Jaeger
M. J.
,
Soepardi
T.
,
Maddahian
A.
, and
Kurzweg
U. H.
,
1991
, “
Diffusional Separation of Gases and Solutes in Oscillatory Flow
,”
Separation Science and Technology
, Vol.
26
, No.
4
, pp.
503
514
.
6.
Jefferis, S., 1991, “Slurry Trench Cut-Offs for Gas and Leachate Control,” in Land Reclamation—An End to Dereliction, M. C. R. Davies, ed., Elsevier Applied Science Publishers, London.
7.
Joshi
C. H.
,
Kamm
R. D.
,
Drazen
J. M.
, and
Slutsky
A. S.
,
1983
, “
An Experimental Study of Gas Exchange in Laminar Oscillatory Flow
,”
Journal of Fluid Mechanics
, Vol.
133
, pp.
245
254
.
8.
Kaviany
M.
,
1986
, “
Some Aspects of Heat Diffusion in Fluids Subjected to Sinusoidal Oscillations
,”
International Journal of Heat and Mass Transfer
, Vol.
29
, pp.
2002
2006
.
9.
Kurzweg
U. H.
, and
Zhao
L. D.
,
1984
, “
Heat Transfer by High-Frequency Oscillations: A New Hydrodynamic Technique for Achieving Large Effective Thermal Conductivities
,”
Physics of Fluids
, Vol.
27
, pp.
2624
2627
.
10.
Kurzweg
U. H.
, and
Jaeger
M. J.
,
1987
, “
Diffusional Separation of Gases by Sinusoidal Oscillations
,”
Physics of Fluids
, Vol.
30
, pp.
1023
1026
.
11.
Taylor, F. R. S., 1953, “Dispersion of Soluble Matter in Solvent Flowing Slowly Through a Pipe,” Proceedings of the Royal Society, pp. 186–203.
12.
Watson
E. J.
,
1983
, “
Dispersion in Oscillatory Pipe Flow
,”
Journal of Fluid Mechanics
, Vol.
133
, pp.
233
244
.
13.
Zhang
J.
, and
Kurzweg
U. H.
,
1991
, “
Numerical Simulation of Time-Dependent Enhanced Axial Heat Transfer in Oscillating Pipe Flow
,”
Journal of Thermal Physics and Heat Transfer
, Vol.
5
, No.
3
, pp.
401
406
.
14.
Zhang, J., 1988, “Time-Dependent Enhanced Heat Transfer in Oscillating Pipe Flow,” Doctoral Dissertation, Department of Mechanical Engineering, University of Florida, Gainesville, FL. Apr.,
This content is only available via PDF.
Copyright © 1996
 by The American Society of Mechanical Engineers
You do not currently have access to this content.