EXPERIMENTAL STUDIES ON MIXING IN A SALT WEDGE ESTUARY
DOI:
https://doi.org/10.11113/mjce.v20.15766Keywords:
Salt wedge estuary, salinity, mixing, experimentAbstract
Estuaries, which are rich in nutrient, act as a habitat to some aquatic lives, including mangroves. Human-induced activities such as dredging and shoreline development influence estuarine dynamics which includes mixing process. This will further affect estuarine salinity and adversely affect the aquatic life. A laboratory investigation was conducted in a flume to observe the mixing in a salt-wedge estuary. Three conditions were studied, i.e. mixing in ordinary estuary, mixing in an estuary with a presence of smaller deep channel and mixing in an estuary with a presence of resisting structures along the channel banks. Freshwater was run from one end of the channel, overflowing a weir at the other end, while salt water was introduced at the base of the weir and intruded upstream as gravity current. Mixing in open channel occurs in longitudinal, vertical and transverse directions. The spatial and temporal salt-water intrusions were studied where the mixing patterns were visualized using red dye tracer. To have better understanding on the mixing process, salinity patterns are studied through the plotted isohalines. The spatial and temporal salinity profiles in the flume are also studied through plotted graphs. The results show that salinity differences occurred due to the interfacial mixing between saline and freshwater.References
Bowden, K.F. (1978) Estuary Circulation and Diffusion Problems. Thirtieth Symposium of the Colston Research Society. Great Britain: Henry Ling Ltd, 141-150.
Chanson, H. (2004) Environmental Hydraulics of Open Channel Flows. Oxford: Elsevier Butterworth-Heinemann, 144 – 165.
Chow, V.T. (1959) Open Channel Hydraulics. Tokyo: McGraw-Hill. 7-14.
Daugherty, R.L., Franzini, J.B. and Finnemore, E.J. (1989) Fluid Mechanics with Engineering Applications. Singapore, McGraw-Hill.
Fischer, H.B., List, E.J., Koh, R.C.Y., Imberger, J.and Brooks, N.H. (1979) Mixing in Inland and Coastal Waters. San Diego, California: Academic Press. 229 – 276.
French, R.H. (1986) Open Channel Hydraulics, Singapore, McGraw-Hill.
Grigg, N.J. and G.N. Ivey. (1997) A Laboratory Investigation into Shear-Generated in a Salt Wedge Estuary, Geophys, Astrophys, Fluid Dynamics. 85: 65-95.
Komatsu, T. and T. Adachi. (1996) Experimental Study On Salinity Intrusion In A Tidal Estuary. Proc. 10th Congress of the Asian and Pacific Division of the International
Association for Hydraulic Research. IAHR, 1: 392-399.
Martin, J.L. and McCutcheon, S.C. (1999) Hydrodynamics and Transport for Water Quality Modeling. Boca Raton: CRC Press, Inc. 91-92.
Mott, R.L. (1990) Applied Fluid Mechanics, Third Edition. University of Dayton,Ohio: Merrill Publishing Company.
Scarlatos, P.D. (1996) Estuarine Hydraulics, Environmental Hydraulics. V.P. Singh and
W.H. Hager (eds.) Kluwer Academic Publishers. 289-348.
Thomann, R.V. and J.A. Mueller. (1987) Principles of Surface Water Quality Modeling and Control. New York: Harper & Row Publisher. 91-103.