Marine Wastewater Discharges from Multiport Diffusers. IV: Stratified Flowing Water |
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Authors: | Xiaodong Tian Philip J. W. Roberts Gregory J. Daviero |
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Affiliation: | 1Post-Doctoral Researcher, School of Civil and Environmental Engineering, Georgia Institute of Technology, Atlanta, GA 30332. 2Professor, School of Civil and Environmental Engineering, Georgia Institute of Technology, Atlanta, GA 30332 (corresponding author). E-mail: phil.roberts@ce.gatech.edu 3Malcolm Pirnie, Inc., 104 Corporate Park Dr., White Plains, NY 10602-0751.
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Abstract: | Experiments on the near-field mixing of wastewater discharged from multiport diffusers into stratified flowing waters are reported for conditions typical of actual ocean sewage outfalls. Dilutions were measured by a newly developed three-dimensional laser-induced fluorescence system combined with refractive-index matching and by a microconductivity probe. The plume dynamics are complex. Depending on port spacing, plumes discharged from the upstream diffuser side may merge first with themselves, and then with the plumes discharged from the downstream side. Or the plumes that are horizontally opposed may first merge, followed by lateral merging. In all cases, however, the wastefield eventually becomes laterally homogeneous. The results are analyzed in terms of line or point-source parameters and it is found that they can be predicted by assuming the discharge to be a line plume when s/lb<1.0 and as point plumes for s/lb ≥ 6.0. Semiempirical equations to predict the near-field dilution, near-field length, and plume rise height are presented. |
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Keywords: | Waste disposal Wastewater Outfall sewers Oceans Model studies Dilution |
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