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• W632044120 abstract "The mixing behavior of desalination plant effluents in the receiving waters is significantly influenced by the effluent density, which is dominated by the varying effluent salinity and temperature. The dense RO (reverse osmosis) effluent flow has the tendency to fall as a negatively buoyant plume. The MSF (multi-stage-flash) effluent is distinguished by a neutral to positive buoyancy flux that causes the plume to rise. This chapter describes the principle steps to model effluent dispersion in the receiving environment and to improve discharge design and siting. The different modeling tools are described and applied for typical case studies. A modelling framework for the environmental-hydraulic design of the outfall system for desalination plants has been developed and combined with a tiered approach to facilitate discharge assessments. Furthermore, environmental regulations and opportunities for site-specific, ecologically relevant criteria are discussed. The tiers include initial screening methods, using rapid assessment tools to determine the significance of the discharge. Length-scale based flow classification, nomograms, and empirical dilution equations are applied for that. Subsequent application of mixing zone models improves the discharge design and allows for assessment of potential environmental impacts. The discharge siting is then improved by considering also water quality parameters using a combined modeling approach coupling a near-field model to a far-field model. The final tier presents a dynamically coupled modeling system, which is necessary for large discharge flows and complex environmental conditions, where a feedback mechanism is necessary to couple both models. Results indicate that the tiered approach applied to modeling methods is capable to assess potential impacts of desalination plant effluents on the receiving waters and to improve the discharge system." @default.
• W632044120 created "2016-06-24" @default.
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• W632044120 date "2015-01-01" @default.
• W632044120 modified "2023-09-26" @default.
• W632044120 title "Tiered Modeling Approach for Desalination Effluent Discharges" @default.
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• W632044120 doi "https://doi.org/10.1007/978-3-319-13203-7_18" @default.
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