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The Waterways Experiment Station's Implicit Flooding Model (WIFM) and the transport model WIFM-SAl were applied to investigate the hydrodynamic and mass transport in Lower Green Bay and Fox River, Wisconsin, before and after the proposed Confined Disposal Facility (CDF) expansion. Three hydrodynamic conditions (high, intermediate, and low flow) were simulated in WIFM with the existing CDF and the proposed expansion in place. The hydrodynamic results of these simulations were conducted in the Lower Green Bay area. The first group of simulations consisted of an instantaneous injection of tracer released at the mouth of the Fox River. The second group involved a continuous injection of tracer across the numerical grid boundaries. All simulations were conducted with and without the CDF expansion. From these results it was found that the flow exchange differences caused by the proposed CDF with Peats Lake Bay are insignificant, and the CDF expansion simply redistributes flow by increasing, by way of the main channel, to Middle Bay and by reducing discharge through the cross section between Grassy Island and the expanded CDF. The transport test for instantaneous dye injection, in the presence of the CDF expansion, showed an insignificant effect on the movement of material from the mouth of the Fox River through the Lower Green Bay area. For the continuous boundary injection patterns of concentration, contours were similar for both the existing and proposed conditions.
Hydrodynamics and Transport for Water Quality Modeling presents a complete overview of current methods used to describe or predict transport in aquatic systems, with special emphasis on water quality modeling. The book features detailed descriptions of each method, supported by sample applications and case studies drawn from the authors' years of experience in the field. Each chapter examines a variety of modeling approaches, from simple to complex. This unique text/reference offers a wealth of information previously unavailable from a single source. The book begins with an overview of basic principles, and an introduction to the measurement and analysis of flow. The following section focuses on rivers and streams, including model complexity and data requirements, methods for estimating mixing, hydrologic routing methods, and unsteady flow modeling. The third section considers lakes and reservoirs, and discusses stratification and temperature modeling, mixing methods, reservoir routing and water balances, and dynamic modeling using one-, two-, and three-dimensional models. The book concludes with a section on estuaries, containing topics such as origins and classification, tides, mixing methods, tidally averaged estuary models, and dynamic modeling. Over 250 figures support the text. This is a valuable guide for students and practicing modelers who do not have extensive backgrounds in fluid dynamics.
A comprehensive account of the state of the science of environmental mass transportEdited by Louis J. Thibodeaux and Donald Mackay, renowned experts in this field, the Handbook of Chemical Mass Transport in the Environment covers those processes which are critically important for assessing chemical fate, exposure, and risk. In a comprehensive and a