Hydrodynamics and Water Quality: Modeling Rivers, Lakes, and Estuaries By Zhen?Gang Ji(auth.)
2008 | 692 Pages | ISBN: 0470135433 | PDF | 21 MB
2008 | 692 Pages | ISBN: 0470135433 | PDF | 21 MB
Mathematical modeling for environmental and water resources management This hands-on reference illustrates the principles, basic processes, mathematical descriptions, and practical applications of modeling surface waters. It discusses hydrodynamics, sediment processes, toxic fate and transport, and water quality and eutrophication in rivers, lakes, estuaries, and coastal waters. There has been great progress in mathematical modeling that simulates surface waters numerically. Modeling is becoming a powerful tool, and this reference gets readers up to speed quickly. Practically organized to facilitate quick reference, Hydrodynamics and Water Quality: Modeling Rivers, Lakes, and Estuaries: Focuses on how to solve environmental problems in surface waters Uses a practical, application-oriented approach: chapters begin with an introduction of basic concepts, proceed to discussions of physical, chemical, and/or biological processes and their mathematical representations, and conclude with real-life case studies Has a companion CD that includes a modeling package and electronic files of numerical models, case studies, and model results, plus other materials to help readers use the models and tools Features case studies that show how to use models appropriate to environmental and water resources management Provides detailed information on how to use the three-dimensional Environmental Fluid Dynamics Code (EFDC) model supported by the EPA This is a must-have reference for environmental scientists, engineers, geologists, chemists, and government regulators, as well as other water quality professionals. It is also an excellent text for graduate students in fields that encompass hydrodynamics and water quality.Content: Chapter 1 Introduction (pages 1–12): Chapter 2 Hydrodynamics (pages 13–112): Chapter 3 Sediment Transport (pages 113–200): Chapter 4 Pathogens and Toxics (pages 201–245): Chapter 5 Water Quality and Eutrophication (pages 247–416): Chapter 6 External Sources and TMDL (pages 417–436): Chapter 7 Mathematical Modeling and Statistical Analyses (pages 437–472): Chapter 8 Rivers (pages 473–508): Chapter 9 Lakes and Reservoirs (pages 509–565): Chapter 10 Estuaries and Coastal Waters (pages 567–634):