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Nutrient speciation and refractory compounds in water quality models /
Water quality modeling efforts are designed to provide an understanding of watershed conditions to support management efforts that include control of point and nonpoint sources (NPS). Nitrogen (N) and phosphorus (P) speciation is an important area of nutrient research, both in terms of biodegradabil...
| Clasificación: | Libro Electrónico |
|---|---|
| Autores principales: | , , , |
| Formato: | Electrónico eBook |
| Idioma: | Inglés |
| Publicado: |
London :
IWA Publishing,
2016.
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| Colección: | WERF Research Report Series.
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| Temas: | |
| Acceso en línea: | Texto completo |
Tabla de Contenidos:
- Cover; Copyright; Acknowledgments; Abstract and Benefits; Table of Contents; List of Tables; List of Figures; List of Abbreviations and Acronyms; Executive Summary; Chapter 1.0: Introduction; 1.1 Eutrophication; 1.2 Objectives; 1.3 Overview; Chapter 2.0: Nutrients and Water Quality Models; 2.1 Water Quality Model Issues; 2.1.1 Water Quality Model Inputs and Outputs; 2.1.2 Model Capabilities and Potential Enhancements; 2.1.3 Standards of Practices for Model Development and Updates; Chapter 3.0: Water Quality Model Simulation of Nutrients; 3.1 Nutrient Constituents of Concern.
- 3.2 Effluent Nitrogen and Phosphorus3.2.1 Nitrogen; 3.2.2 Phosphorus; 3.3 Relationships of Constituents to Water Quality Models; 3.4 Model Complexity; 3.4.1 Limitations of Simplistic Model Approaches; 3.4.2 More Sophisticated Water Quality Models; 3.5 Model Nutrient Inputs; 3.6 Model Simulation; Chapter 4.0: Wastewater and Water Quality Modeling Terminology; 4.1 Water Quality Modeling Terminology; 4.2 Intersection of Wastewater and Water Quality Modeling Terminology; 4.2.1 Refractory and Labile; Chapter 5.0: Nutrient Monitoring; 5.1 Monitoring for Water Quality Modeling.
- 5.2 Wastewater Effluent Monitoring5.3 Receiving Waterbody Monitoring; 5.4 Monitoring Recommendations; Chapter 6.0: Water Quality Modeling Case Studies; 6.1 Spokane River Nutrient Modeling; 6.1.1 Spokane River Modeling and Bioavailability; 6.1.2 Spokane River Nonpoint Source Phosphorus Modeling; 6.2 Lower Boise River Nutrient Modeling; 6.3 Chesapeake Bay Modeling and TMDL; 6.4 Gulf of Mexico Modeling and Nutrient Reduction Goals; 6.5 Long Island Sound Nutrient Modeling and TMDL; 6.6 Onondaga Lake Nutrient Modeling; 6.7 Puget Sound Nutrient Modeling.
- 6.8 San Francisco Bay Nutrient Reduction Strategies6.9 North Saskatchewan River Nutrient Modeling; 6.10 Yellowstone River Nutrient Modeling; Chapter 7.0: Conclusion and Recommendations; 7.1 Model Selection; 7.2 Monitoring Data and Effluent Characterization Resources; 7.2.1 Effluent Nutrient Speciation; 7.2.2 Refractory Effluent Nutrients; 7.3 Model Capabilities and Refinements; Appendix A: Example: Wastewater Influent Characterization Request for Water Quality Modeling; Appendix B: Biologically Available Phosphorus (BAP) Workshop; References.