Water-Quality Engineering in Natural Systems: Fate and Transport Processes in the Water Environment

This textbook covers the fundamental equations that govern the fate and transport of contaminants in the environment and their application to engineering design and environmental impact analysis. It provides detailed coverage of water-quality regulations, TMDLs, nutrient levels, lake and reservoir modeling, constructed treatment wetlands, groundwater remediation systems, ocean outfalls, oil spills, and surface runoff control. The third edition includes end-of-chapter problems, an expanded solutions manual, and PowerPoints slides for instructors.

Format: Hardback
Length: 656 pages
Publication date: 13 April 2021
Publisher: John Wiley and Sons Ltd

This comprehensive textbook delves into the intricate equations that govern the movement and fate of contaminants in the environment, offering a detailed exploration of their application in engineering design and environmental impact analysis. The third edition of this text has been extensively revised and updated to provide a wealth of valuable information. It includes an expanded solutions manual, offering comprehensive answers to the end-of-chapter problems. Additionally, this edition introduces PowerPoints slides for all chapters, making it an invaluable resource for instructors seeking to create a comprehensive course.

One of the key distinguishing features of this book is its comprehensive coverage of the science behind water-quality regulations. It provides a thorough understanding of the principles and methodologies used to develop and implement these regulations, ensuring that readers are well-equipped to navigate the complex landscape of environmental compliance. The book also offers state-of-the-art methods for calculating total maximum daily loads (TMDLs) for the remediation of impaired waters. TMDLs are a critical component of water-quality management, as they establish the maximum amount of pollutants that a water body can receive without violating water-quality standards. By providing detailed guidance on how to calculate TMDLs, this book enables professionals to develop effective remediation plans and ensure that impaired waters are restored to their natural state.

In addition to its coverage of TMDL calculations, the book also delves into modeling and control of nutrient levels in lakes and reservoirs. Nutrient levels play a crucial role in the health and productivity of aquatic ecosystems, and this book provides practical insights into how to manage these levels to promote healthy aquatic environments. The book covers topics such as nutrient loading, nutrient cycling, and nutrient removal technologies, enabling readers to develop and implement effective nutrient management strategies.

Another important aspect of this book is its design of constructed treatment wetlands. Constructed treatment wetlands are a versatile and cost-effective technology for treating wastewater and removing contaminants from water. This book provides detailed guidance on the design and construction of constructed treatment wetlands, including considerations such as wetland vegetation, hydraulic loading, and pollutant removal mechanisms. By incorporating constructed treatment wetlands into wastewater treatment systems, professionals can achieve cost-effective and environmentally sustainable solutions to water-quality challenges.

Groundwater remediation systems are another critical topic covered in this book. Groundwater is a valuable resource that is often contaminated by a variety of pollutants, including pesticides, heavy metals, and hydrocarbons. This book provides detailed guidance on the design and implementation of groundwater remediation systems, including techniques such as soil removal, air sparging, and chemical oxidation. By effectively remediating contaminated groundwater, professionals can protect public health and preserve the integrity of groundwater resources.

Ocean outfalls are another important topic addressed in this book. Ocean outfalls are the point at which wastewater or treated water is discharged into the ocean, and they must be designed and constructed to minimize the impact on marine ecosystems. This book provides detailed guidance on the design and construction of ocean outfalls, including considerations such as outfall location, discharge velocity, and marine life protection. By designing ocean outfalls that are environmentally sustainable, professionals can ensure that the ocean remains a healthy and productive ecosystem.

Control of oil spills in the ocean is another critical issue that is addressed in this book. Oil spills can have devastating impacts on marine ecosystems, and they must be responded to quickly and effectively. This book provides detailed guidance on the control of oil spills, including techniques such as booms, skimmers, and dispersants. By implementing these techniques, professionals can minimize the environmental impact of oil spills and protect the health of marine organisms.

Finally, the book also focuses on the design of systems to control the quality of surface runoff from watersheds into their receiving waters. Surface runoff can be a significant source of pollution, and it must be managed to protect water quality and promote healthy aquatic ecosystems. This book provides detailed guidance on the design of stormwater management systems, including detention ponds, green roofs, and permeable pavement. By implementing these systems, professionals can reduce the amount of surface runoff that enters waterways and improve the quality of water in downstream ecosystems.

In conclusion, this comprehensive textbook is an essential resource for professionals working in the field of water-quality control. It provides detailed coverage of the fundamental equations that govern the movement and fate of contaminants in the environment, and it offers state-of-the-art methods for calculating TMDLs, modeling and controlling nutrient levels, designing constructed treatment wetlands, designing groundwater remediation systems, designing ocean outfalls, controlling oil spills, and designing systems to control the quality of surface runoff. The third edition of this book has been extensively revised and updated to provide the latest advances in the field, ensuring that readers are well-equipped to navigate the complex landscape of environmental compliance and promote sustainable water-quality management.

Weight: 1930g
Dimension: 223 x 284 x 38 (mm)
ISBN-13: 9781119532026
Edition number: 3rd Edition