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Introductory technical guidance for professional engineers interested in precipitation treatment of contaminated water. Here is what is discussed: 1. INTRODUCTION, 2. PRECIPITATION—GENERAL DISCUSSION AND THEORY, 3. HYDROXIDE PRECIPITATION, 4. SULFIDE PRECIPITATION, 5. CARBONATE PRECIPITATION, 6. OTHER PRECIPITATION TECHNIQUES.
Introductory technical guidance for Professional Engineers interested in remediation of contaminated soils. Here is what is discussed: 1. INTRODUCTION, 2. PRECIPITATION—GENERAL DISCUSSION AND THEORY, 3.HYDROXIDE PRECIPITATION, 4. SULFIDE PRECIPITATION, 5. CARBONATE PRECIPITATION, 6. OTHER PRECIPITATION TECHNIQUES.
Introductory technical guidance for professional engineers and construction managers interested in domestic water and wastewater treatment. Here is what is discussed: 1. INTRODUCTION, 2. DOMESTIC WATER TREATMENT OVERVIEW, 3. COAGULATION AND FLOCCULATION, 4. HYDROXIDE PRECIPITATION, 5. SULFIDE AND CARBONATE PRECIPITATION, 6. PRELIMINARY WASTEWATER TREATMENT, 7. PRIMARY WASTEWATER TREATMENT, 8. SECONDARY WASTEWATER TREATMENT, 9. ACTIVATED SLUDGE WASTEWATER TREATMENT, 10. ADVANCED WASTEWATER TREATMENT, 11. DESIGN OF WASTEWATER PONDS, 12. WASTEWATER LAND TREATMENT, 13. SLUDGE DISPOSAL.
Introductory technical guidance for civil engineers, geotechnical engineers and other professional engineers and construction managers interested in thermal remediation of contaminated soils. Here is what is discussed: 1. INTRODUCTION AND OVERALL DESIGN STRATEGY, 2. THERMAL CONDUCTIVE HEATING, 3. ELECTRICAL RESISTIVITY HEATING, 4. STEAM ENHANCED EXTRACTION, 5. WASTE STREAM TREATMENT OPTIONS, 6. OTHER SYSTEM CONSIDERATIONS, 7. MODELING.
Introductory technical guidance for civil engineers, environmental engineers and other professional engineers and construction managers interested in industrial water treatment. Here is what is discussed: 1. CHEMICAL CLEANING OF INDUSTRIAL WATER SYSTEMS, 2. COOLING TOWER WATER TREATMENT, 3. MAKEUP WATER FOR INDUSTRIAL WATER SYSTEMS, 4. OILY WASTEWATER COLLECTION AND TREATMENT, 5. PRETREATMENT CONSIDERATIONS FOR WATER DESALINATION, 6. TREATMENT OF CLOSED INDUSTRIAL WATER SYSTEMS, 7. WATER SAMPLING AND TESTING, 8. TREATMENT OF STEAM BOILER WATER.
Introductory technical guidance for professional engineers and construction managers interested in industrial water treatment. Here is what is discussed: 1. CHEMICAL CLEANING OF INDUSTRIAL WATER SYSTEMS, 2. COOLING TOWER WATER TREATMENT, 3. MAKEUP WATER FOR INDUSTRIAL WATER SYSTEMS, 4. OILY WASTEWATER COLLECTION AND TREATMENT, 5. PRETREATMENT CONSIDERATIONS FOR WATER DESALINATION, 6. TREATMENT OF CLOSED INDUSTRIAL WATER SYSTEMS, 7. WATER SAMPLING AND TESTING, 8. TREATMENT OF STEAM BOILER WATER.
Adsorption is one of the method that is in use for remediation of contaminated water. The experimental factors affecting the batch mode of adsorption of various metals and inorganic anions are discussed in this book. The elemental contaminants have been categorized into four major categories i.e. major toxic elements; essential elements having toxicity on excessive exposure; miscellaneous elements having undetermined effects; non-toxic elements having trivial or unidentified significance. In addition, anions like nitrate, perchlorate and sulphate as water contaminants are considered. This unique volume fills a niche in the area of water treatment. Key Features: Provides practitioners with the background they need to understand and apply batch adsorption processes to the purification of water Describes the actions of adsorption capacity or percentage removal with respect to factors affecting the adsorption process Excellent source of information for those working in the industry for remediation of metals and anions Discusses the current era of Anthropocene which is highly dependent on the anthropogenic mineral sources for its sustenance
This book provides the reader with the comprehensive view necessary to understand and critically evaluate the design, implementation, and monitoring of phytoremediation at sites characterized by contaminated groundwater. Part I presents the historical foundation of the interaction between plants and groundwater, introduces fundamental groundwater concepts for plant physiologists, and introduces basic plant physiology for hydrogeologists. Part II presents information on how to assess, design, implement, and monitor phytoremediation projects for hydrologic control. Part III presents how plants take up and detoxify a wide range of organic xenobiotics in contaminated groundwater systems, and provides various approaches on how this can be assessed and monitored. Throughout, concepts are emphasized with numerous case studies, illustrations and pertinent literature citations.
Explains the fundamental theory and mathematics of water and wastewater treatment processes By carefully explaining both the underlying theory and the underlying mathematics, this text enables readers to fully grasp the fundamentals of physical and chemical treatment processes for water and wastewater. Throughout the book, the authors use detailed examples to illustrate real-world challenges and their solutions, including step-by-step mathematical calculations. Each chapter ends with a set of problems that enable readers to put their knowledge into practice by developing and analyzing complex processes for the removal of soluble and particulate materials in order to ensure the safety of our water supplies. Designed to give readers a deep understanding of how water treatment processes actually work, Water Quality Engineering explores: Application of mass balances in continuous flow systems, enabling readers to understand and predict changes in water quality Processes for removing soluble contaminants from water, including treatment of municipal and industrial wastes Processes for removing particulate materials from water Membrane processes to remove both soluble and particulate materials Following the discussion of mass balances in continuous flow systems in the first part of the book, the authors explain and analyze water treatment processes in subsequent chapters by setting forth the relevant mass balance for the process, reactor geometry, and flow pattern under consideration. With its many examples and problem sets, Water Quality Engineering is recommended as a textbook for graduate courses in physical and chemical treatment processes for water and wastewater. By drawing together the most recent research findings and industry practices, this text is also recommended for professional environmental engineers in search of a contemporary perspective on water and wastewater treatment processes.
"This second edition of Remediation Engineering will continue to be the seminal handbook that regulators must have on-hand to address any of the remediation issues they are grappling with daily. The book is wide-ranging, but specific enough to address any environmental remediation challenge." —Patricia Reyes, Interstate Technology Regulatory Council, Washington, DC, USA "This book offers the researcher, teacher, practitioner, student, and regulator with state-of-the-art advances in conducting site investigations and remediation for common and emerging contaminants. It is revolutionary in its approach to conducting subsurface investigation, which greatly influences a successful and appropriate response in assessing and addressing environmental risk. This book is a giant leap forward in understanding how contaminates behave and how to reduce risk to acceptable levels in the natural world." —Daniel T. Rogers, Amsted Industries Incorporated, Chicago, Illinois, USA "This text is a superb reference and a good tool for learning about state-of-the-art techniques in remediation of soil and groundwater. [It] will become a ready reference at many companies as the engineering community creates increased value from remediation efforts around the world." —John Waites, AVX Corporation, Fountain Inn, South Carolina, USA Remediation Engineering was first published in 1996 and quickly became the go-to reference for a relatively young industry, offering the first comprehensive look at the state-of-the-science in treatment technologies of the time and the contaminants they applied to. This fully updated Second Edition will capture the fundamental advancements that have taken place during the last two decades within all the subdisciplines that form the foundation of the remediation engineering platform. It covers the entire spectrum of current technologies that are employed in the industry and also discusses future trends and how practitioners should anticipate and adapt to those needs. Features: Shares the latest paradigms in remediation design approach and contaminant hydrogeology Presents the landscape of new and emerging contaminants Details the current state of the practice for both conventional technologies, such as sparging and venting Examines newer technologies such as dynamic groundwater recirculation and injection-based remedies to address both organic and inorganic contaminants. Describes the advances in site characterization concepts such as smart investigations and digital conceptual site models. Includes all-new color photographs and figures.