This volume provides in-depth coverage of environmental pollution sources, waste characteristics, control technologies, management strategies, facility innovations, process alternatives, costs, case histories, effluent standards, and future trends in waste treatment processes. It delineates methodologies, technologies, and the regional and global effects of important pollution control practices. It focuses on specific industrial and manufacturing wastes and their remediation. Topics covered include: oil refining, electronics, chemical, pharmaceutical, paint, and textile manufacturing.
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ix | |
| Editors |
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xi | |
| Contributors |
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xiii | |
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Chapter 1 Toxicity, Sources, and Control of Copper (Cu), Zinc (Zn), Molybdenum (Mo), Silver (Ag), and Rare Earth Elements in the Environment |
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1 | (26) |
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Chapter 2 Nano-Bioremediation: Applications of Nanotechnology for Bioremediation |
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27 | (22) |
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Chapter 3 Recycling of Filter Backwash Water and Alum Sludge from Water Utility for Reuse |
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49 | (26) |
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Chapter 4 Selection of Remedial Alternatives for Soil Contaminated with Heavy Metals |
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75 | (52) |
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Chapter 5 Removal of Heavy Metals by Low-Cost Adsorption Materials |
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127 | (58) |
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Chapter 6 Sulfide Precipitation for Treatment of Metal Wastes |
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185 | (54) |
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Chapter 7 Stabilization of Cadmium in Waste Incineration Residues by Aluminum/Iron-Rich Materials |
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239 | (16) |
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Chapter 8 Arsenic in the Environment: Source, Characteristics, and Technologies for Pollution Elimination |
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255 | (34) |
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Chapter 9 Simultaneous Removal of Chromium and Arsenate: A Case Study Using Ferrous Iron |
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289 | (50) |
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Chapter 10 E-Waste Recycling: Environmental and Health Impacts |
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339 | (26) |
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Rajasekhar Balasubramanian |
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Obulisamy Parthiba Karthikeyan |
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Chapter 11 Site Assessment and Cleanup Technologies of Metal Finishing Industry |
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365 | (48) |
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Chapter 12 Adsorptive Removal of Arsenic from Water Sources Using Novel Nanocomposite Mixed Matrix Membranes |
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413 | (26) |
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Chapter 13 Treatment of Photographic Processing Waste |
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439 | (24) |
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Chapter 14 Toxicity, Source, and Control of Barium in the Environment |
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463 | (20) |
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Chapter 15 Toxicity, Sources, and Control of Selenium, Nickel, and Beryllium in the Environment |
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483 | (30) |
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Chapter 16 Safety and Control for Toxic Chemicals and Hazardous Wastes |
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513 | (26) |
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Chapter 17 Biological Treatment of Poultry Processing Wastewater |
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539 | (38) |
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Chapter 18 Treatment of Wastewater, Storm Runoff, and Combined Sewer Overflow by Dissolved Air Flotation and Filtration |
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577 | (34) |
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Chapter 19 Waste Treatment and Management in Chlor-Alkali Industries |
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611 | (46) |
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Chapter 20 Dissolved Air Flotation (DAF) for Wastewater Treatment |
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657 | (38) |
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Chapter 21 Restaurant Waste Treatment and Management |
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695 | (24) |
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Chapter 22 Treatment of Textile Industry Waste |
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719 | (78) |
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Chapter 23 BOD Determination, Cleaning Solution Preparation, and Waste Disposal in Laboratories |
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797 | (12) |
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Chapter 24 Principles, Procedures, and Heavy Metal Management of Dichromate Reflux Method for COD Determination in Laboratories |
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809 | (10) |
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Chapter 25 Environment-Friendly Activated Carbon Processes for Water and Wastewater Treatment |
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819 | (20) |
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Chapter 26 Treatment of Wastes from the Organic Chemicals Manufacturing Industry |
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839 | (16) |
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Chapter 27 Toxicity and Sources of Pb, Cd, Hg, Cr, As, and Radionuclides in the Environment |
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855 | (50) |
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Chapter 28 Environmental Behavior and Effects of Engineered Metal and Metal Oxide Nanoparticles |
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905 | (26) |
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Chapter 29 Heavy Metal Removal with Exopolysaccharide-Producing Cyanobacteria |
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931 | (34) |
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Chapter 30 Environmental Geochemistry of High-Arsenic Aquifer Systems |
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965 | (32) |
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Chapter 31 Nanotechnology Application in Metal Ion Adsorption |
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997 | (46) |
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Chapter 32 Biosorption of Metals onto Granular Sludge |
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1043 | (24) |
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Chapter 33 Treatment of Metal-Bearing Effluents: Removal and Recovery |
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1067 | (46) |
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Chapter 34 Control, Management, and Treatment of Metal Emissions from Motor Vehicles |
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1113 | (16) |
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Rajasekhar Balasubramanian |
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Chapter 35 Removal of Heavy Metals from Industrial Effluents by Chemical Precipitation and Chemical Coagulation |
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1129 | (12) |
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| Index |
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1141 | |
Lawrence K. Wang has more than 28 years of experience in facility design, environmental sustainability, natural resources, resources recovery, global pollution control, construction, plant operation, and management. He has expertise in water supply, air pollution control, solid waste disposal, water resources, waste treatment, and hazardous waste management. He is a retired dean/director/VP of the Lenox Institute of Water Technology, Krofta Engineering Corporation, and Zorex Corporation, respectively, in the USA. Dr. Wang is the author of over 700 papers and 45 books, and is credited with 24 U.S. patents and 5 foreign patents. He received his BSCE from National Cheng-Kung University, Taiwan, ROC, his two MS degrees from the Missouri University of Science and Technology and the University of Rhode Island, USA, and his PhD degree from Rutgers University, USA. Currently he is the Chief Series Editor of the Advances in Industrial and Hazardous Wastes Treatment series (CRC Press of Taylor & Francis Group) and the Handbook of Environmental Engineering series (Springer).
Mu-Hao Sung Wang has been an engineer, an editor and a professor serving private firms, governments, and universities in the USA and Taiwan for over 25 years. She is a licensed Professional Engineer, and a Diplomate of American Academy of Environmental Engineers. Her publications have been in the areas of water quality, modelling, environmental sustainability, waste management, NPDES, flotation, and analytical methods. Dr. Wang is the author of over 50 publications and an inventor of 14 US and foreign patents. She received her BSCE from National Cheng Kung University, Taiwan, ROC, her MSCE from the University of Rhode Island, USA, and her PhD from Rutgers University, USA. She is the Co-Series Editor of the Handbook of Environmental Engineering series (Springer), and a member of AWWA, NEWWA, WEF and OCEESA.
Yung-Tse Hung has been a professor of civil engineering at Cleveland State University since 1981. He is a Fellow of the American Society of Civil Engineers, and has taught at 16 universities in 8 countries. His research interests and publications have been involved with biological processes, and industrial waste treatment. Dr. Hung is credited with over 470 publications and presentations on water and wastewater treatment. He received his BSCE and MSCE from National Cheng-Kung University, Taiwan, and his PhD from the University of Texas at Austin, USA. He is the editor of International Journal of Environment and Waste Management, International Journal of Environmental Engineering, and International Journal of Environmental Engineering Science.
Nazih K. Shammas is an environmental consultant and professor for over 45 years. He is an ex-dean/director of the Lenox Institute of Water Technology, and an advisor to Krofta Engineering Corporation, USA. Dr. Shammas is the author of over 250 publications and 15 books in the field of environmental engineering. He has experience in environmental planning, curriculum development, teaching, scholarly research, and expertise in water quality control, wastewater reclamation and reuse, physicochemical and biological processes and water and wastewater systems. He received his BE degree from the American University of Beirut, Lebanon, his MS from the University of North Carolina at Chapel Hill, and his PhD from the University of Michigan, USA. J. Paul Chen has been a professor in the environmental engineering program in the National University of Singapore (NUS) since 1998. His research interests are physicochemical treatment of water and wastewater and modelling. He has published three books, more than 100 journal papers and book chapters with citation of above 4600 and H-index of 39 (ISI). He holds seven patents in the areas of adsorption and membrane technologies, and ballast water management systems. He has received various honors and awards, including the Sustainable Technology Award from the IChemE, Guest Professor of the Huazhong University of Science & Technology and Shandong University, China, and Distinguished Overseas Chinese Young Scholar of National Natural Science Foundation, China. He has been recognized as an author of highly cited papers (Chemistry and Engineering) of ISI Web of Knowledge. Professor Chen received his ME degree from Tsinghua University and his PhD degree from Georgia Tech., USA.
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