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gaofeng925:Óеç×Ó°æµÄÂ𣿠2010-07-19 09:16:08
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Water Treatment : Principles and Design, Second Edition by MWH 2005 (1968 pages) ISBN:9780471110187 Written by the world¡¯s leading water engineering firm, this one-stop resource provides unique coverage of both the principles and theory of water treatment, as well as the practical considerations of plant design and distribution. Preface Overview Important Features of This Book The Use of This Book Foreword Overview Acknowledgments Chapter 1 ¨C Introduction 1-1: Historical Development of Water Treatment 1-2: Health and Environmental Concerns 1-3: Evolution of Standards and Regulations 1-4: Evolution of Water Treatment Technology 1-5: Selection of Water Treatment Processes 1-6: Emerging Constituents of Concern References Chapter 2 ¨C Physical and Chemical Quality 2-1: Fundamental and Engineering Properties of Water 2-2: Introduction to Characterization of Water 2-3: Physical Aggregate Characteristics of Water 2-4: Inorganic Chemical Constituents 2-5: Organic Chemical Constituents 2-6: Taste and Odor 2-7: Gases in Water 2-8: Radionuclides in Water Problems and Discussion Topics References Chapter 3 ¨C Microbiological Quality Overview 3-1: Overview of the Microbial World 3-2: History of Pathogens in Drinking Water 3-3: Bacteria That Cause Gastroenteritis 3-4: Viruses of Concern in Drinking Water 3-5: Protozoa of Concern in Drinking Water 3-6: Helminths of Concern in Drinking Water 3-7: Algae of Concern in Drinking Water 3-8: Monitoring for Presence of Pathogens Problems and Discussion Topics References Chapter 4 ¨C Water Quality Management Strategies 4-1: Objectives of Water Treatment 4-2: Regulatory Process for Water Quality 4-3: Water Quality Standards and Regulations 4-4: Overview of Methods Used to Treat Water 4-5: Development of Systems for Water Treatment 4-6: Multiple-Barrier Concept Problems and Discussion Topics References Chapter 5 ¨C Fundamentals of Chemical Reactions 5-1: Chemical Reactions and Stoichiometry 5-2: Equilibrium Reactions 5-3: Thermodynamics of Chemical Reactions 5-4: Reaction Kinetics 5-5: Determination of Reaction Rate Laws 5-6: Reactions Used in Water Treatment Problems and Discussion Topics References Chapter 6 ¨C Reactor Analysis 6-1: Types of Reactors Used in Water Treatment 6-2: Mass Balance Analysis 6-3: Ideal Reactors Used in Modeling 6-4: Modeling Reactions in Completely Mixed Batch Reactor 6-5: Modeling Reactions in Ideal, Continuous-Flow Reactors 6-6: Using Tracers to Characterize Flow through Nonideal Reactors 6-7: Modeling Nonideal Flow through Reactors 6-8: Modeling Performance of Nonideal Reactors 6-9: Using Tracer Curves to Model Reactor Performance Problems and Discussion Topics References Chapter 7 ¨C Introduction to Separation Processes and Mass Transfer 7-1: Introduction to Separation Processes Used in Water Treatment 7-2: Introduction to Mass Transfer and Diffusion 7-3: Calculation of Diffusion Coefficients 7-4: Models for Mass Transfer at an Interface 7-5: Correlations for Mass Transfer at an Interface 7-6: Two-Film Theory for Mass Transfer across a Gas¨CLiquid Interface Problems and Discussion Topics References Chapter 8 ¨C Chemical Oxidation and Reduction Overview 8-1: Introduction to Use of Oxidation Processes in Water Treatment 8-2: Fundamentals of Chemical Oxidation and Reduction 8-3: Conventional Chemical Oxidants 8-4: Photolysis 8-5: Introduction to Advanced Oxidation Processes 8-6: Ozonation as an Advanced Oxidation Process 8-7: Hydrogen Peroxide/Ozone Process for Potable Water 8-8: Other Advanced Oxidation Processes Problems and Discussion Topics References Chapter 9 ¨C Coagulation, Mixing, and Flocculation Overview 9-1: Role of Coagulation and Flocculation Processes in Water Treatment 9-2: Properties and Stability of Particles in Water 9-3: Coagulation Theory 9-4: Coagulation Practice 9-5: Mixing Theory and Practice 9-6: Flocculation Theory 9-7: Flocculation Practice Problems and Discussion Topics References Chapter 10 ¨C Gravity Separation 10-1: Discrete Particle-Settling Theory 10-2: Discrete Particle Settling in Sedimentation Basins 10-3: Flocculant Settling in Sedimentation Basins 10-4: Conventional Sedimentation Basin Design 10-5: Alternative Sedimentation Processes 10-6: Physical Factors Affecting Sedimentation 10-7: Dissolved Air Flotation Systems Problems and Discussion Topics References Chapter 11 ¨C Granular Filtration Overview 11-1: Historical Perspective 11-2: Process Description 11-3: Filter Media 11-4: Hydraulics of Flow through Granular Media 11-5: Particle Removal in Rapid Filtration 11-6: Rapid-Filter Design Problems and Discussion Topics References Chapter 12 ¨C Membrane Filtration 12-1: Delineation of Membrane Processes 12-2: Historical Perspective 12-3: Process Description 12-4: Process Fundamentals 12-5: Membrane Fouling 12-6: Process Design Problems and Discussion Topics References Chapter 13 ¨C Disinfection Overview 13-1: Historical Perspective 13-2: Methods of Disinfection Commonly Used in Water Treatment 13-3: Kinetics of Disinfection 13-4: Disinfection Kineticsin Nonideal Reactors 13-5: Disinfection with Free and Combined Chlorine 13-6: Disinfection with Chlorine Dioxide 13-7: Disinfection with Ozone 13-8: Disinfection with Ultraviolet Light Problems and Discussion Topics References Chapter 14 ¨C Air Stripping and Aeration 14-1: Introduction to Air Stripping and Aeration 14-2: Gas¨CLiquid Equilibria 14-3: Classification of Air Stripping and Aeration Systems 14-4: Fundamentals of Packed Tower Air Stripping 14-5: Analysis and Design of Packed Tower Air Stripping 14-6: Analysis of Low-Profile Air Strippers 14-7: Analysis of Spray Aerators 14-8: Other Air Stripping and Aeration Processes Problems and Discussion Topics References Chapter 15 ¨C Adsorption 15-1: Development of Adsorption Phenomena 15-2: Manufacture, Regeneration, and Reactivation 15-3: Fundamentals of Adsorption 15-4: Development of Isotherms and Equations Used to Describe Adsorption Equilibrium 15-5: Powdered Activated Carbon 15-6: Granular Activated Carbon 15-7: Biological Activity Problems and Discussion Topics References Chapter 16 ¨C Ion Exchange 16-1: Evolution of Ion Exchange Technology 16-2: Synthetic Ion Exchange Media 16-3: Properties of Ion Exchange Media 16-4: Ion Exchange Equilibrium Development 16-5: Ion Exchange Process Configurations 16-6: Engineering Considerations in Ion Exchange Process Design 16-7: Ion Exchange Process Design Case Study Problems and Discussion Topics References Chapter 17 ¨C Reverse Osmosis 17-1: Delineation of Membrane Processes 17-2: Applications for Reverse Osmosis 17-3: Historical Perspective 17-4: Process Description 17-5: Process Fundamentals 17-6: Process Design Problems and Discussion Topics References Chapter 18 ¨C Disinfection/Oxidation Byproducts 18-1: Introduction 18-2: Chlorine Byproducts 18-3: Ozone Byproducts 18-4: Chlorine Dioxide Byproducts 18-5: Chloramine Byproducts Problems and Discussion Topics References Chapter 19 ¨C Removal of Selected Constituents 19-1: Traditional, Nontraditional, and Emerging Constituents 19-2: Arsenic 19-3: Iron and Manganese Removal 19-4: Softening 19-5: Nitrate 19-6: Radionuclides Problems and Discussion Topics References Chapter 20 ¨C Residuals Management Overview 20-1: Defining the Problem 20-2: Physical, Chemical, and Biological Properties of Residuals 20-3: Coagulation Sludges 20-4: Lime Sludges 20-5: Diatomaceous Earth Sludges 20-6: Granular Media Filter and Membrane Filter Waste Washwater 20-7: Reverse Osmosis and Nanofiltration Concentrate 20-8: Ion Exchange Brine 20-9: Management of Residual Liquid Streams 20-10: Management of Membrane Concentrate 20-11: Management of Ion Exchange Brines 20-12: Management of Residual Sludges 20-13: Ultimate Reuse and Disposal of Semisolid Residuals 20-14: Process Selection Problems and Discussion Topics References Chapter 21 ¨C Internal Corrosion of Water Conduits 21-1: Materials Used to Transport, Distribute, and Store Water 21-2: Thermodynamics of Metallic Corrosion 21-3: Electrokinetics of Metallic Corrosion 21-4: Application of Electrokinetics 21-5: Microbiologically Induced Corrosion 21-6: Surface Films and Surface Scales 21-7: Common Forms of Corrosion 21-8: Metals of Interest in Domestic Drinking Water Systems 21-9: Release of Contaminants 21-10: Formation of Treatment-Related Scales on Water Conduits 21-11: Dissolution of Cement-Based Materials 21-12: Treatment for Corrosion Control 21-13: Corrosion Testing Problems and Discussion Topics References Chapter 22 ¨C Synthesis of Treatment Trains¡ªCase Studies from Bench to Full Scale Overview 22-1: Heemskerk Water Treatment Works, North Holland 22-2: Delaware River Regional Water Treatment Plant, Delran, New Jersey 22-3: River Mountains Water Treatment Facility, Henderson, Nevada 22-4: Prospect Water Treatment Plant, Sydney, Australia 22-5: Sunol Valley Water Treatment Plant Retrofit, San Francisco, California 22-6: Willamette River Water Treatment Plant, Wilsonville, Oregon 22-7: Mission Basin Groundwater Purification Facility Expansion, Oceanside, California 22-8: Lessons Learned References Appendix A ¨C Conversion Factors Appendix B ¨C Physical Properties of Selected Gases and Composition of Air Overview B-1: Density of Air at Other Temperatures B-2: Change in Atmospheric Pressure with Elevation Appendix C ¨C Physical Properties of Water Appendix D ¨C Federal Regulations That Pertain to Drinking Water D-1: Regulatory Process D-2: Using the Internet to Find Federal and State Drinking Water Regulations D-3: Overview of Existing Regulations D-4: U.S. Drinking Water Regulations Appendix E ¨C Summary Information for Advanced Oxidation Overview References Appendix F ¨C U.S. Environmental Protection Agency Ct Values for Various Disinfectants Overview References Appendix G ¨C Adsorption Isotherm Parameters K and 1/n for Liquid Phase Overview References Appendix H ¨C Standard Atomic Weights 2001 |
7Â¥2010-07-11 22:29:12
ericwang8665
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