Manahan, Stanley E. "FRONTMATTER" Environmental Chemistry Boca Raton: CRC Press LLC, 2000电子书

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毕业论文范文题目： Manahan, Stanley E. "FRONTMATTER" Environmental Chemistry Boca Raton: CRC Press LLC, 2000电子书，论文范文关键词： Manahan, Stanley E. "FRONTMATTER" Environmental Chemistry Boca Raton: CRC Press LLC, 2000电子书
Manahan, Stanley E. "FRONTMATTER" Environmental Chemistry Boca Raton: CRC Press LLC, 2000电子书毕业论文范文介绍开始：
　　Manahan, Stanley E. "FRONTMATTER" Environmental Chemistry Boca Raton: CRC Press LLC, 2000电子书，共193页
　　CONTENTS ____________________________________________________
　　CHAPTER 1: ENVIRONMENTAL SCIENCE, TECHNOLOGY, AND
　　CHEMISTRY
　　1.1 What is Environmental Science?
　　1.2 Environmental Chemistry and Environmental Biochemistry
　　1.3 Water, Air, Earth, Life, and Technology
　　1.4 Ecology and the Biosphere
　　1.5 Energy and Cycles of Energy
　　1.6 Matter and Cycles of Matter
　　1.7 Human Impact and Pollution
　　1.8 Technology: The Problems It Poses and the Solutions It Offers
　　CHAPTER 2: THE ANTHROSPHERE, INDUSTRIAL ECOSYSTEMS, AND
　　ENVIRONMENTAL CHEMISTRY
　　2.1 The Anthrosphere
　　2.2 Technology and the Anthrosphere
　　2.3 Infrastructure
　　2.4 Dwellings
　　2.5 Transportation
　　2.6 Communications
　　2.7 Food and Agriculture
　　2.8 Manufacturing
　　2.9 Effects of the Anthrosphere on Earth
　　2.10 Integration of the Anthrosphere into the Total Environment
　　2.11 The Anthrosphere and Industrial Ecology
　　2.12 Environmental Chemistry
　　CHAPTER 3: FUNDAMENTALS OF AQUATIC CHEMISTRY
　　3.1 Water Quality and Quantity
　　3.2 The Properties of Water, a Unique Substance
　　3.3 The Characteristics of Bodies of Water
　　3.4 Aquatic Life
　　3.5 Introduction to Aquatic Chemistry
　　3.6 Gases in Water
　　© 2001 CRC Press LLC
　　3.7 Water Acidity and Carbon Dioxide in Water
　　3.8 Alkalinity
　　3.9 Calcium and Other Metals in Water
　　3.10 Complexation and Chelation
　　3.11 Bonding and Structure of Metal Complexes
　　3.12 Calculations of Species Concentrations
　　3.13 Complexation by Deprotonated Ligands
　　3.14 Complexation by Protonated Ligands
　　3.15 Solubilization of Lead Ion from Solids by NTA
　　3.16 Polyphosphates in Water
　　3.17 Complexation by Humic Substances
　　3.18 Complexation and Redox Processes
　　CHAPTER 4: OXIDATION-REDUCTION
　　4.1 The Significance of Oxidation-Reduction Phenomena
　　4.2 The Electron and Redox Reactions
　　4.3 Electron Activity and pE
　　4.4 The Nernst Equation
　　4 5 Reaction Tendency: Whole Reaction from Half-Reactions
　　4.6 The Nernst Equation and Chemical Equilibrium
　　4.8 Reactions in Terms of One Electron-Mole
　　4.9 The Limits of pE in Water
　　4.10 pE Values in Natural Water Systems
　　4.11 pE-pH Diagrams
　　4.12 Corrosion
　　CHAPTER 5: PHASE INTERACTIONS
　　5.1 Chemical Interactions Involving Solids, Gases, and Water
　　5.2 Importance and Formation of Sediments
　　5.3 Solubilities
　　5.4 Colloidal Particles in Water
　　5.5 The Colloidal Properties of Clays
　　5.6 Aggregation of Particles
　　5.7 Surface Sorption by Solids
　　5.8 Ion Exchange with Bottom Sediments
　　5.9 Sorption of Gases—Gases in Interstitial Water
　　CHAPTER 6: AQUATIC MICROBIAL BIOCHEMISTRY
　　6.1 Aquatic Biochemical Processes
　　6.2 Algae
　　6.3 Fungi
　　6.4 Protozoa
　　6.5 Bacteria
　　6.6 The Prokaryotic Bacterial Cell
　　6.7 Kinetics of Bacterial Growth
　　6.8 Bacterial Metabolism
　　6.9 Microbial Transformations of Carbon
　　6.10 Biodegradation of Organic Matter
　　6.11 Microbial Transformations of Nitrogen
　　6.12 Microbial Transformations of Phosphorus and Sulfur
　　6.13 Microbial Transformations of Halogens and Organohalides
　　© 2001 CRC Press LLC
　　6.14 Microbial Transformations of Metals and Metalloids
　　6.15 Microbial Corrosion
　　CHAPTER 7: WATER POLLUTION
　　7.1 Nature and Types of Water Pollutants
　　7.2 Elemental Pollutants
　　7.3 Heavy Metals
　　7.4 Metalloids
　　7.5 Organically Bound Metals and Metalloids
　　7.6 Inorganic Species
　　7.7 Algal Nutrients and Eutrophication
　　7.8 Acidity, Alkalinity, and Salinity
　　7.9 Oxygen, Oxidants, and Reductants
　　7.10 Organic Pollutants
　　7.11 Pesticides in Water
　　7.12 Polychlorinated Biphenyls
　　7.13 Radionuclides in the Aquatic Environment
　　CHAPTER 8: WATER TREATMENT
　　8.1 Water Treatment and Water Use
　　8.2 Municipal Water Treatment
　　8.3 Treatment of Water for Industrial Use
　　8.4 Sewage Treatment
　　8.5 Industrial Wastewater Treatment
　　8.6 Removal of Solids
　　8.7 Removal of Calcium and Other Metals
　　8.8 Removal of Dissolved Organics
　　8.9 Removal of Dissolved Inorganics
　　8.10 Sludge
　　8.11 Water Disinfection
　　8.12 Natural Water Purification Processes
　　8.13 Water Reuse and Recycling
　　CHAPTER 9: THE ATMOSPHERE AND ATMOSPHERIC CHEMISTRY
　　9.1 The Atmosphere and Atmospheric Chemistry
　　9.2 Importance of the Atmosphere
　　9.3 Physical Characteristics of the Atmosphere
　　9.4 Energy Transfer in the Atmosphere
　　9.5 Atmospheric Mass Transfer, Meteorology, and Weather
　　9.6 Inversions and Air Pollution
　　9.7 Global Climate and Microclimate
　　9.9 Acid-Base Reactions in the Atmosphere
　　9.10 Reactions of Atmospheric Oxygen
　　9.11 Reactions of Atmospheric Nitrogen
　　9.12 Atmospheric Carbon Dioxide
　　9.13 Atmospheric Water
　　CHAPTER 10: PARTICLES IN THE ATMOSPHERE
　　10.1 Particles in the Atmosphere
　　10.2 Physical Behavior of Particles in the Atmosphere
　　10.3 Physical Processes for Particle Formation
　　© 2001 CRC Press LLC
　　10.4 Chemical Processes for Particle Formation
　　10.5 The Composition of Inorganic Particles
　　10.6 Toxic Metals
　　10.7 Radioactive Particles
　　10.8 The Composition of Organic Particles
　　10.9 Effects of Particles
　　10.10 Water as Particulate Matter
　　10.11 Control of Particulate Emissions
　　CHAPTER 11: GASEOUS INORGANIC AIR POLLUTANTS
　　11.1 Inorganic Pollutant Gases
　　11.2 Production and Control of Carbon Monoxide
　　11.3 Fate of Atmospheric CO
　　11.4 Sulfur Dioxide Sources and the Sulfur Cycle
　　11.5 Sulfur Dioxide Reactions in the Atmosphere
　　11.6 Nitrogen Oxides in the Atmosphere
　　11.7 Acid Rain
　　11.8 Ammonia in the Atmosphere
　　11.9 Fluorine, Chlorine, and Their Gaseous Compounds
　　11.10 Hydrogen Sulfide, Carbonyl Sulfide, and Carbon Disulfide
　　CHAPTER 12: ORGANIC AIR POLLUTANTS
　　12.1 Organic Compounds in the Atmosphere
　　12.2 Organic Compounds from Natural Sources
　　12.3 Pollutant Hydrocarbons
　　12.4 Aryl Hydrocarbons
　　12.5 Aldehydes and Ketones
　　12.6 Miscellaneous Oxygen-Containing Compounds
　　12.7 Organohalide Compounds
　　12.8 Organosulfur Compounds
　　12.9 Organonitrogen Compounds
　　CHAPTER 13: PHOTOCHEMICAL SMOG
　　13.1 Introduction
　　13.2 Smog-Forming Automotive Emissions
　　13.3 Smog-Forming Reactions of Organic Compounds in the Atmosphere
　　13.4 Overview of Smog Formation
　　13.5 Mechanisms of Smog Formation
　　13.6 Reactivity of Hydrocarbons
　　13.7 Inorganic Products from Smog
　　13.8 Effects of Smog
　　CHAPTER 14: THE ENDANGERED GLOBAL ATMOSPHERE
　　14.1 Anthropogenic Change in the Atmosphere
　　14.2 Greenhouse Gases and Global Warming
　　14.3 Acid Rain
　　14.4 Ozone Layer Destruction
　　14.5 Photochemical Smog
　　14.6 Nuclear Winter
　　14.7 What Is to Be Done?
　　© 2001 CRC Press LLC
　　CHAPTER 15: THE GEOSPHERE AND GEOCHEMISTRY
　　15.1 Introduction
　　15.2 The Nature of Solids in the Geosphere
　　15.3 Physical Form of the Geosphere
　　15.4 Internal Processes
　　15.5 Surface Processes
　　15.6 Sediments
　　15.7Clays
　　15.8 Geochemistry
　　15.9 Groundwater in the Geosphere
　　15.10 Environmental Aspects of the Geosphere
　　15.11 Earthquakes
　　15.12 Volcanoes
　　15.13 Surface Earth Movement
　　15.14 Stream and River Phenomena
　　15.15 Phenomena at the Land/Ocean Interface
　　15.16 Phenomena at the Land/Atmosphere Interface
　　15.17 Effects of Ice
　　15.18 Effects of Human Activities
　　15.20 Water Pollution and the Geosphere
　　15.21 Waste Disposal and the Geosphere
　　CHAPTER 16: Soil Environmental Chemistry
　　16.1 Soil and Agriculture
　　16.2 Nature and Composition of Soil
　　16.3 Acid-Base and Ion Exchange Reactions in Soils
　　16.4 Macronutrients in Soil
　　16.5 Nitrogen, Phosphorus, and Potassium in Soil
　　16.6 Micronutrients in Soil
　　16.7 Fertilizers
　　16.8 Wastes and Pollutants in Soil
　　16.9 Soil Loss and Degradation
　　16.10 Genetic Engineering and Agriculture
　　16.11 Agriculture and Health
　　CHAPTER 17: PRINCIPLES OF INDUSTRIAL ECOLOGY
　　17.1 Introduction and History
　　17.2 Industrial Ecosystems
　　17.3 The Five Major Components of an Industrial Ecosystem
　　17.4 Industrial Metabolism
　　17.5 Levels of Materials Utilization
　　17.6 Links to Other Environmental Spheres
　　17.7 Consideration of Environmental Impacts in Industrial Ecology
　　17.8 Three Key Attributes: Energy, Materials, Diversity
　　17.9 Life Cycles: Expanding and Closing the Materials Loop
　　17.10 Life-Cycle Assessment
　　17.11 Consumable, Recyclable, and Service (Durable) Products
　　17.12 Design for Environment
　　17.13 Overview of an Integrated Industrial Ecosystem
　　17.14 The Kalundborg Example
　　© 2001 CRC Press LLC
　　1 7 .1 5 S o c ietal Factors and the Environmental Ethic
　　CHAPTER 18: INDUSTRIAL ECOLOGY, RESOURCES, AND ENERGY
　　18.1 Introduction
　　18.2 Minerals in the Geosphere
　　18.3 Extraction and Mining
　　18.4 Metals
　　18.5 Metal Resources and Industrial Ecology
　　18.6 Nonmetal Mineral Resources
　　18.7 Phosphates
　　18.8 Sulfur
　　18.9 Wood—A Major Renewable Resource
　　18.10 The Energy Problem
　　18.11 World Energy Resources
　　18.12 Energy Conservation
　　18.13 Energy Conversion Processes
　　18.13 Petroleum and Natural Gas
　　18.14 Coal
　　18.15 Nuclear Fission Power
　　18.16 Nuclear Fusion Power
　　18.17 Geothermal Energy
　　18.18 The Sun: An Ideal Energy Source
　　18.19 Energy from Biomass
　　18.20 Future Energy Sources
　　18.21 Extending Resources through the Practice of Industrial Ecology
　　CHAPTER 19: NATURE, SOURCES, AND ENVIRONMENTAL
　　CHEMISTRY OF HAZARDOUS WASTES
　　19.1 Introduction
　　19.2 Classification of Hazardous Substances and Wastes?
　　19.3 Sources of Wastes
　　19.4 Flammable and Combustible Substances
　　19.5 Reactive Substances
　　19.6 Corrosive Substances
　　19.7 Toxic Substances
　　19.8 Physical Forms and Segregation of Wastes
　　19.9 Environmental Chemistry of Hazardous Wastes
　　19.10 Physical and Chemical Properties of Hazardous Wastes
　　CHAPTER 20 INDUSTRIAL ECOLOGY FOR WASTE MINIMIZATION,
　　UTILIZATION, AND TREATMENT
　　20.1 Introduction
　　20.2 Waste Reduction and Minimization
　　20.3 Recycling
　　© 2001 CRC Press LLC
　　19.11 Transport, Effects, and Fates of Hazardous Wastes
　　19.12 Hazardous Wastes and the Anthrosphere
　　19.13 Hazardous Wastes in the Geosphere
　　19.14 Hazardous Wastes in the Hydrosphere
　　19.15 Hazardous Wastes in the Atmosphere
　　19.16 Hazardous Wastes in the Biosphere
　　20.4 Physical Methods of Waste Treatment
　　20.5 Chemical Treatment: An Overview
　　20.6 Photolytic Reactions
　　20.7 Thermal Treatment Methods
　　20.8 Biodegradation of Wastes
　　20.9 Land Treatment and Composting
　　20.10 Preparation of Wastes for Disposal
　　20.11 Ultimate Disposal of Wastes
　　20.12 Leachate and Gas Emissions
　　20.13 In-SituTreatment
　　CHAPTER 21: ENVIRONMENTAL BIOCHEMISTRY
　　21.1 Biochemistry
　　21.2 Biochemistry and the Cell
　　21.3 Proteins
　　21.4 Carbohydrates
　　21.5 Lipids
　　21.6 Enzymes
　　21.7 Nucleic Acids
　　21.8 Recombinant DNA and Genetic Engineering
　　21.9 Metabolic Processes
　　21.10 Metabolism of Xenobiotic Compounds
　　CHAPTER 22: TOXICOLOGICAL CHEMISTRY
　　22.1 Introduction to Toxicology and Toxicological Chemistry
　　22.2 Dose-Response Relationships
　　22.3 Relative Toxicities
　　22.4 Reversibility and Sensitivity
　　22.5 Xenobiotic and Endogenous Substances
　　22.6 Toxicological Chemistry
　　22.7 Kinetic Phase and Dynamic Phase
　　22.8 Teratogenesis, Mutagenesis, Carcinogenesis, and Effects on the Immune
　　and Reproductive Systems
　　22.9 Health Hazards
　　CHAPTER 23: TOXICOLOGICAL CHEMISTRY OF CHEMICAL
　　SUBSTANCES
　　23.1 Introduction
　　23.2 Toxic Elements and Elemental Forms
　　23.3 Toxic Inorganic Compounds
　　23.4 Toxicology of Organic Compounds
　　CHAPTER 24: CHEMICAL ANALYSIS OF WATER AND WASTEWATER
　　24.1 General Aspects of Environmental Chemical Analysis
　　24.2 Classical Methods
　　24.3 Spectrophotometric Methods
　　24.4 Electrochemical Methods of Analysis
　　24.5 Chromatography
　　24.6 Mass Spectrometry
　　© 2001 CRC Press LLC
　　24.7 Analysis of Water Samples
　　24.8 Automated Water Analyses
　　CHAPTER 25: ANALYSIS OF WASTES AND SOLIDS
　　25.1 Introduction
　　25.2 Sample Digestions
　　25.3 Analyte Isolation for Organics Analysis
　　25.4 Sample Cleanups
　　25.5 Immunoassay Screening of Wastes
　　25.6 Determination of Chelating Agents
　　25.7 Toxicity Characteristic Leaching Procedures
　　CHAPTER 26: AIR AND GAS ANALYSIS
　　26.1 Atmospheric Monitoring
　　26.2 Sampling
　　26.3 Methods of Analysis
　　26.4 Determination of Sulfur Dioxide
　　26.5 Nitrogen Oxides
　　26.6 Analysis of Oxidants
　　26.7 Analysis of Carbon Monoxide
　　26.8 Determination of Hydrocarbons and Organics
　　26.9 Analysis of Particulate Matter
　　26.10 Direct Spectrophotometric Analysis of Gaseous Air Pollutants
　　CHAPTER 27: ANALYSIS OF BIOLOGICAL MATERIALS AND
　　XENOBIOTICS
　　27.1 Introduction
　　27.2 Indicators of Exposure to Xenobiotics
　　27.3 Determination of Metals
　　27.4 Determination of Nonmetals and Inorganic Compounds
　　27.5 Determination of Parent Organic Compounds
　　27.6 Measurement of Phase 1 and Phase 2 Reaction Products
　　27.7 Determination of Adducts
　　27.8 The Promise of Immunological Methods
　　CHAPTER 28: FUNDAMENTALS OF CHEMISTRY
　　28.1 Introduction
　　28.2 Elements
　　28.3 Chemical Bonding
　　28.4 Chemical Reactions and Equations
　　28.5 Solutions
　　CHAPTER 29: ORGANIC CHEMISTRY
　　29.1 Organic Chemistry
　　29.2 Hydrocarbons
　　29.3 Organic Functional Groups and Classes of Organic Compounds
　　29.4 Synthetic Polymers
　　© 2001 CRC Press LLC

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