Description |
1 online resource (779 pages) |
Contents |
Cover; Title Page; Copyright Page; Dedication; PREFACE; TEH AUTHOR; Table of Contents; Chapter 1: Overview; 1.1 Introduction; 1.2 Natural Waters as Nonequilibrium Systems; 1.3 Scope of this Book; References; Bibliography; Chapter 2: Rate Expressions for Chemical Reactions; 2.1 Introduction; 2.2 Elementary Rate Equations; 2.3 Rate Equations for More Complicated Reactions; 2.4 Determination of Rate Equations and Rate Parameters from Experimental Data; 2.5 Relationships Between Rate Equations and Reaction Mechanisms; 2.6 Experimental Aspects of Kinetic Studies; References |
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Chapter 3: Theoretical Aspects of Kinetics and Effects of Physical Conditions on Reaction Rates3.1 Introduction; 3.2 Effects of Temperature on Reaction Rates: The Arrhenius Equation; 3.3 Properties of Water and Reactants in Aqueous Solution; 3.4 Encounter Theory for Reactions in Solution; 3.5 Transition-State/Activated-Complex Theory; 3.6 Effects of Pressure on Rates of Reactions in Solution; 3.7 Effects of Ionic Strength on Reaction Rates; 3.8 Ranges of Values for Kinetic Parameters: Summary and Perspective; References |
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Chapter 4: Kinetics of Chemical Reactions in Aquatic Systems: From Homogeneous Catalysis to Reactions at InterfacesOverview; Part I. Homogeneous Catalysis; 4.1 Introduction; 4.2 Types and Mechanisms of Homogeneous Catalysts; 4.3 Rate Equations for Catalyzed Reactions; Part II. Kinetics of Chemical Reactions in Aqueous Solution; 4.4 Dissociation and Hydrolysis Reactions in Natural Waters; 4.5 Chlorination Reactions; 4.6 Inorganic Redox Reactions; Part Ill. Reactions at Interfaces; 4. 7 Gas Transfer; 4.8 Mineral Dissolution and Formation; References |
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Chapter 5: Reactors, Mass Transport, and Process ModelsPart I. Reactor Theory; 5.1 Fundamentals of Chemical Reactors; 5.2 Principles of Mass Balance Analysis; 5.3 Comparative Behavior of CFSTRs and PFRs; Part II. Applications of Reactor Models to Natural Aquatic Systems; 5.4 Equilibrium vs. Kinetic Models for Open Systems; 5.5 Nutrient Models; 5.6 Models of Organic Contaminant Transport and Fate; 5.7 CFSTR Models for Sulfate and Alkalinity in Lakes; 5.8 Other Applications of Reactor Models in Lakes; Part Ill. Kinetics of Multicompartment Systems; 5.9 Nature of Multicompartment Systems |
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5.10 Analysis of Compartment Models by Matrix Methods5.11 The Inverse Problem; References; Chapter 6: Kinetics of Biochemical Reactions and Microbial Processes in Natural Waters; Overview; Part I. Biochemical Kinetics: Enzyme-Catalyzed Reactions; 6.1 Reactions Involving a Single Substrate; 6.2 Multisubstrate Reactions; 6.3 Enzyme Inhibition; 6.4 Theoretical Aspects of Enzyme Catalysis; Part II. Kinetics of Microbial Processes; 6.5 Kinetics of Nutrient-Limited Microbial Growth; 6.6 Continuous Culture of Microorganisms; 6.7 Effects of Temperature on Microbial Growth |
Notes |
6.8 Kinetic Models of Heterotrophic Growth in Aquatic Systems |
Bibliography |
Includes bibliographical references |
Notes |
Print version record |
Subject |
Water chemistry.
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Chemical kinetics.
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Chemical kinetics
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Water chemistry
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Form |
Electronic book
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ISBN |
9781351461511 |
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1351461516 |
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9781351461504 |
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1351461508 |
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9781351461498 |
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1351461494 |
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9781315139135 |
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1315139138 |
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