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Elements of Environmental Engineering: Thermodynamics and Kinetics, Third Edition

ISBN: 9781420078190 | 1420078194
Edition: 3rd
Format: Hardcover
Publisher: CRC Press
Pub. Date: 6/9/2009

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SummaryTable of Contents
Revised, updated, and rewritten where necessary, but keeping the clear writing and organizational style that made previous editions so popular, Elements of Environmental Engineering: Thermodynamics and Kinetics, Third Edition contains new problems and new examples that better illustrate theory. The new edition contains examples with a practical flavor such as global warming, ozone layer depletion, nanotechnology, green chemistry, and green engineering. With detailed theoretical discussion and principles illuminated by numerical examples, this b... MORE
... MORE
Prefacep. xi
Authorp. xv
Introductionp. 1
Energy, Population, and Pollutionp. 1
Environmental Standards and Criteriap. 2
The Discipline of Environmental Engineeringp. 2
Chemical Thermodynamics and Kinetics in Environmental Engineeringp. 4
Applications of Thermodynamics and Kineticsp. 4
Equilibrium Partitioningp. 4
Fate and Transport Modelingp. 5
Design of Separation Processesp. 8
Units and Dimensionsp. 11
Structure of the Bookp. 12
Referencesp. 12
Basic Chemical Thermodynamicsp. 13
Equilibriump. 13
Fundamental Laws of Thermodynamicsp. 14
Zeroth Law of Thermodynamicsp. 15
First Law of Thermodynamicsp. 16
Second Law of Thermodynamicsp. 17
Third Law of Thermodynamicsp. 18
Enthalpy and Heat Capacityp. 22
Thermodynamic Standard States: Enthalpies of Reaction, Formation, and Combustionp. 23
Combination of First and Second Lawsp. 25
Chemical Equilibrium and Gibbs Free Energyp. 26
Free Energy Variation with Temperature and Pressurep. 26
Concept of Maximum Workp. 28
Gibbs Free Energy and Chemical Potentialp. 29
Gibbs-Duhem Relationship for a Single Phasep. 30
Standard States for Chemical Potentialp. 31
Thermodynamics of Surfaces and Colloidal Systemsp. 32
Surface Tensionp. 32
Curved Interfaces and the Young-Laplace Equationp. 33
Surface Thickness and Gibbs Dividing Surfacep. 35
Surface Thermodynamics and Gibbs Equationp. 36
Gibbs Adsorption Equationp. 37
Problemsp. 37
Referencesp. 41
Multicomponent Equilibrium Thermodynamicsp. 43
Ideal and Nonideal Fluidsp. 43
Concentration Units in Environmental Engineeringp. 44
Dilute Solution Definitionp. 45
Fugacityp. 45
Fugacity of Gasesp. 46
Fugacity of Condensed Phases (Liquids and Solids)p. 46
Activities of Solutes and Activity Coefficientsp. 47
Ionic Strength and Activity Coefficientsp. 49
Fugacity and Environmental Modelsp. 51
Ideal Solutions and Dilute Solutionsp. 55
Vapor-Liquid Equilibrium: Henry's and Raoult's Lawsp. 55
Henry's Lawp. 55
Raoult's Lawp. 56
Vapor Pressure of Organic Compounds, Clausius-Clapeyron Equationp. 58
Vapor Pressure over Curved Surfacesp. 63
Liquid-Liquid Equilibriump. 66
Octanol-Water Partition Constantp. 66
Linear Free Energy Relationshipsp. 69
Nonideal Solutionsp. 69
Activity Coefficient for Nonideal Systemsp. 69
Excess Functions and Activity Coefficientsp. 70
Activity Coefficient and Solubilityp. 70
Correlations with Hydrophobicityp. 72
Special Structural Features of Waterp. 73
Hydrophobic Hydration of Nonpolar Solutesp. 75
Hydrophobic Interactions between Solutesp. 78
Hydrophilic Interactions for Solutes in Waterp. 79
Molecular Theories of Solubility: An Overviewp. 80
Structure-Activity Relationships and Activity Coefficients in Waterp. 82
Theoretical and Semi-Empirical Approaches to Aqueous Solubility Predictionp. 83
First-Generation Group Contribution Methodsp. 83
Excess Gibbs Free Energy Modelsp. 86
Second-Generation Group Contribution Methods: The UNIFAC Methodp. 86
Solubility of Inorganic Compounds in Waterp. 88
Adsorption on Surfaces and Interfacesp. 88
Gibbs Equation for Nonionic and Ionic Systemsp. 89
Equilibrium Adsorption Isotherms at Interfacesp. 90
Adsorption at Charged Surfacesp. 101
Problemsp. 103
Referencesp. 116
Applications of Equilibrium Thermodynamicsp. 119
Air-Water Phase Equilibriump. 119
Estimation of Henry's Constant from Group Contributionsp. 123
Experimental Determination of Henry's Law Constantsp. 125
Effects of Environmental Variables on Kawp. 126
Air-Water Equilibrium in Atmospheric Chemistryp. 136
Wet Deposition of Vapor Speciesp. 137
Wet Deposition of Aerosol-Bound Fractionp. 138
Dry Deposition of Aerosol-Bound Pollutantsp. 143
Dry Deposition Flux of Gases from the Atmospherep. 144
Thermodynamics of Aqueous Droplets in the Atmospherep. 147
Air/Water Equilibrium in Waste Treatment Systemsp. 150
Soil-Water and Sediment-Water Equilibriump. 152
Partitioning into Soils and Sediments from Waterp. 153
Adsorption of Metal Ions on Soils and Sedimentsp. 155
Adsorption of Organic Molecules on Soils and Sedimentsp. 159
Biota/Water Partition Constant (Bioconcentration Factor)p. 164
Air-to-Aerosol Partition Constantp. 167
Air-to-Vegetation Partition Constantp. 171
Adsorption on Activated Carbon for Wastewater Treatmentp. 172
Problemsp. 175
Referencesp. 183
Concepts from Chemical Reaction Kineticsp. 189
Progress toward Equilibrium in a Chemical Reactionp. 190
Reaction Rate, Order, and Rate Constantp. 193
Kinetic Rate Lawsp. 194
Isolation Methodp. 195
Initial Rate Methodp. 195
Integrated Rate Lawsp. 195
Reversible Reactionsp. 198
Series Reactions and Steady-State Approximationp. 201
Parallel Reactionsp. 207
Activation Energyp. 208
Activated Complex Theoryp. 210
Effect of Solvent on Reaction Ratesp. 213
Linear Free Energy Relationshipsp. 215
Reaction Mechanismsp. 216
Chain Reactionsp. 216
Reactions in Solutionsp. 219
Effects of Ionic Strength on Rate Constantsp. 219
Environmental Catalysisp. 221
Mechanisms and Rate Expressions for Catalyzed Reactionsp. 222
Homogeneous Catalysisp. 224
Heterogeneous Catalysisp. 228
General Mechanisms of Surface Catalysisp. 228
Autocatalysis in Environmental Reactionsp. 234
Redox Reactions in Environmental Systemsp. 237
Rates of Redox Reactionsp. 240
Environmental Photochemical Reactionsp. 244
Enzyme Catalysisp. 247
Michaelis-Menten Kinetics and Monod Kineticsp. 247
Problemsp. 254
Referencesp. 264
Applications of Chemical Kinetics in Environmental Systemsp. 267
Types of Reactorsp. 267
Ideal Reactorsp. 267
Batch Reactorp. 269
Continuous-Flow Stirred Tank Reactorp. 269
Plug-Flow Reactor (PFR) or Tubular Reactorp. 270
Design Equations for CSTR and PFRp. 271
Relationship between Steady State and Equilibrium for a CSTRp. 276
Nonideal Reactorsp. 277
Dispersion Modelp. 277
Tanks-in-Series Modelp. 278
Dispersion and Reactionp. 280
Reaction in a Heterogeneous Mediump. 281
Kinetics and Transport at Fluid-Fluid Interfacesp. 284
Diffusion and Reaction in a Porous Mediump. 286
The Water Environmentp. 290
Fate and Transportp. 290
Chemicals in Lakes and Oceansp. 290
Chemicals in Surface Watersp. 293
Biochemical Oxygen Demand in Natural Streamsp. 295
Water Pollution Controlp. 299
Air Stripping in Aeration Basinsp. 299
Oxidation Reactorp. 303
Photochemical Reactions and Wastewater Treatmentp. 309
Photochemical Reactions in Natural Watersp. 311
The Air Environmentp. 313
F&T Modelsp. 313
Box Modelsp. 313
Dispersion Modelsp. 319
Air Pollution Controlp. 324
Adsorptionp. 324
Thermal Destructionp. 327
Atmospheric Processesp. 330
Reactions in Aqueous Dropletsp. 330
Global Warming and Greenhouse Effectp. 337
Ozone in the Stratosphere and Tropospherep. 347
Soil and Sediment Environmentsp. 357
F&T Modelingp. 357
Transport in Groundwaterp. 358
Sediment-Water Exchange of Chemicalsp. 364
Soil-Air Exchange of Chemicalsp. 366
Soil and Groundwater Treatmentp. 369
P&T for NAPL Removal from Groundwaterp. 370
In Situ Soil Vapor Stripping in the Vadose Zonep. 373
Incineration for ex Situ Treatment of Soils and Solid Wastep. 375
Applications of Chemical Kinetics in Environmental Bioengineeringp. 376
Enzyme Reactorsp. 380
Batch Reactorp. 381
Plug-Flow Enzyme Reactorp. 382
Continuous Stirred Tank Enzyme Reactorp. 383
Immobilized Enzyme or Cell Reactorp. 387
In Situ Subsoil Bioremediationp. 391
Kinetics of Bioaccumulation of Chemicals in the Aquatic Food Chainp. 393
Applications in Green Engineeringp. 398
Environmental Impact Analysisp. 399
Life Cycle Assessmentp. 405
Problemsp. 406
Referencesp. 420
Properties of Selected Chemicals of Environmental Significancep. 425
Standard Free Energy, Enthalpy, and Entropy of Formation for Compounds of Environmental Significancep. 431
Selected Fragment (bj) and Structural Factors (Bk) for Octanol-Water Partition Constant Estimationp. 433
Concentration Units for Compartments in Environmental Engineeringp. 435
Dissociation Constants for Environmentally Significant Acids and Basesp. 437
Bond Contributions to Log Kaw for the Meylan and Howard Modelp. 439
Regression Analysis (the Linear Least-Squares Methodology)p. 441
Error Function and Complementary Error Function Definitionsp. 445
Cancer Slope Factor and Inhalation Unit Risk for Selected Carcinogensp. 447
U.S. National Ambient Air Quality Standardsp. 449
Indexp. 451
Table of Contents provided by Ingram. All Rights Reserved.


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