Search Results - "chemical equilibrium"

Chemical equilibrium and analysis / by Ramette, Richard W., 1927-

Subjects: “…Chemical equilibrium.…”

Chemical equilibrium and analysis / by Ramette, Richard W., 1927-

Subjects: “…Chemical equilibrium.…”

Electrochemistry of metal complexes : applications from electroplating to oxide layer formation / by Survila, Arvydas

Subjects: “…Chemical equilibrium.…”
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Electrochemistry of metal complexes : applications from electroplating to oxide layer formation / by Survila, Arvydas

Subjects: “…Chemical equilibrium.…”
An electronic book accessible through the World Wide Web; click to view

Basics of analytical chemistry and chemical equilibria by Tissue, Brian M., 1961-

Subjects: “…Chemical equilibrium Textbooks.…”
An electronic book accessible through the World Wide Web; click to view

Basics of analytical chemistry and chemical equilibria by Tissue, Brian M., 1961-

Subjects: “…Chemical equilibrium Textbooks.…”
An electronic book accessible through the World Wide Web; click to view

Physical and chemical equilibrium for chemical engineers by De Nevers, Noel, 1932-

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Physical and chemical equilibrium for chemical engineers by De Nevers, Noel, 1932-

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Chemical change in deforming materials by Bayly, M. Brian, 1929-

Subjects: “…Chemical equilibrium.…”
An electronic book accessible through the World Wide Web; click to view

Chemical change in deforming materials by Bayly, M. Brian, 1929-

Subjects: “…Chemical equilibrium.…”
An electronic book accessible through the World Wide Web; click to view

Chemical equilibria / by Soustelle, Michel

Subjects: “…Chemical equilibrium Mathematical models.…”
An electronic book accessible through the World Wide Web; click to view

Chemical equilibria / by Soustelle, Michel

Subjects: “…Chemical equilibrium Mathematical models.…”
An electronic book accessible through the World Wide Web; click to view

Analytic combustion with thermodynamics, chemical kinetics, and mass transfer / by Date, Anil W. (Anil Waman)

Table of Contents: “…Thermodynamics of gaseous mixtures; 4. Chemical equilibrium; 5. Chemical kinetics; 6. Derivation of transport equations; 7. …”
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Analytic combustion with thermodynamics, chemical kinetics, and mass transfer / by Date, Anil W. (Anil Waman)

Table of Contents: “…Thermodynamics of gaseous mixtures; 4. Chemical equilibrium; 5. Chemical kinetics; 6. Derivation of transport equations; 7. …”
An electronic book accessible through the World Wide Web; click to view

Physical chemistry : how chemistry works / by Kolasinski, Kurt W.

Table of Contents: “…Introduction -- Statistical mechanics -- Ideal gases -- Non-ideal gases and intermolecular interactions -- Liquids, liquid crystals, and ionic liquids -- Solids, nanoparticles, and interfaces -- First law of thermodynamics -- Second law of thermodynamics -- Third law of thermodynamics and temperature dependence of heat capacity, enthalpy, and entropy -- Thermochemistry : the role of heat in chemical and physical changes -- Chemical equilibrium -- Phase stability and phase transitions -- Solutions and mixtures : nonelectrolytes -- Solutions of electrolytes -- Electrochemistry : the chemistry of free charge exchange -- Empirical chemical kinetics -- Reaction dynamics : mechanisms and rates -- Complex reactions mechanisms : catalysis, photochemistry and charge transfer -- Developing quantum mechanical intuition -- The quantum mechanical description of nature -- Model quantum systems -- Atomic structure -- Introduction to spectroscopy and atomic spectroscopy -- Molecular bonding and structure -- Molecular spectroscopy & excited state dynamics : diatomics -- Polyatomic molecules and group theory -- Light-matter interactions : lasers, laser spectroscopy, and photodynamics.…”
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Physical chemistry : how chemistry works / by Kolasinski, Kurt W.

Table of Contents: “…Introduction -- Statistical mechanics -- Ideal gases -- Non-ideal gases and intermolecular interactions -- Liquids, liquid crystals, and ionic liquids -- Solids, nanoparticles, and interfaces -- First law of thermodynamics -- Second law of thermodynamics -- Third law of thermodynamics and temperature dependence of heat capacity, enthalpy, and entropy -- Thermochemistry : the role of heat in chemical and physical changes -- Chemical equilibrium -- Phase stability and phase transitions -- Solutions and mixtures : nonelectrolytes -- Solutions of electrolytes -- Electrochemistry : the chemistry of free charge exchange -- Empirical chemical kinetics -- Reaction dynamics : mechanisms and rates -- Complex reactions mechanisms : catalysis, photochemistry and charge transfer -- Developing quantum mechanical intuition -- The quantum mechanical description of nature -- Model quantum systems -- Atomic structure -- Introduction to spectroscopy and atomic spectroscopy -- Molecular bonding and structure -- Molecular spectroscopy & excited state dynamics : diatomics -- Polyatomic molecules and group theory -- Light-matter interactions : lasers, laser spectroscopy, and photodynamics.…”
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Trace metals in aquatic systems by Mason, Robert P. (Robert Peter), 1956-

Table of Contents: “…Chapter Summary Chapter 4: Modeling Approaches to Estimating Speciation and Interactions in Aqueous Systems 4.1 Introduction 4.2 The Underlying Basis and Application of Chemical Equilibrium Models 4.3 Adsorption Modeling 4.4 Modeling Interactions between Cations and Organic Matter and Inorganic Surfaces 4.5 Modeling Redox Transformations 4.6 Modeling the Kinetics of Reactions 4.7 Incorporating Kinetics and Thermodynamics into Fate and Transport Modeling 4.8. …”
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Trace metals in aquatic systems by Mason, Robert P. (Robert Peter), 1956-

Table of Contents: “…Chapter Summary Chapter 4: Modeling Approaches to Estimating Speciation and Interactions in Aqueous Systems 4.1 Introduction 4.2 The Underlying Basis and Application of Chemical Equilibrium Models 4.3 Adsorption Modeling 4.4 Modeling Interactions between Cations and Organic Matter and Inorganic Surfaces 4.5 Modeling Redox Transformations 4.6 Modeling the Kinetics of Reactions 4.7 Incorporating Kinetics and Thermodynamics into Fate and Transport Modeling 4.8. …”
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Principles of water treatment by Howe, Kerry J.

Table of Contents: “…Machine generated contents note: PrefaceAcknowledgmentsChapter 1 Introduction1-1 The Importance of Principles1-2 The Importance of SustainabilityReferencesChapter 2 Water Quality and Public Health2-1 Relationship between Water Quality and Public Health2-2 Source Waters for Municipal Drinking Water Systems2-3 Regulations of Water Treatment in the United States2-4 Evolving Trends and Challenges in Drinking Water Treatment2-5 Summary and Study GuideReferencesChapter 3 Process Selection3-1 Process Selection Based on Contaminant Properties3-2 Other Considerations in Process Selection3-4 Design and Selection of Process Trains3-5 Summary and Study GuideHomework ProblemsReferencesChapter 4 Fundamental Principles of Environmental Engineering4-1 Units of Expression for Chemical Concentrations4-2 Chemical Equilibrium4-3 Chemical Kinetics4-4 Reactions Used in Water Treatment4-5 Mass Balance Analysis4-6 Introduction to Reactors and Reactor Analysis4-7 Reactions in Batch Reactors4-8 Hydraulic Characteristics of Ideal Flow Reactors4-9 Reactions in Ideal Flow Reactors4-10 Measuring the Hydraulic Characteristics of Flow Reactors with Tracer Tests4-11 Describing the Hydraulic Performance of Real Flow Reactors4-12 Reactions in Real Flow Reactors4-13 Introduction to Mass Transfer4-14 Molecular Diffusion4-15 Diffusion Coefficients4-16 Models and Correlations for Mass Transfer at an Interface4-17 Evaluating the Concentration Gradient with Operating Diagrams4-18 Summary and Study GuideHomework ProblemsReferencesChapter 5 Coagulation and Flocculation5-1 Role of Coagulation and Flocculation in Water Treatment5-2 Stability of Particles in Water5-3 Theory of Coagulation5-4 Coagulation Practice5-5 Principles of Mixing for Coagulation and Flocculation5-6 Rapid Mix Practice5-7 Theory of Flocculation5-8 Flocculation Practice5-9 Energy and Sustainability Considerations5-10 Summary and Study GuideHomework ProblemsReferencesChapter 6 Sedimentation6-1 Principles of Discrete (Type I) Particle Settling6-2 Discrete Settling in Ideal Sedimentation Basins6-3 Principles of Flocculant (Type II) Particle Settling6-4 Principles of Hindered (Type III) Settling6-5 Conventional Sedimentation Basin Design6-6 Alternative Sedimentation Processes6-7 Physical Factors Affecting Sedimentation6-8 Energy and Sustainability Considerations6-9 Summary and Study GuideHomework ProblemsReferencesChapter 7 Rapid Granular Filtration7-1 Physical Description of a Rapid Granular Filter7-2 Process Description of Rapid Filtration7-3 Particle Capture in Granular Filtration7-4 Head Loss through a Clean Filter Bed7-5 Modeling of Performance and Optimization7-6 Backwash Hydraulics7-7 Energy and Sustainability Considerations7-8 Summary and Study GuideHomework ProblemsReferencesChapter 8 Membrane Filtration8-1 Classification of Membrane Processes8-2 Comparison to Rapid Granular Filtration8-3 Principal Features of Membrane Filtration Equipment8-4 Process Description of Membrane Filtration8-5 Particle Capture in Membrane Filtration8-6 Hydraulics of Flow through Membrane Filters8-7 Membrane Fouling8-8 Sizing of Membrane Skids8-9 Energy and Sustainability Considerations8-10 Summary and Study GuideHomework ProblemsReferencesChapter 9 Reverse Osmosis9-1 Principal Features of a Reverse Osmosis Facility9-2 Osmotic Pressure and Reverse Osmosis9-3 Mass Transfer of Water and Solutes through RO Membranes9-4 Performance Dependence on Temperature and Pressure9-5 Concentration Polarization9-6 Fouling and Scaling9-7 Element Selection and Membrane Array Design9-8 Energy and Sustainability Considerations9-9 Summary and Study GuideHomework ProblemsReferencesChapter 10 Adsorption and Ion Exchange10-1 Introduction to the Adsorption Process10-2 Adsorption Equilibrium10-3 Adsorption Kinetics10-4 Introduction to the Ion Exchange Process10-5 Ion Exchange Equilibrium10-6 Ion Exchange Kinetics10-7 Fixed Bed Contactors10-8 Suspended Media Reactors10-9 Energy and Sustainability Considerations10-10 Summary and Learning Objectives10-11 Homework ProblemsReferencesChapter 11 Air stripping and aeration11-1 Types of Air Stripping and Aeration Contactors11-2 Gas-Liquid Equilibrium11-3 Fundamentals of Packed Tower Air Stripping11-4 Design and Analysis of Packed Tower Air Stripping11-5 Energy and Sustainability Considerations11-6 Summary and Study GuideHomework ProblemsReferencesChapter 12 Advanced Oxidation12-1 Introduction to Advanced Oxidation12-2 Ozonation as an Advanced Oxidation Process12-3 Hydrogen Peroxide/Ozone Process12-4 Hydrogen Peroxide/UV Light Process12-5 Energy and Sustainability Considerations12-6 Summary and Study GuideHomework ProblemsReferencesChapter 13 Disinfection13-1 Disinfection Agents and Systems13-2 Disinfection with Free and Combined Chlorine13-3 Disinfection with Chlorine Dioxide13-4 Disinfection with Ozone13-5 Disinfection with Ultraviolet Light13-6 Disinfection Kinetics13-7 Disinfection Kinetics in Real Flow Reactors13-8 Design of Disinfection Contactors With Low Dispersion13-9 Disinfection Byproducts13-10 Residual Maintenance13-11 Energy and Sustainability Considerations13-12 Summary and Study GuideHomework ProblemsReferences14 Residuals Management14-1 Defining the Problem14-2 Physical, Chemical, and Biological Properties of Residuals14-3 Alum and Iron Coagulation Sludge14-4 Liquid Wastes From Granular Media Filters14-5 Management of Residual Liquid Streams14-6 Management of Residual Sludge14-7 Ultimate Reuse and Disposal of Semisolid Residuals14-8 Summary and Study GuideHomework ProblemsReferencesAppendix A Conversion FactorsAppendix B Physical Properties of Selected Gases and Composition of AirB-1 Density of Air at Other TemperaturesB-2 Change in Atmospheric Pressure with ElevationAppendix C Physical Properties of WaterAppendix D Periodic TableAppendix E Electronic Resources available on the John Wiley and Sons website for this TextbookIndex.…”
An electronic book accessible through the World Wide Web; click to view

Principles of water treatment by Howe, Kerry J.

Table of Contents: “…Machine generated contents note: PrefaceAcknowledgmentsChapter 1 Introduction1-1 The Importance of Principles1-2 The Importance of SustainabilityReferencesChapter 2 Water Quality and Public Health2-1 Relationship between Water Quality and Public Health2-2 Source Waters for Municipal Drinking Water Systems2-3 Regulations of Water Treatment in the United States2-4 Evolving Trends and Challenges in Drinking Water Treatment2-5 Summary and Study GuideReferencesChapter 3 Process Selection3-1 Process Selection Based on Contaminant Properties3-2 Other Considerations in Process Selection3-4 Design and Selection of Process Trains3-5 Summary and Study GuideHomework ProblemsReferencesChapter 4 Fundamental Principles of Environmental Engineering4-1 Units of Expression for Chemical Concentrations4-2 Chemical Equilibrium4-3 Chemical Kinetics4-4 Reactions Used in Water Treatment4-5 Mass Balance Analysis4-6 Introduction to Reactors and Reactor Analysis4-7 Reactions in Batch Reactors4-8 Hydraulic Characteristics of Ideal Flow Reactors4-9 Reactions in Ideal Flow Reactors4-10 Measuring the Hydraulic Characteristics of Flow Reactors with Tracer Tests4-11 Describing the Hydraulic Performance of Real Flow Reactors4-12 Reactions in Real Flow Reactors4-13 Introduction to Mass Transfer4-14 Molecular Diffusion4-15 Diffusion Coefficients4-16 Models and Correlations for Mass Transfer at an Interface4-17 Evaluating the Concentration Gradient with Operating Diagrams4-18 Summary and Study GuideHomework ProblemsReferencesChapter 5 Coagulation and Flocculation5-1 Role of Coagulation and Flocculation in Water Treatment5-2 Stability of Particles in Water5-3 Theory of Coagulation5-4 Coagulation Practice5-5 Principles of Mixing for Coagulation and Flocculation5-6 Rapid Mix Practice5-7 Theory of Flocculation5-8 Flocculation Practice5-9 Energy and Sustainability Considerations5-10 Summary and Study GuideHomework ProblemsReferencesChapter 6 Sedimentation6-1 Principles of Discrete (Type I) Particle Settling6-2 Discrete Settling in Ideal Sedimentation Basins6-3 Principles of Flocculant (Type II) Particle Settling6-4 Principles of Hindered (Type III) Settling6-5 Conventional Sedimentation Basin Design6-6 Alternative Sedimentation Processes6-7 Physical Factors Affecting Sedimentation6-8 Energy and Sustainability Considerations6-9 Summary and Study GuideHomework ProblemsReferencesChapter 7 Rapid Granular Filtration7-1 Physical Description of a Rapid Granular Filter7-2 Process Description of Rapid Filtration7-3 Particle Capture in Granular Filtration7-4 Head Loss through a Clean Filter Bed7-5 Modeling of Performance and Optimization7-6 Backwash Hydraulics7-7 Energy and Sustainability Considerations7-8 Summary and Study GuideHomework ProblemsReferencesChapter 8 Membrane Filtration8-1 Classification of Membrane Processes8-2 Comparison to Rapid Granular Filtration8-3 Principal Features of Membrane Filtration Equipment8-4 Process Description of Membrane Filtration8-5 Particle Capture in Membrane Filtration8-6 Hydraulics of Flow through Membrane Filters8-7 Membrane Fouling8-8 Sizing of Membrane Skids8-9 Energy and Sustainability Considerations8-10 Summary and Study GuideHomework ProblemsReferencesChapter 9 Reverse Osmosis9-1 Principal Features of a Reverse Osmosis Facility9-2 Osmotic Pressure and Reverse Osmosis9-3 Mass Transfer of Water and Solutes through RO Membranes9-4 Performance Dependence on Temperature and Pressure9-5 Concentration Polarization9-6 Fouling and Scaling9-7 Element Selection and Membrane Array Design9-8 Energy and Sustainability Considerations9-9 Summary and Study GuideHomework ProblemsReferencesChapter 10 Adsorption and Ion Exchange10-1 Introduction to the Adsorption Process10-2 Adsorption Equilibrium10-3 Adsorption Kinetics10-4 Introduction to the Ion Exchange Process10-5 Ion Exchange Equilibrium10-6 Ion Exchange Kinetics10-7 Fixed Bed Contactors10-8 Suspended Media Reactors10-9 Energy and Sustainability Considerations10-10 Summary and Learning Objectives10-11 Homework ProblemsReferencesChapter 11 Air stripping and aeration11-1 Types of Air Stripping and Aeration Contactors11-2 Gas-Liquid Equilibrium11-3 Fundamentals of Packed Tower Air Stripping11-4 Design and Analysis of Packed Tower Air Stripping11-5 Energy and Sustainability Considerations11-6 Summary and Study GuideHomework ProblemsReferencesChapter 12 Advanced Oxidation12-1 Introduction to Advanced Oxidation12-2 Ozonation as an Advanced Oxidation Process12-3 Hydrogen Peroxide/Ozone Process12-4 Hydrogen Peroxide/UV Light Process12-5 Energy and Sustainability Considerations12-6 Summary and Study GuideHomework ProblemsReferencesChapter 13 Disinfection13-1 Disinfection Agents and Systems13-2 Disinfection with Free and Combined Chlorine13-3 Disinfection with Chlorine Dioxide13-4 Disinfection with Ozone13-5 Disinfection with Ultraviolet Light13-6 Disinfection Kinetics13-7 Disinfection Kinetics in Real Flow Reactors13-8 Design of Disinfection Contactors With Low Dispersion13-9 Disinfection Byproducts13-10 Residual Maintenance13-11 Energy and Sustainability Considerations13-12 Summary and Study GuideHomework ProblemsReferences14 Residuals Management14-1 Defining the Problem14-2 Physical, Chemical, and Biological Properties of Residuals14-3 Alum and Iron Coagulation Sludge14-4 Liquid Wastes From Granular Media Filters14-5 Management of Residual Liquid Streams14-6 Management of Residual Sludge14-7 Ultimate Reuse and Disposal of Semisolid Residuals14-8 Summary and Study GuideHomework ProblemsReferencesAppendix A Conversion FactorsAppendix B Physical Properties of Selected Gases and Composition of AirB-1 Density of Air at Other TemperaturesB-2 Change in Atmospheric Pressure with ElevationAppendix C Physical Properties of WaterAppendix D Periodic TableAppendix E Electronic Resources available on the John Wiley and Sons website for this TextbookIndex.…”
An electronic book accessible through the World Wide Web; click to view