Verfügbarkeit: Concise chemical thermodynamics

Concise chemical thermodynamics:

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1. Verfasser:	Peters, A. P. H. (VerfasserIn)
Format:	Buch
Sprache:	English
Veröffentlicht:	Boca Raton, FL. [u.a.] CRC Press 2010
Ausgabe:	3. ed.
Schlagworte:	Thermodynamics Thermochemie
Online-Zugang:	Inhaltsverzeichnis
Beschreibung:	XIX, 214 S. Ill., graph. Darst.
ISBN:	9781439813324

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Datensatz im Suchindex

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adam_text	Titel: Concise chemical thermodynamics Autor: Peters, A. P. H Jahr: 2010 Contents Preface......................................................................................................................ix Preface to the Second Edition...................................................................................xi Preface to the First Edition....................................................................................xiii Author......................................................................................................................xv Symbols and Abbreviations...................................................................................xvii Chapter 1 Energy..................................................................................................1 1.1 The Realm of Thermodynamics..............................................................1 1.1.1 Energy Bookkeeping.................................................................2 1.1.2 Nature s Driving Forces............................................................6 1.2 Setting the Scene: Basic Ideas.................................................................7 1.2.1 System and Surroundings.........................................................7 1.2.2 Functions of State......................................................................7 1.2.3 Mechanical Work and Expanding Gases..................................8 1.2.4 The Absolute Temperature Scale..............................................9 1.3 Forms of Energy and Their Interconversion..........................................11 1.4 Forms of Renewable Energy..................................................................17 1.4.1 Solar Energy............................................................................17 1.4.2 Wind Energy...........................................................................18 1.4.3 Hydroelectric Power................................................................18 1.4.4 Geothermal Energy.................................................................19 1.4.5 Biomass Energy......................................................................19 References.......................................................................................................19 Problems.........................................................................................................20 Chapter 2 The First Law of Thermodynamics....................................................21 2.1 Statement of the First Law.....................................................................21 2.1.1 Reversible Expansion of an Ideal Gas.....................................23 2.1.2 Constant-Volume Processes....................................................23 2.1.3 Constant-Pressure Processes...................................................24 2.2 A New Function: Enthalpy....................................................................24 2.2.1 Relationship between A// and AU..........................................25 2.3 Uses and Conventions of AH.................................................................26 2.3.1 Enthalpy Change of Reaction..................................................26 2.3.2 Standard Enthalpies of Formation..........................................27 2.3.3 The Many Uses of AfH° Data.................................................29 References.......................................................................................................35 Problems.........................................................................................................35 vi Contents Chapter 3 Thermochemistry...............................................................................39 3.1 Calorimetry............................................................................................39 3.1.1 Bomb Calorimeters.................................................................39 3.1.2 Differential Scanning Calorimetry.........................................43 3.2 Concepts of Heat Capacity.....................................................................44 3.2.1 Combustion and Flame Temperatures....................................49 3.2.2 Variation of Reaction Enthalpies with Temperature...............51 3.3 BondEnergies........................................................................................53 3.3.1 Average Bond Dissociation Energies......................................54 References.......................................................................................................57 Problems.........................................................................................................57 Chapter 4 Spontaneous Changes.........................................................................59 4.1 Everyday Processes................................................................................59 4.2 Exothermicity: A Possible Criterion......................................................60 4.2.1 Spontaneous Exothermic Processes........................................60 4.2.2 Spontaneous Processes Involving No Heat Change................60 4.2.3 Endothermic Processes...........................................................62 4.3 The Second Driving Force.....................................................................62 Problems.........................................................................................................63 Chapter 5 Entropy...............................................................................................65 5.1 Measurement of Entropy........................................................................65 5.1.1 The Second Law of Thermodynamics....................................65 5.1.2 Reversibility and Entropy........................................................66 5.1.2.1 Isothermal Expansion of Gases.............................67 5.1.2.2 Reversible Transfer of Heat....................................67 5.1.2.3 An Irreversible Change..........................................69 5.1.3 Changes in Entropy with Temperature...................................71 5.1.4 An Adiabatic Compression.....................................................71 5.2 Absolute Entropies.................................................................................72 5.2.1 TheThird Law of Thermodynamics.......................................72 5.2.2 AS for Phase Changes.............................................................74 5.3 The Direction of Time...........................................................................77 Reference........................................................................................................77 Problems.........................................................................................................77 Chapter 6 Free Energy: The Arbiter...................................................................81 6.1 Processes in Isolated Systems................................................................81 6.2 Gibbs Free Energy, G.............................................................................83 6.3 Gibbs Free Energy and Maximum Work...............................................84 6.4 Some Processes in Terms of Gibbs Free Energy...................................86 6.4.1 Adsorption Processes..............................................................86 Contents vii 6.4.2 Evaporation Phenomena..........................................................86 6.4.3 Endothermic Chemical Processes...........................................88 6.4.4 Exothermic Chemical Process................................................90 6.5 Standard Free Energy Changes..............................................................91 Reference........................................................................................................91 Problems.........................................................................................................92 Chapter 7 Chemical Equilibrium........................................................................95 7.1 Preamble................................................................................................95 7.2 Variation of G with Gas Pressure..........................................................96 7.2.1 Chemical Potential, u..............................................................97 7.2.2 Pressure and Chemical Potential for Ideal Gases.................102 7.2.3 Chemical Potential for Real Gases.......................................103 7.2.4 Activity..................................................................................106 7.3 The Active Mass of Pure Liquids and Solids.......................................107 7.4 Activity of Materials in Solution.........................................................108 7.4.1 Solvents.................................................................................108 7.4.2 Solutes or Minor Components..............................................108 7.5 A Summing Up: Activity as a Unifying Concept................................109 7.6 Practical Aspects of Activity...............................................................109 7.7 Equilibrium and the Reaction Isotherm...............................................110 7.8 Summary..............................................................................................116 References.....................................................................................................116 Problems.......................................................................................................116 Chapter 8 Equilibrium Experiments and Their Interpretation.........................121 8.1 The Reaction Isochore Equation..........................................................121 8.1.1 Le Chatelier Up to Date........................................................124 8.2 Applications of the Isochore Equation.................................................124 8.2.1 Vaporization Processes.........................................................125 8.2.2 The Decomposition of the Compound Fe(OH)3....................127 8.2.3 The High-Temperature Dissociation of Water Vapor...........129 8.3 The Clapeyron Equation......................................................................131 8.4 Summary..............................................................................................132 References.....................................................................................................133 Problems.......................................................................................................133 Chapter 9 Electrochemical Cells......................................................................137 9.1 Electrochemical Cells..........................................................................137 9.2 Cell Energetics.....................................................................................140 9.3 Standard Electrode Potentials..............................................................142 9.4 Variation of Cell Electromotive Force with Activity...........................145 9.4.1 Ionic Activities......................................................................149 9.4.2 Analysis of Electromotive Force Data to Find E°.................150 viü Contents 9.5 Variation of Electromotive Force with Temperature...........................152 References.....................................................................................................156 Problems.......................................................................................................156 Chapter 10 Free Energy and Industrial Processes..............................................161 10.1 Free Energies as a Function of Temperature.....................................161 10.1.1 The Gibbs-Helmholtz Equation..........................................161 10.1.2 The Integrated Form of the Gibbs-Helmholtz Equation.....162 10.1.3 Tabulated Forms of Free Energy.........................................163 10.2 The Synthesis of Ethanol...................................................................164 10.2.1 Equilibrium Calculations....................................................164 10.2.2 Use of Activity Coefncients................................................166 10.3 Ellingham Diagrams..........................................................................168 10.3.1 Corrosion Prevention...........................................................172 10.3.2 Electrolysis of Alumina.......................................................173 10.3.3 Thermal Reduction of Magnesia.........................................173 10.3.4 Titanium and the Kroll Process..........................................175 10.3.5 Silicon Metal Production.....................................................177 10.4 Summary............................................................................................178 References.....................................................................................................178 Problems.......................................................................................................179 Chapter 11 Computational Thermochemistry....................................................181 11.1 Calculation of an Adiabatic Flame Temperature...............................181 11.2 Precipitation of Carbide and Nitride Phases from Dilute Solution in Alloy Steel......................................................................................185 11.3 CVD Production of Ultrapure Silicon...............................................186 11.4 Processing of Wastes from the Aluminum Electrolytic Furnace......188 11.5 Production of Metallurgical-Grade Silicon in an Are (Oven) Furnace...............................................................................................189 11.6 Summary............................................................................................191 References.....................................................................................................192 Appendix 1............................................................................................................193 Appendix II...........................................................................................................195 Appendix III.........................................................................................................197 Answers.................................................................................................................203 Suggested Further Reading................................................................................209 Index......................................................................................................................211
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spellingShingle	Peters, A. P. H. Concise chemical thermodynamics Thermodynamics Thermochemie (DE-588)4078260-8 gnd
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title	Concise chemical thermodynamics
title_auth	Concise chemical thermodynamics
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title_full	Concise chemical thermodynamics A. P. H. Peters
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