Hydrometallurgy : fundamentals and applications /
As the first book to compile the fundamentals, applications, reference information and analytical tools on the topic, Hydrometallurgy presents a condensed collection of information that can be used to improve the efficiency and effectiveness with which metals are extracted, recovered, manufactured,...
| Κύριος συγγραφέας: | |
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| Μορφή: | Ηλ. βιβλίο |
| Γλώσσα: | English |
| Έκδοση: |
Hoboken, New Jersey :
Wiley : TMS,
[2013]
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| Θέματα: | |
| Διαθέσιμο Online: | Full Text via HEAL-Link |
Πίνακας περιεχομένων:
- Cover; Title Page; Copyright; Preface; Chapter 1: Introduction; 1.1 The Importance of Metals; 1.2 Mineral Deposition; 1.3 Importance of Water; 1.4 Aqueous Processing and Utilization of Metals; 1.5 Overview of Fundamentals and Applications; References; Problems; Chapter 2: Chemical Fundamentals of Hydrometallurgy; 2.1 General Reactions; 2.2 Chemical Potential; 2.3 Free Energy and Standard Conditions; 2.4 Free Energy and Nonstandard Activities; 2.5 Equilibrium; 2.6 Solubility Product; 2.7 Relationships Amongst K, K, K, AND H; 2.8 Free Energy and Nonstandard Temperatures.
- 2.9 Heat Generation due to Reactions2.10 Free Energy and Nonstandard Pressures; 2.11 Equilibrium Concentration Determinations; 2.12 Activities and Activity Coefficients; 2.13 Practical Equilibrium Problem Solving; 2.14 Electrochemical Reaction Principles; 2.15 Equilibrium and Electrochemical Equations; References; Problems; Chapter 3: Speciation and Phase Diagrams; 3.1 Speciation (OR ION DISTRIBUTION) Diagrams; 3.2 Metal-Ligand Speciation Diagrams; 3.3 Phase Stability Diagrams; Reference; Problems; Chapter 4: Rate Processes; 4.1 Chemical Reaction Kinetics; 4.2 Biochemical Reaction Kinetics.
- 4.3 Electrochemical Reaction Kinetics4.4 Mass Transport; 4.5 Combined Mass Transport and Reaction Kinetics; 4.6 Models for Reactions Involving Particles; 4.7 Combined Mass Transport and Electrochemical Kinetics; 4.8 Crystallization Kinetics; 4.9 Overview of Surface Reaction Kinetics; References; Problems; Chapter 5: Metal Extraction; 5.1 General Principles and Terminology; 5.2 Bioleaching/Biooxidation; 5.3 Precious Metal Leaching Applications; 5.4 Extraction from Concentrates; References; Problems; Chapter 6: Separation of Dissolved Metals; 6.1 Liquid-Liquid Or Solvent Extraction.
- 6.2 Ion Exchange6.3 Activated Carbon Adsorption; 6.4 Ultrafiltration or Reverse Osmosis; 6.5 Precipitation; References; Problems; Chapter 7: Metal Recovery Processes; 7.1 Electrowinning; 7.2 Electrorefining; 7.3 Cementation or Contact Reduction; 7.4 Recovery Using Dissolved Reducing Reagents; References; Problems; Chapter 8: Metal Utilization; 8.1 Introduction; 8.2 Batteries; 8.3 Fuel Cells; 8.4 Electroless Plating; 8.5 Electrodeposited Coatings; 8.6 Electroforming; 8.7 Electrochemical Machining; 8.8 Corrosion; References; Problems; Chapter 9: Environmental Issues; 9.1 Introduction.
- 9.2 United States Environmental Policy Issues9.3 Metal Removal and Remediation Issues; References; Problems; Chapter 10: Process Design Principles; 10.1 Determination of Overall Objectives; 10.2 Determination of Basic Flow Sheet Segments; 10.3 Survey of Specific Segment Options; 10.4 Overall Flow Sheet Synthesis; 10.5 Procurement of Additional Information; 10.6 Selected Industrial Flow Sheet Examples; References; Problem; Chapter 11: General Engineering Economics; 11.1 The Effects of Time and Interest; 11.2 Return on Investment (ROI); 11.3 Cost Estimation.
