Gas Treating : Absorption Theory and Practice.
Gas Treating: Absorption Theory and Practice provides an introduction to the treatment of natural gas, synthesis gas and flue gas, addressing why it is necessary and the challenges involved. The book concentrates in particular on the absorption-desorption process and mass transfer coupled with chemi...
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Main Author: | |
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Format: | Electronic eBook |
Language: | English |
Published: |
Hoboken :
Wiley,
2014.
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Subjects: | |
Online Access: |
Full text (Emmanuel users only) |
Table of Contents:
- Cover; Title Page; Copyright; Contents; Preface; List of Abbreviations; Nomenclature List; Chapter 1 Introduction; 1.1 Definitions; 1.2 Gas Markets, Gas Applications and Feedstock; 1.3 Sizes; 1.4 Units; 1.5 Ambient Conditions; 1.6 Objective of This Book; 1.7 Example Problems; 1.7.1 Synthesis Gas Plant; 1.7.2 Natural Gas Treatment; 1.7.3 Natural Gas Treatment for LNG; 1.7.4 Flue Gas CO2 Capture from a CCGT Power Plant; 1.7.5 Flue Gas CO2 Capture from a Coal Based Power Plant; 1.7.6 CO2 Removal from Biogas; 1.7.7 CO2 Removal from Landfill Gas; 1.7.8 Summarising Plant Sizes Just Considered.
- 3.8 Rate versus Equilibrium ApproachesFurther Reading; Chapter 4 Chemistry in Acid Gas Treating; 4.1 Introduction; 4.2 ''Chemistry''; 4.3 Acid Character of CO2 and H2S; 4.4 The H2S Chemistry with any Alkanolamine; 4.5 Chemistry of CO2 with Primary and Secondary Alkanolamines; 4.5.1 Zwitterion Mechanism; 4.5.2 Termolecular Mechanism of Crooks and Donnellan; 4.5.3 Australian Approach; 4.5.4 Older Representations; 4.6 The Chemistry of Tertiary Amines; 4.7 Chemistry of the Minor Sulfur Containing Gases; 4.7.1 The COS Chemistry; 4.7.2 Chemistry of CS2; 4.7.3 Chemistry of Mercaptans (RSH).
- 4.8 Sterically Hindered Amines4.9 Hot Carbonate Absorbent Systems; 4.10 Simultaneous Absorption of H2S and CO2; 4.11 Reaction Mechanisms and Activators-Final Words; 4.12 Review Questions, Problems and Challenges; References; Chapter 5 Physical Chemistry Topics; 5.1 Introduction; 5.2 Discussion of Solvents; 5.3 Acid-Base Considerations; 5.3.1 Arrhenius, Brønsted and Lewis; 5.3.2 Weak and Strong Acids and Bases; 5.3.3 pH; 5.3.4 Strength of Acids and Bases; 5.3.5 Titration; 5.3.6 Buffer Action in the NaOH or KOH Based CO2 Absorbents; 5.4 The Amine-CO2 Buffer System.
- 5.5 Gas Solubilities, Henry''s and Raoult''s Laws5.5.1 Henry''s Law; 5.5.2 Gas Solubilities; 5.5.3 Raoult''s Law; 5.6 Solubilities of Solids; 5.7 N2O Analogy; 5.8 Partial Molar Properties and Representation; 5.9 Hydration and Hydrolysis; 5.10 Solvation; References; Chapter 6 Diffusion; 6.1 Dilute Mixtures; 6.2 Concentrated Mixtures; 6.3 Values of Diffusion Coefficients; 6.3.1 Gas Phase Values; 6.3.2 Liquid Phase Values; 6.4 Interacting Species; 6.5 Interaction with Surfaces; 6.6 Multicomponent Situations; 6.7 Examples; 6.7.1 Gaseous CO2-CH4; 6.7.2 Gaseous H2O-CH4.