| Description |
1 online resource |
| Series |
Advances in Natural Gas Engineering |
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Advances in natural gas engineering.
|
| Contents |
Half Title page; Title page; Copyright page; Preface; Chapter 1: Densities of Carbon Dioxide-Rich Mixtures Part I: Comparison with Pure CO2; 1.1 Introduction; 1.2 Density; 1.3 Literature Review; 1.4 Calculations; 1.5 Discussion; 1.6 Conclusion; References; Chapter 2: Densities of Carbon Dioxide-Rich Mixtures Part II: Comparison with Thermodynamic Models; 2.1 Introduction; 2.2 Literature Review; 2.3 Calculations; 2.4 Lee Kesler; 2.5 Benedict-Webb- Rubin (BWR); 2.6 Peng-Robinson; 2.7 Soave-Redlich-Kwong; 2.8 AQUAlibrium; 2.9 Discussion; 2.10 Conclusion; References |
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Chapter 3: On Transferring New Constant Pressure Heat Capacity Computation Methods to Engineering Practice3.1 Introduction; 3.2 Materials and Methods; 3.3 Results and Discussion; 3.4 Conclusions; References; Chapter 4: Developing High Precision Heat Capacity Correlations for Solids, Liquids and Ideal Gases; 4.1 Introduction; 4.2 Databases and Methods; 4.3 Results and Discussion; 4.4 Conclusion; References; Chapter 5: Method for Generating Shale Gas Fluid Composition from Depleted Sample; 5.1 Introduction; 5.2 Theory of Chemical Equilibrium Applied to Reservoir Fluids |
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5.3 Reservoir Fluid Composition from a Non-Representative Sample5.4 Numerical Examples; 5.5 Discussion of the Results; 5.6 Conclusions; 5.7 Nomenclature; Greek letters; Sub and super indices; References; Chapter 6: Phase Equilibrium in the Systems Hydrogen Sulfide + Methanol and Carbon Dioxide + Methanol; 6.1 Introduction; 6.2 Literature Review; 6.3 Modelling With Equations Of State; 6.4 Nomenclature; Greek; Subscripts; References |
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Chapter 7: Vapour-Liquid Equilibrium, Viscosity and Interfacial Tension Modelling of Aqueous Solutions of Ethylene Glycol or Triethylene Glycol in the Presence of Methane, Carbon Dioxide and Hydrogen Sulfide7.1 Introduction; 7.2 Results and Discussion; 7.3 Conclusions; 7.4 Nomenclature; 7.5 Acknowledgement; References; Appendix 7.A; Chapter 8: Enhanced Gas Dehydration using Methanol Injection in an Acid Gas Compression System; 8.1 Introduction; 8.2 Methodology; 8.3 CASE I:100% CO2; 8.4 CASE II: 50 Percent CO2, 50 Percent H2S; 8.5 CASE III: Enhanced Oil Recovery Composition; 8.6 Conclusion |
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8.7 Additional NotesReferences; Chapter 9: Comparison of the Design of CO2-capture Processes using Equilibrium and Rate Based Models; 9.1 Introduction; 9.2 VMG Rate Base; 9.3 Rate Based Versus Equilibrium Based Models; 9.4 Process Simulations; 9.5 Conclusions; References; Chapter 10: Post-Combustion Carbon Capture Using Aqueous Amines: A Mass-Transfer Study; 10.1 Introduction; 10.2 Mass Transfer Basics; 10.3 Factors Influencing Mass Transfer; 10.4 Examples; 10.5 Summary; References; Chapter 11: BASF Technology for CO2 Capture and Regeneration; 11.1 Introduction; 11.2 Materials and Methods |
| Summary |
This is the fourth volume in a series of books focusing on natural gas engineering, focusing on two of the most important issues facing the industry today: disposal and enhanced recovery of natural gas. This volume includes information for both upstream and downstream operations, including chapters on shale, geological issues, chemical and thermodynamic models, and much more. Written by some of the most well-known and respected chemical and process engineers working with natural gas today, the chapters in this important volume represent the most cutting-edge and state-of-the-art processes |
| Bibliography |
Includes bibliographical references and index |
| Notes |
Print version record |
| Subject |
Atmospheric carbon dioxide -- Storage
|
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Carbon dioxide -- Industrial applications
|
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Gas wells.
|
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Geological carbon sequestration.
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Oil wells -- Gas lift.
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gas wells.
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Carbon dioxide -- Industrial applications
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Gas wells
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Geological carbon sequestration
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Oil wells -- Gas lift
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| Form |
Electronic book
|
| ISBN |
1322061254 |
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9781322061252 |
|
9781118938584 |
|
1118938585 |
|
