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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 and operations being used in the field. Not available anywhere else, this volume is a must-have for any chemical engineer, chemist, or process engineer working with natural gas.
There are updates of new technologies in other related areas of natural gas, in addition to disposal and enhanced recovery, including sour gas, acid gas injection, and natural gas hydrate formations. Advances in Natural Gas Engineering is an ongoing series of books meant to form the basis for the working library of any engineer working in natural gas today. Every volume is a must-have for any engineer or library.
Auteur
Ying (Alice) Wu is currently the President of Sphere Technology Connection Ltd. (STC) in Calgary, Canada. From 1983 to 1999 she was an Assistant Professor and Researcher at Southwest Petroleum Institute (now Southwest Petroleum University, SWPU) in Sichuan, China. She received her MSc in Petroleum Engineering from the SWPU and her BSc in Petroleum Engineering from Daqing Petroleum University in Heilongjiang, China. John J. Carroll, PhD, PEng is the Director, Geostorage Process Engineering for Gas Liquids Engineering, Ltd. in Calgary, Canada. Dr. Carroll holds bachelor and doctoral degrees in chemical engineering from the University of Alberta, Edmonton, Canada, and is a registered professional engineer in the provinces of Alberta and New Brunswick in Canada.?His fist book, Natural Gas Hydrates: A Guide for Engineers, is now in its second edition, and he is the author or co-author of 50 technical publications and about 40 technical presentations. Qi Li, PhD, is the Professor of CCS Research Group at Institute of Rock and Soil Mechanics at the Wuhan Branch of the Chinese Academy of Sciences. He is a geoscientist with expertise in the fields of hydrogeology and engineering mechanics. Professor Li's research is currently focused in the CCS field include mechanical stability of disposal reservoirs, multiphase flow, coupled processes, and risk monitoring. He also involved some research projects using laboratory and numerical tools to design novel subsurface disposal processes and on disposal site monitoring systems on different temporal and spatial scales.
Contenu
**Section 1: Data and Correlations
1 Densities of Carbon Dioxide-Rich Mixtures Part I: Comparison with Pure CO2 1
*Erin L. Roberts and John J. Carroll
1.1 Introduction 1
1.2 Density 2
1.3 Literature Review 2
1.4 Calculations 4
1.5 Discussion 19
1.6 Conclusion 27
References 27
**2 Densities of Carbon Dioxide-Rich Mixtures Part II: Comparison with Thermodynamic Models 29
*Erin L. Roberts and John J. Carroll
2.1 Introduction 29
2.2 Literature Review 30
2.3 Calculations 30
2.4 Lee Kesler 31
2.5 Benedict-Webb- Rubin (BWR) 37
2.6 Peng-Robinson 43
2.7 Soave-Redlich-Kwong 49
2.8 AQUAlibrium 54
2.9 Discussion 60
2.10 Conclusion 62
References 63
**3 On Transferring New Constant Pressure Heat Capacity Computation Methods to Engineering Practice 65
*Sepideh Rajaeirad and John M. Shaw
3.1 Introduction 65
3.2 Materials and Methods 66
3.3 Results and Discussion 67
3.4 Conclusions 70
References 70
4 Developing High Precision Heat Capacity Correlations for Solids, Liquids and Ideal Gases 73
*Jenny Boutros and John M. Shaw
4.1 Introduction 73
4.2 Databases and Methods 75
4.3 Results and Discussion 77
4.4 Conclusion 77
References 77
**5 Method for Generating Shale Gas Fluid Composition from Depleted Sample 79
*Henrik Sorensen, Karen S. Pedersen and Peter L. Christensen
5.1 Introduction 79
5.2 Theory of Chemical Equilibrium Applied to Reservoir Fluids 80
5.3 Reservoir Fluid Composition from a Non-Representative Sample 83
5.4 Numerical Examples 87
5.5 Discussion of the Results 94
5.6 Conclusions 96
5.7 Nomenclature 97
Greek letters 97
Sub and super indices 97
References 98
**6 Phase Equilibrium in the Systems Hydrogen Sulfi de + Methanol and Carbon Dioxide + Methanol 99
*Marco A. Satyro and John J. Carroll
6.1 Introduction 100
6.2 Literature Review 101
6.3 Modelling With Equations Of State 102
6.4 Summary 107
6.5 Nomenclature 108
Greek 109
Subscripts 109
References 109
**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 Sulfide 111
*Shu Pan, Na Jia, Helmut Schroeder, Yuesheng Cheng, Kurt A.G. Schmidt and Heng-Joo Ng
7.1 Introduction 111
7.2 Results and Discussion 112
7.3 Conclusions 122
7.4 Nomenclature 122
7.5 Acknowledgement 125
References 124
Appendix 7.A 125
**Section 2: Process Engineering
8 Enhanced Gas Dehydration using Methanol Injection in an Acid Gas Compression System 129
*M. Rafay Anwar, N. Wayne McKay and Jim R. Maddocks
8.1 Introduction 129
8.2 Methodology 130
8.3 CASE I: 100 % CO2 132
8.4 CASE II: 50 Percent CO2, 50 Percent H2S 140
8.5 CASE III: Enhanced Oil Recovery Composition 142
8.6 Conclusion 150
8.7 Additional Notes 151
References 151
**9 Compari...