Includes bibliographical references and index.

Carbon dioxide has been implicated in the global climate change, and CO2 sequestration is a technology being explored to curb the anthropogenic emission of CO2 into the atmosphere. The injection of CO2 for enhanced oil recovery (EOR) has the duel benefit of sequestering the CO2 and extending the life of some older fields. This volume presents some of the latest information on these processes covering physical properties, operations, design, reservoir engineering, and geochemistry for AGI and the related technologies.

Half Title page; Title page; Copyright page; Preface; Introduction; The World; Acid Gas; In Summary …; References; Part 1: Data: Experiments and Correlation; Chapter 1: Equilibrium Water Content Measurements for Acid Gas at High Pressures and Temperatures; 1.1 Introduction; 1.2 Experimental; 1.3 Recent Results and Modelling; 1.4 Conclusions; References; Chapter 2: Comparative Study on Gas Deviation Factor Calculating Models for CO2 Rich Gas Reservoirs; 2.1 Introduction; 2.2 Deviation Factor Correlations; 2.3 Model Optimization; 2.4 Conclusions; References

Chapter 3: H2S Viscosities and Densities at High-Temperatures and Pressures3.1 Introduction; 3.2 Experimental; 3.3 Results and Discussion; 3.4 Conclusions and Outlook; 3.5 Acknowledgement; References; Chapter 4: Solubility of Methane in Propylene Carbonate; 4.1 Introduction; 4.2 Results and Discussion; 4.3 Nomenclature; 4.4 Acknowledgement; References; Part 2: Process; Chapter 5: A Holistic Look at Gas Treating Simulation; 5.1 Introduction; 5.2 Clean Versus Dirty Solvents: Heat Stable Salts; 5.3 Summary

Chapter 6: Controlled Freeze Zone™ Commercial Demonstration Plant Advances Technology for the Commercialization of North American Sour Gas Resources6.1 Introduction -- Gas Demand and Sour Gas Challenges; 6.2 Acid Gas Injection; 6.3 Controlled Freeze Zone™ -- Single Step Removal of CO2 and H2S; 6.4 Development Scenarios Suitable for Utilizing CFZ™ Technology; 6.5 Commercial Demonstration Plant Design & Initial Performance Data; 6.6 Conclusions and Forward Plans; Bibliography; Chapter 7: Acid Gas Dehydration -- A DexPro™ Technology Update; 7.1 Introduction; 7.2 Necessity of Dehydration

7.3 Dehydration Criteria7.4 Acid Gas -- Water Phase Behaviour; 7.5 Conventional Dehydration Methods; 7.6 Development of DexPro; 7.7 DexPro Operating Update; 7.8 DexPro Next Steps; 7.9 Murphy Tupper -- 2012 Update; 7.10 Acknowledgements; Chapter 8: A Look at Solid CO2 Formation in Several High CO2 Concentration Depressuring Scenarios; 8.1 Introduction; 8.2 Methodology; 8.3 Thermodynamic Property Package Description; 8.4 Model Configuration; 8.5 Results; 8.6 Discussion; 8.7 Conclusions; References; Part 3: Acid Gas Injection

Chapter 9: Potential Sites and Early Opportunities of Acid Gas Re-injection in China9.1 Introduction; 9.2 Potential Storage Capacity for CCS; 9.3 Emission Sources of Acid Gases; 9.4 Distribution of High H2S Bearing Gas Field; 9.5 Systematic Screening of Potential Sites; 9.6 Early Deployment Opportunities of AGI; 9.7 Conclusions; 9.8 Acknowledgements; References; Chapter 10: Acid Gas Injection for a Waste Stream with Heavy Hydrocarbons and Mercaptans; 10.1 Basis; 10.2 Phase Envelope; 10.3 Water Content; 10.4 Hydrates; 10.5 Dehydration and Compression; 10.6 Discussion; 10.7 Conclusion

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