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Table of Contents
Climate Change and the Petroleum Industry
Relevance of Geologic CO2 Storage to the Petroleum Industry
Basic Concepts of CO2 Injection-Based Enhanced Oil Recovery Processes
Selection of Candidate Sites: Recent Advancements in Selection Methodologies
Review of Successfully Implemented CO2-EOR Projects: Key Features and Challenges
Simultaneous CO2-EOR and Storage: An Economically Viable and Environmentally Sensible E&P Business Model in a Low Carbon Economy
CO2-Oil Miscibility: A Key Design Parameter for CO2-EOR Projects
Recent Technological Advancements for Maximizing CO2 Storage in EOR Operations
Dedicated Geologic CO2 Storage: Deep Saline Formations
Past and Current Geologic CO2 Storage Projects
Monitoring of Injected CO2: Lessons Learned from Tested Monitoring Technologies in the Field
Geologic CO2 Storage: A Mean to Extract Water from Deep Saline Formations for Beneficial Reuses.
Relevance of Geologic CO2 Storage to the Petroleum Industry
Basic Concepts of CO2 Injection-Based Enhanced Oil Recovery Processes
Selection of Candidate Sites: Recent Advancements in Selection Methodologies
Review of Successfully Implemented CO2-EOR Projects: Key Features and Challenges
Simultaneous CO2-EOR and Storage: An Economically Viable and Environmentally Sensible E&P Business Model in a Low Carbon Economy
CO2-Oil Miscibility: A Key Design Parameter for CO2-EOR Projects
Recent Technological Advancements for Maximizing CO2 Storage in EOR Operations
Dedicated Geologic CO2 Storage: Deep Saline Formations
Past and Current Geologic CO2 Storage Projects
Monitoring of Injected CO2: Lessons Learned from Tested Monitoring Technologies in the Field
Geologic CO2 Storage: A Mean to Extract Water from Deep Saline Formations for Beneficial Reuses.