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Full Description
This book investigates geological CO2 storage and its role in greenhouse gas emissions reduction, enhanced oil recovery, and environmentally responsible use of fossil fuels. Written for energy/environmental regulators at every level of government (federal, state, etc.), scientists/academics, representatives from the power and fossil energy sectors, NGOs, and other interested parties, this book uses the characterization of the Rock Springs Uplift site in Wyoming as an integrated case study to illustrate the application of geological CO2 storage science, principles, and theory in a real-world scenario.
Contents
Geological Observations Supporting Dynamic Climatic Changes.-The Story of the Wyoming Carbon Underground Storage Project (WY-CUSP), and the Regional Inventory and Prioritization of Potential CO2 Storage Reservoirs in Wyoming.-Legal Framework: Carbon Storage Regulations and Access for the Wyoming Carbon Underground Storage Project (WY-CUSP) .-A Strategy for Designing an Optimal Characterization Study of the Premier Carbon Capture, Utilization and Storage Site in Wyoming.-Regional Geologic History, CO2 Source Inventory, and Groundwater Risk Assessment of a Potential CO2 Sequestration Site on the Rock Springs Uplift in Southwest Wyoming.-Detailed Geologic Characterization of Core and Well Data from the Weber and Madison Formations and Associated Seals at a Potential CO2 Sequestration Site in Southwest Wyoming: Defining the Lithologic, Geochemical, Diagenetic, and Burial Histories Relative to Successful CO2 Storage.-Utility of 3-D Seismic Attribute Analysis and VSP for Assessing Potential Carbon Sequestration Targets on the Rock Springs Uplift, Southwest Wyoming.-Reservoir Fluid Characterization of the Weber Sandstone and Madison Limestone on the Rock Springs Uplift in Southwest Wyoming.-Predicting Permeability in the Targeted Geological CO2 Storage Reservoirs on the Rock Springs Uplift, Southwest Wyoming.-Advances in Estimating the Geologic CO2 Storage Capacity of the Madison Limestone and Weber Sandstone in the Rock Springs Uplift by Utilizing Detailed 3-D Reservoir Characterization and Geologic Uncertainty Reduction.-Displaced Fluid Management —the Key to Commercial-Scale Geologic CO2 Storage.-The Carbon Management Institute's Integrated CO2 Storage/EOR Strategy: the Advantages of Deploying Innovative, Multiple-resource Development Strategies Designed to Foster Sustainability of Energy and Environmental Resources.-A Feasibility Study of the Integration ofGeologic CO2 Storage with Enhanced Oil Recovery (CO2 Flooding) in the Ordos Basin, China.-Summary of the WY-CUSP Characterization Program.
