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Carbon Capture and Sequestration : Removing the Legal and Regulatory Barriers.

The United States produces over seventy percent of all its electricity from fossil fuels and nearly & amp;nbsp;fifty percent & amp;nbsp;from coal alone. Worldwide, forty-one percent of all electricity is generated from coal, making it the single most important fuel source for electricity gen...

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Detalles Bibliográficos
Clasificación:Libro Electrónico
Autor principal: Morgan, M. Granger
Otros Autores: McCoy, Sean T.
Formato: Electrónico eBook
Idioma:Inglés
Publicado: Hoboken : Taylor and Francis, 2012.
Temas:
Acceso en línea:Texto completo

MARC

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245 1 0 |a Carbon Capture and Sequestration :  |b Removing the Legal and Regulatory Barriers. 
260 |a Hoboken :  |b Taylor and Francis,  |c 2012. 
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505 0 |a Front Cover; Carbon Capture and Sequestration; Copyright Page; Contents; List of Figures and Tables; List of Authors; Preface; Acknowledgments; Abbreviations; 1 The Importance of Carbon Capture and Geologic Sequestration in a Carbon Constrained World; 1.1 Why does the World still need Fossil Fuel?; 1.2 Carbon Capture with Geologic Sequestration (CCS); 1.3 Underground Injection Today; 1.4 The Boundaries and Life Cycle of a CCS Project; 1.5 The Reason for this Book; 2 Technology for Carbon Capture and Geologic Sequestration; 2.1 Overview of CO2 Capture Technology and its Application. 
505 8 |a 2.2 Capture of CO2 from Electric Power Generation2.3 Capturing CO2 from Industrial Processes; 2.4 Capturing CO2 Directly from the Air; 2.5 Overview of CO2 Transport Options; 2.6 Overview of Geologic Sequestration and the Sequestration Project Life Cycle; 2.7 Practical Experience with GS Technology; 2.8 Enhanced Oil Recovery and its Relationship to Geologic Sequestration; 3 Siting CO2 Pipelines for Geologic Sequestration; 3.1 Existing Federal Regulation of CO2 Pipelines. 
505 8 |a 3.2 Existing Regulation of Siting, Rate Setting, Safety, and Access to CO2 Pipelines in Selected States (Texas, New Mexico, Ohio, and Pennsylvania)3.3 Adequacy of Existing Laws; 3.4 Options for Creating a CO2 Pipeline Regulatory Framework; 3.5 Recommendations for Regulating CO2 Pipelines; 4 Permitting Geologic Sequestration Sites; 4.1 The US EPA Underground Injection Control Program; 4.2 The Role of the States; 4.3 Community Engagement During the Permitting Process; 4.4 Recommendations for Permitting GS Sites; 5 Learning from and Adapting to Changes in Geologic Sequestration Technology. 
505 8 |a 5.1 Performance-Based Regulation5.2 Examples of Performance-Based Regulation; 5.3 Adaptive Regulation; 5.4 Examples of Adaptive Regulation; 5.5 Assessment of Current Rules for Geologic Sequestration; 5.6 Recommendations on Learning and Adaptation; 6 Access to Pore Space for Geologic Sequestration; 6.1 Competing Uses of the Subsurface; 6.2 Who Owns Pore Space in the US?; 6.3 Does the Use of Pore Space for GS Require Compensation Under the Law?; 6.4 Alternative Models for the Acquisition of the Right to Use Pore Space for Fluid Injection. 
505 8 |a 6.5 Potential Legal Frameworks for Managing GS Access to Pore Space6.6 A Federally Coordinated Framework would be Optimal; 6.7 Authority to Permit Geologic CO2 Sequestration on Federal Lands; 6.8 Recommendations on Access to Pore Space; 7 Liability and the Management of Long-Term Stewardship; 7.1 Liability Across a Project's Life Cycle; 7.2 Designing a Strategy to Manage Long-Term Stewardship; 7.3 Types of Liability that May Arise During Long-Term Stewardship; 7.4 A Hybrid Approach to Liability During Long-Term Stewardship; 7.5 First-Mover Projects. 
500 |a 7.6 Recommendations on How to Address Liability and Long-Term Stewardship. 
520 |a The United States produces over seventy percent of all its electricity from fossil fuels and nearly & amp;nbsp;fifty percent & amp;nbsp;from coal alone. Worldwide, forty-one percent of all electricity is generated from coal, making it the single most important fuel source for electricity generation, followed by natural gas. This means that an essential part of any portfolio for emissions reduction will be technology to capture carbon dioxide and permanently sequester it in suitable geologic formations. While many nations have incentivized development of CCS technology, large regulatory and legal barriers. 
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700 1 |a McCoy, Sean T. 
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776 0 8 |i Print version:  |a Morgan, M. Granger Granger.  |t Carbon Capture and Sequestration : Removing the Legal and Regulatory Barriers.  |d Hoboken : Taylor and Francis, ©2012  |z 9781617261015 
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