ASCE Book CarbonCaptureandStorage 2015
$95.33
Carbon Capture and Storage: Physical, Chemical, and Biological Methods
| Published By | Publication Date | Number of Pages |
| ASCE | 2015 | 550 |
“Sponsored by the Carbon Capture and Storage Task Committee of the Technical Committee on Hazardous, Toxic, and Radioactive Waste Engineering of the Environmental Council of EWRI Carbon Capture and Storage: Physical, Chemical, and Biological Methods presents comprehensive information on the principles of carbon capture and sequestration (CCS). Among the various climate change mitigation strategies currently being explored, CCS technology allows for the continuous use of fossil fuels and provides time to make a changeover to other energy sources in a systematic way. Many factors decide CCS applicability worldwide, such as technical development, overall potential, flow and shift of the technology to developing countries and their capability to apply the technology, regulatory aspects, environmental concerns, public perception, and costs. This book provides in-depth information on the principles of CCS technology, different environmental applications, recent advances, critical analysis of new CCS methods and processes, and directions toward future research and development of CCS technology. Topics include:
carbon dioxide sequestration and leakage; monitoring, verification, and accounting of carbon dioxide in different settings; carbon reuses for a sustainable future; applications of CCS for the coal-powered electricity industry; carbon dioxide scrubbing processes and applications; carbon sequestration via mineral carbonation; carbon burial and enhanced soil carbon trapping; algae-based carbon capture; carbon immobilization enhanced by photosynthesis; enzymatic sequestration and biochar technology for CCS; carbon sequestration in the ocean; and modeling of carbon dioxide storage in deep geological formations. Engineers, scientists, students, government officers, process managers, and practicing professionals will find this book an essential reference on carbon capture and sequestration technology.”
PDF Catalog
| PDF Pages | PDF Title |
|---|---|
| 1 | Cover |
| 4 | Contents |
| 10 | Preface |
| 12 | Contributing Authors |
| 14 | Chapter 1 Introduction |
| 20 | Chapter 2 Carbon Capture and Storage: An Overview 2.1 Introduction |
| 21 | 2.2 CCS Technologies |
| 27 | 2.3 Current Status of CCS Technology |
| 30 | 2.4 Barriers to CCS |
| 34 | 2.5 Major Issues Related to CCS |
| 44 | 2.6 Summary 2.7 References |
| 50 | Chapter 3 Carbon Capture and Sequestration: Physical/Chemical Technologies 3.1 Introduction |
| 51 | 3.2 Separation with Solvents |
| 57 | 3.3 Separation with Sorbents |
| 60 | 3.4 Separation with Membranes |
| 64 | 3.5 Separation with Other Technologies |
| 66 | 3.6 Carbon Capture Schemes for Different Sources |
| 72 | 3.7 Conclusions |
| 73 | 3.8 References |
| 78 | Chapter 4 Carbon Capture and Sequestration: Biological Technologies 4.1 Introduction |
| 79 | 4.2 Biological Processes for Carbon Capture |
| 89 | 4.3 Biological Processes for CO[sub(2)] Sequestration |
| 100 | 4.4 Advanced Biological Processes for CCS |
| 108 | 4.5 Biotic versus Abiotic CCS |
| 109 | 4.6 Summary |
| 111 | 4.7 Acknowledgements 4.8 Abbreviations |
| 112 | 4.9 References |
| 126 | Chapter 5 CO[sub(2)] Sequestration and Leakage 5.1 Introduction |
| 128 | 5.2 Ocean Carbon Sequestration (OCS) |
| 139 | 5.3 Geological Carbon Sequestration (GCS) |
| 147 | 5.4 Terrestrial Carbon Sequestration (TCS) |
| 152 | 5.5 Leakage, MVA, and LCRM |
| 157 | 5.6 Future Trends and Summary |
| 159 | 5.7 Acknowledgements |
| 160 | 5.8 Abbreviations 5.9 References |
| 172 | Chapter 6 Monitoring, Verification, and Accounting of CO[sub(2)] Stored in Deep Geological Formations 6.1 Introduction |
| 173 | 6.2 Generic Storage Options for Geological Storage of CO[sub(2)] |
| 176 | 6.3 MVA: Background and General Procedures |
| 182 | 6.4 Key Monitoring Techniques of MVA |
| 195 | 6.5 Two Case Studies |
| 198 | 6.6 Current Issues and Future Research Needs |
| 199 | 6.7 Conclusions |
| 200 | 6.8 List of Acronyms and Abbreviations |
| 201 | 6.9 References |
| 208 | Chapter 7 Carbon Reuses for a Sustainable Future 7.1 Introduction |
| 210 | 7.2 CO[sub(2)] Reuse as Fuel |
| 216 | 7.3 Carbon Reuse as Plastics |
| 220 | 7.4 CO[sub(2)] Reuse towards Low Carbon Economy |
| 224 | 7.5 Conclusions 7.6 References |
| 230 | Chapter 8 Carbon Dioxide Capture Technology for the Coal-Powered Electricity Industry 8.1 Introduction |
| 231 | 8.2 CO[sub(2)] Capture Technologies |
| 240 | 8.3 Principles of Sorption-Based CO[sub(2)] Capture Technologies |
| 244 | 8.4 Major Issues and Future Perspectives |
| 246 | 8.5 Conclusions 8.6 References |
| 252 | Chapter 9 CO[sub(2)] Scrubbing Processes and Applications 9.1 Introduction 9.2 Process Overview |
| 254 | 9.3 Advantage and Disadvantage |
| 255 | 9.4 CO[sub(2)] Scrubbing Materials |
| 268 | 9.5 Current Status of CO[sub(2)] Scrubbing Technology |
| 278 | 9.6 Future Perspectives |
| 279 | 9.7 Conclusions |
| 280 | 9.8 References |
| 294 | Chapter 10 Carbon Sequestration via Mineral Carbonation: Overview and Assessment 10.1 Introduction |
| 297 | 10.2 Choice of Minerals |
| 300 | 10.3 Process Thermodynamics 10.4 Pre-Treatment |
| 301 | 10.5 Carbonation Processes |
| 308 | 10.6 Techno-Economic and Environmental Evaluation of Mineral Carbonation |
| 309 | 10.7 Benefits of CO[sub(2)] Sequestration by Mineral Carbonation |
| 310 | 10.8 Future Research Directions |
| 311 | 10.9 References |
| 316 | Chapter 11 Carbon Burial and Enhanced Soil Carbon Trapping 11.1 Introduction |
| 317 | 11.2 Carbon Burial |
| 332 | 11.3 Enhanced Soil Carbon Trapping |
| 341 | 11.4 Conclusions |
| 342 | 11.5 Acknowledgements 11.6 Abbreviations 11.7 References |
| 352 | Chapter 12 Algae-Based Carbon Capture and Sequestrations 12.1 Introduction |
| 353 | 12.2 Principle and Carbon Cycle |
| 355 | 12.3 Effects of Major Factors |
| 363 | 12.4 Applications |
| 369 | 12.5 Economic Analysis |
| 370 | 12.6 Limitation and Future Perspectives |
| 372 | 12.7 Summary 12.8 Acknowledgements 12.9 References |
| 382 | Chapter 13 Carbon Immobilization by Enhanced Photosynthesis of Plants 13.1 Introduction |
| 383 | 13.2 Deforestation and Reforestation |
| 391 | 13.3 Genetic Engineering to Increase C4 Plants |
| 401 | 13.4 Future Trends and Perspectives |
| 402 | 13.5 Summary |
| 403 | 13.6 Acknowledgements 13.7 References |
| 414 | Chapter 14 Enzymatic Sequestration of Carbon Dioxide 14.1 Introduction 14.2 Carbonic Anhydrase Catalytic Carbon Dioxide Sequestration |
| 423 | 14.3 Other Enzyme Catalytic Carbon Dioxide Sequestration |
| 425 | 14.4 Technical Limitations and Future Perspective |
| 426 | 14.5 Summary |
| 427 | 14.6 Acknowledgements 14.7 Abbreviations 14.8 References |
| 434 | Chapter 15 Biochar 15.1 Introduction |
| 435 | 15.2 Role of Biochar for CCS |
| 436 | 15.3 Biochar Technology |
| 448 | 15.4 Biochar for Development of Sustainable Society |
| 454 | 15.5 Biochar Sustainability |
| 456 | 15.6 Concerns and Future Perspectives |
| 459 | 15.7 Summary |
| 460 | 15.8 Acknowledgements 15.9 Abbreviations |
| 461 | 15.10 References |
| 468 | Chapter 16 Enhanced Carbon Sequestration in Oceans: Principles, Strategies, Impacts, and Future Perspectives 16.1 Background of CO[sub(2)] Sequestration in Oceans |
| 471 | 16.2 Major Strategies for Ocean Sequestration of CO[sub(2)] |
| 475 | 16.3 Ocean Nourishment |
| 478 | 16.4 Impact of Ocean Sequestration of Carbon Dioxide |
| 479 | 16.5 Future Perspectives |
| 480 | 16.6 Summary 16.7 Acknowledgements 16.8 Abbreviations |
| 481 | 16.9 References |
| 488 | Chapter 17 Modeling and Uncertainty Analysis of Transport and Geological Sequestration of CO[sub(2)] 17.1 Introduction |
| 489 | 17.2 Modeling CO[sub(2)] Transport to Sequestration Site |
| 492 | 17.3 CO[sub(2)] Storage Capacity and Injectivity |
| 495 | 17.4 Modeling of Sink Performance |
| 500 | 17.5 Leakage Potential and Its Mitigation for Geological Storage of Carbon Dioxide in Saline Aquifer |
| 505 | 17.6 Conclusion |
| 507 | 17.7 References |
| 512 | Chapter 18 Carbon Capture and Storage: Major Issues, Challenges, and the Path Forward 18.1 Introduction |
| 513 | 18.2 Cost and Economics Issues |
| 517 | 18.3 Legal and Regulatory Issues |
| 524 | 18.4 Social Acceptability Issues |
| 526 | 18.5 Technical Issues: Uncertainty and Scalability |
| 528 | 18.6 Conclusion |
| 529 | 18.7 References |
| 532 | Index A B |
| 533 | C |
| 537 | D E |
| 538 | F G |
| 539 | H I |
| 540 | K L M |
| 541 | N O P |
| 542 | R S |
| 543 | T |
| 544 | U W Z |
| 546 | Editor Biographies |
