Carbon Dioxide Capture for Storage in Deep Geologic Formations - Results from the CO² Capture Project

Vol 1 - Capture and Separation of Carbon Dioxide from Combustion
 
 
Elsevier Reference Monographs (Verlag)
  • 1. Auflage
  • |
  • erschienen am 3. Juni 2016
  • |
  • 660 Seiten
 
E-Book | PDF mit Adobe DRM | Systemvoraussetzungen
978-0-08-100500-2 (ISBN)
 
Carbon Dioxide Capture for Storage in Deep Geologic Formations - Results from the CO² Capture Project
  • Englisch
  • Oxford
  • 17,00 MB
978-0-08-100500-2 (9780081005002)
0081005008 (0081005008)
weitere Ausgaben werden ermittelt
  • Front Cover
  • Carbon Dioxide Capture for Storage in Deep Geologic Formations - Results from the CO2 Capture Project: Capture and Separation of Carbon Dioxide from Combustion Sources
  • Copyright Page
  • Table of Contents
  • Preface
  • Acknowledgements
  • INTRODUCTION
  • BACKGROUND
  • CO2 CAPTURE PROJECT
  • REVIEW & EVALUATION AND ANALYSIS PHASES
  • TECHNOLOGY DEVELOPMENT
  • REFERENCES
  • Chapter 1. POLICIES AND INCENTIVES DEVELOPMENTS IN CO2 CAPTURE AND STORAGE TECHNOLOGY: A FOCUSEDSURVEY BY THE CO2 CAPTURE PROJECT
  • ABSTRACT
  • INTRODUCTION
  • TASKS AND METHODOLOGIES
  • RESULTS AND DISCUSSION
  • CONCLUSIONS
  • Chapter 2. REVIEW AND EVALUATION OF THE CO2 CAPTURE PROJECT BY THE TECHNOLOGY ADVISORY BOARD
  • ABSTRACT
  • INTRODUCTION
  • EVALUATION OF ACCOMPLISHMENTS
  • APPLICABILITY OF CCP TECHNOLOGIES TO COAL-FIRED POWER
  • OVERVIEW OF THE CCP APPROACH
  • NEXT STEPS
  • Chapter 3. ECONOMIC AND COST ANALYSIS FOR CO2 CAPTURE COSTS IN THE CO2 CAPTURE PROJECT SCENARIOS
  • ABSTRACT
  • INTRODUCTION
  • SUMMARY AND CONCLUSIONS
  • TECHNOLOGY SCREENING PROCESS
  • BASIC COST ESTIMATES
  • ECONOMIC SCREENING
  • NOMENCLATURE
  • ACKNOWLEDGEMENTS
  • APPENDIX A: INITIAL CEM OBJECTIVES
  • REFERENCE
  • SECTION 1: POST COMBUSTION CO2 SEPARATION TECHNOLOGY
  • Chapter 4. POST-COMBUSTION CO2 SEPARATION TECHNOLOGY SUMMARY
  • ABSTRACT
  • INTRODUCTION
  • ABSORPTION PROCESSES
  • ADSORPTION PROCESSES
  • MEMBRANE PROCESSES
  • CRYOGENICS OR REFRIGERATION-ORIENTED PROCESSES
  • NOVEL PROCESS CONCEPTS
  • NEW CO2 CAPTURE CHEMICALS
  • ACKNOWLEDGEMENTS
  • REFERENCES
  • Chapter 5. CO2 REMOVAL FROM POWER PLANT FLUE GAS-COST EFFICIENT DESIGN AND INTEGRATION STUDY
  • ABSTRACT
  • INTRODUCTION
  • STUDY METHODOLOGY
  • RESULTS AND DISCUSSION
  • CONCLUSIONS AND RECOMMENDATIONS
  • ACKNOWLEDGEMENTS
  • REFERENCES
  • Chapter 6. POST-COMBUSTION SEPARATION AND CAPTURE BASELINE STUDIES FOR THE CCP INDUSTRIAL SCENARIOS
  • ABSTRACT
  • INTRODUCTION
  • RESULTS AND DISCUSSION
  • CONCLUSIONS
  • ACKNOWLEDGEMENTS
  • REFERENCES
  • Chapter 7. KPS MEMBRANE CONTACTOR MODULE COMBINED WITH KANSAI/MHI ADVANCED SOLVENT, KS-1 FOR CO2 SEPARATION FROM COMBUSTION FLUE GASES
  • ABSTRACT
  • INTRODUCTION
  • EXPERIMENTAL/STUDY METHODOLOGY
  • RESULTS AND DISCUSSION
  • CONCLUSIONS
  • NOMENCLATURE
  • ACKNOWLEDGEMENTS
  • REFERENCES
  • Chapter 8. REMOVAL OF CO2 FROM LOW PRESSURE FLUE GAS STREAMS USING CARBON FIBRE COMPOSITE MOLECULAR SIEVES AND ELECTRIC SWING ADSORPTION
  • ABSTRACT
  • INTRODUCTION
  • EXPERIMENTAL
  • RESULTS AND DISCUSSION
  • CONCLUSIONS
  • RECOMMENDATIONS
  • Chapter 9. SELF-ASSEMBLED NANOPOROUS MATERIALS FOR CO2 CAPTURE
  • PART 1: THEORETICAL CONSIDERATIONS
  • ABSTRACT
  • INTRODUCTION
  • CONCLUSIONS
  • NOMENCLATURE
  • ACKNOWLEDGEMENTS
  • REFERENCES
  • PART 2: EXPERIMENTAL STUDIES
  • ABSTRACT
  • INTRODUCTION
  • EXPERIMENTAL SECTION
  • RESULTS AND DISCUSSION
  • CONCLUSIONS
  • NOMENCLATURE
  • ACKNOWLEDGEMENTS
  • REFERENCES
  • Chapter 10. CREATIVE CHEMICAL APPROACHES FOR CARBON DIOXIDE REMOVAL FROM FLUE GAS
  • INTRODUCTION
  • CHALLENGES IN CO2 REMOVAL
  • THE FORMAL TOOLS FOR CREATIVITY
  • THE PROPOSED RESEARCH IDEAS DEVELOPED
  • COST ASSESSMENTS
  • CONCLUSIONS
  • REFERENCES
  • SECTION 2: PRE-COMBUSTION DE-CARBONIZATION TECHNOLOGY
  • Chapter 11. PRE-COMBUSTION DECARBONISATION TECHNOLOGY SUMMARY
  • ABSTRACT
  • INTRODUCTION
  • PRE-COMBUSTION TECHNOLOGY DEVELOPMENT PROGRAM
  • CONCLUSIONS
  • ACKNOWLEDGEMENTS
  • Chapter 12. GENERATION OF HYDROGEN FUELS FOR A THERMAL POWER PLANT WITH INTEGRATED CO2-CAPTURE USING A CaO-CaCO3 CYCLE
  • ABSTRACT
  • INTRODUCTION
  • STUDY METHODOLOGY
  • RESULTS AND DISCUSSION
  • CONCLUSIONS
  • RECOMMENDATIONS
  • ACKNOWLEDGEMENTS
  • REFERENCES
  • Chapter 13. DEVELOPMENT OF THE SORPTION ENHANCED WATER GAS SHIFT PROCESS
  • ABSTRACT
  • INTRODUCTION
  • EXPERIMENTAL/STUDY METHODOLOGY
  • RESULTS AND DISCUSSION
  • CONCLUSIONS
  • RECOMMENDATIONS
  • ACKNOWLEDGEMENTS
  • REFERENCES
  • Chapter 14. COKE GASIFICATION: ADVANCED TECHNOLOGY FOR SEPARATION AND CAPTURE OF CO2 FROM GASIFIER PROCESS PRODUCING ELECTRICAL POWER, STEAM, AND HYDROGEN
  • ABSTRACT
  • INTRODUCTION
  • STUDY METHODOLOGY
  • RESULTS AND DISCUSSION
  • CONCLUSIONS
  • RECOMMENDATIONS
  • NOMENCLATURE
  • ACKNOWLEDGEMENTS
  • REFERENCES
  • Chapter 15. DEVELOPMENT OF A HYDROGEN MIXED CONDUCTING MEMBRANE BASED CO2 CAPTURE PROCESS
  • ABSTRACT
  • INTRODUCTION
  • EXPERIMENTAL/STUDY METHODOLOGY
  • RESULTS AND DISCUSSION
  • CONCLUSIONS
  • RECOMMENDATIONS
  • NOMENCLATURE
  • ACKNOWLEDGEMENTS
  • REFERENCES
  • Chapter 16. HYDROGEN TRANSPORT MEMBRANE TECHNOLOGY FOR SIMULTANEOUS CARBON DIOXIDE CAPTURE AND HYDROGENSEPARATION IN A MEMBRANE SHIFT REACTOR
  • ABSTRACT
  • INTRODUCTION
  • EXPERIMENTAL
  • RESULTS AND DISCUSSION
  • CONCLUSIONS
  • RECOMMENDATIONS
  • NOMENCLATURE
  • ACKNOWLEDGEMENTS
  • REFERENCES
  • Chapter 17. SILICA MEMBRANES FOR HYDROGEN FUEL PRODUCTION BY MEMBRANE WATER GAS SHIFT REACTION AND DEVELOPMENT OF A MATHEMATICAL MODEL FOR A MEMBRANE SHIFT REACTOR
  • ABSTRACT
  • INTRODUCTION
  • EXPERIMENTAL
  • RESULTS AND DISCUSSION
  • CONCLUSIONS
  • RECOMMENDATIONS
  • ACKNOWLEDGEMENTS
  • REFERENCES
  • Chapter 18. DESIGN, SCALE UP AND COST ASSESSMENT OF A MEMBRANE SHIFT REACTOR
  • ABSTRACT
  • INTRODUCTION
  • STUDY METHODOLOGY
  • RESULTS AND DISCUSSION
  • CONCLUSIONS
  • RECOMMENDATIONS
  • ACKNOWLEDGEMENTS
  • REFERENCES
  • Chapter 19. GRACE: DEVELOPMENT OF Pd-ZEOLITE COMPOSITE MEMBRANES FOR HYDROGEN PRODUCTION BY MEMBRANE REACTOR
  • ABSTRACT
  • INTRODUCTION
  • EXPERIMENTAL /STUDY METHODOLOGY
  • RESULTS AND DISCUSSION
  • CONCLUSIONS
  • ACKNOWLEDGEMENTS
  • REFERENCES
  • Chapter 20. GRACE: DEVELOPMENT OF SILICA MEMBRANES FOR GAS SEPARATION AT HIGHER TEMPERATURES
  • ABSTRACT
  • INTRODUCTION
  • EXPERIMENTAL
  • RESULTS AND DISCUSSION
  • CONCLUSIONS
  • RECOMMENDATIONS
  • ACKNOWLEDGEMENTS
  • REFERENCES
  • Chapter 21. GRACE: DEVELOPMENT OF SUPPORTED PALLADIUM ALLOY MEMBRANES
  • ABSTRACT
  • INTRODUCTION
  • EXPERIMENTAL/STUDY METHODOLOGY
  • RESULTS AND DISCUSSION
  • CONCLUSIONS
  • RECOMMENDATION
  • ACKNOWLEDGEMENTS
  • REFERENCE
  • Chapter 22. GRACE: EXPERIMENTAL EVALUATION OF HYDROGEN PRODUCTION BY MEMBRANE REACTION
  • ABSTRACT
  • INTRODUCTION
  • EXPERIMENTAL
  • RESULTS AND DISCUSSION
  • CONCLUSIONS
  • NOMENCLATURE
  • ACKNOWLEDGEMENTS
  • REFERENCES
  • Chapter 23. GRACE: PRE-COMBUSTION DE-CARBONISATION HYDROGEN MEMBRANE STUDY
  • ABSTRACT
  • INTRODUCTION
  • PROCESS DESIGN SCREENING AND EVALUATION
  • REVIEW OF THE SELECTED DESIGN OPTION
  • CONCLUSIONS
  • Chapter 24. AN EVALUATION OF CONVERSION OF GAS TURBINES TO HYDROGEN FUEL
  • ABSTRACT
  • INTRODUCTION
  • STUDY METHODOLOGY
  • RESULTS AND DISCUSSION
  • CONCLUSIONS
  • NOMENCLATURE
  • SECTION 3A: OXYFUEL COMBUSTION TECHNOLOGY
  • Chapter 25. OXYFUEL COMBUSTION FOR CO2 CAPTURE TECHNOLOGY SUMMARY
  • INTRODUCTION
  • THE OXYFUEL TECHNOLOGIES
  • CONCLUSIONS
  • RECOMMENDATIONS
  • ACKNOWLEDGEMENTS
  • Chapter 26. THE OXYFUEL BASELINE: REVAMPING HEATERS AND BOILERS TO OXYFIRING BY CRYOGENIC AIR SEPARATION AND FLUE GAS RECYCLE
  • ABSTRACT
  • INTRODUCTION
  • STUDY METHODOLOGY
  • RESULTS AND DISCUSSION
  • CONCLUSIONS
  • RECOMMENDATIONS
  • REFERENCES
  • Chapter 27. ZERO RECYCLE OXYFUEL BOILER PLANT WITH CO2 CAPTURE
  • ABSTRACT
  • INTRODUCTION
  • EXPERIMENTAL/STUDY METHODOLOGY
  • RESULTS AND DISCUSSION
  • CONCLUSIONS
  • NOMENCLATURE
  • ACKNOWLEDGEMENTS
  • REFERENCES
  • Chapter 28. ZERO OR LOW RECYCLE IN-DUCT BURNER OXYFUEL BOILER FEASIBILITY STUDY
  • ABSTRACT
  • INTRODUCTION
  • EXPERIMENTAL/STUDY METHODOLOGY
  • RESULTS AND DISCUSSION
  • CONCLUSIONS
  • ACKNOWLEDGEMENTS
  • REFERENCE
  • Chapter 29. A COMPARISON OF THE EFFICIENCIES OF THEOXY-FUEL POWER CYCLES WATER-CYCLE,GRAZ-CYCLE AND MATIANT-CYCLE
  • ABSTRACT
  • INTRODUCTION
  • RESULTS AND DISCUSSION
  • CONCLUSIONS
  • ACKNOWLEDGEMENTS
  • REFERENCES
  • Chapter 30. REVAMPING HEATERS AND BOILERS TO OXYFIRING-PRODUCING OXYGEN BY ITM TECHNOLOGY
  • ABSTRACT
  • INTRODUCTION
  • STUDY METHODOLOGY
  • RESULTS AND DISCUSSION
  • CONCLUSIONS
  • RECOMMENDATIONS
  • REFERENCES
  • Chapter 31. TECHNO-ECONOMIC EVALUATION OF AN OXYFUEL POWER PLANT USING MIXED CONDUCTING MEMBRANES
  • ABSTRACT
  • INTRODUCTION
  • STUDY METHODOLOGY
  • RESULTS AND DISCUSSION
  • CONCLUSIONS
  • RECOMMENDATIONS
  • NOMENCLATURE
  • ACKNOWLEDGEMENTS
  • REFERENCES
  • Chapter 32. COST AND FEASIBILITY STUDY ON THE PRAXAIR ADVANCED BOILER FOR THE CO2 CAPTUREPROJECT'S REFINERY SCENARIO
  • ABSTRACT
  • INTRODUCTION
  • STUDY METHODOLOGY
  • RESULTS AND DISCUSSION
  • CONCLUSIONS
  • RECOMMENDATIONS
  • NOMENCLATURE
  • ACKNOWLEDGEMENTS
  • REFERENCES
  • SECTION 3B: CHEMICAL LOOPING COMBUSTION (CLC) OXYFUEL TECHNOLOGY
  • Chapter 33. CHEMICAL LOOPING COMBUSTION (CLC) OXYFUEL TECHNOLOGY SUMMARY
  • ABSTRACT
  • INTRODUCTION
  • THE RESEARCH AND DEVELOPMENT PROJECT
  • CONCLUSIONS
  • ACKNOWLEDGEMENTS
  • Chapter 34. DEVELOPMENT OF OXYGEN CARRIERS FOR CHEMICAL-LOOPING COMBUSTION
  • ABSTRACT
  • INTRODUCTION
  • EXPERIMENTAL/STUDY METHODOLOGY
  • RESULTS AND DISCUSSION
  • CONCLUSIONS
  • RECOMMENDATIONS
  • ACKNOWLEDGEMENTS
  • REFERENCES
  • Chapter 35. CHEMICAL-LOOPING COMBUSTION-REACTOR FLUIDIZATION STUDIES AND SCALE-UP CRITERIA
  • ABSTRACT
  • INTRODUCTION
  • EXPERIMENTAL/STUDY METHODOLOGY
  • RESULTS AND DISCUSSION
  • CONCLUSIONS
  • RECOMMENDATIONS
  • NOMENCLATURE
  • ACKNOWLEDGEMENTS
  • REFERENCES
  • Chapter 36. CONSTRUCTION AND 100 h OF OPERATIONAL EXPERIENCE OF A 10-kW CHEMICAL-LOOPING COMBUSTOR
  • ABSTRACT
  • INTRODUCTION
  • EXPERIMENTAL
  • RESULTS AND DISCUSSION
  • CONCLUSIONS
  • RECOMMENDATIONS
  • ACKNOWLEDGEMENTS
  • REFERENCES
  • Chapter 37. CHEMICAL LOOPING COMBUSTION OF REFINERY FUEL GAS WITH CO2 CAPTURE
  • ABSTRACT
  • CHEMICAL LOOPING COMBUSTION PRINCIPLE
  • CONVENTIONAL CIRCULATING FLUIDIZED BED TECHNOLOGY
  • CHEMICAL LOOPING COMBUSTION-INDUSTRIAL CONCEPT
  • SCALE-UP ISSUES FOR CHEMICAL LOOPING CFB
  • CONCLUSIONS
  • REFERENCES
  • Chapter 38. CAPTURE AND SEPARATION TECHNOLOGY GAPS AND PRIORITY RESEARCH NEEDS
  • ABSTRACT
  • INTRODUCTION
  • CO2 CAPTURE PROJECT-PHASE 2 PLANS
  • TECHNOLOGIES NEEDING MORE FUNDAMENTAL RESEARCH AND IN-DEPTH STUDY
  • SEPARATION TECHNOLOGY GAPS AND CHALLENGES
  • FUEL SOURCES: COAL, OIL, GAS
  • POLICY, INCENTIVES, AND REGULATORY CLIMATE
  • CONCLUSIONS
  • RECOMMENDATIONS
  • ACKNOWLEDGEMENTS

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