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

Name: 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
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Vol 1 - Capture and Separation of Carbon Dioxide from Combustion

David C. Thomas Sally M. Benson(Editor)

Elsevier (Publisher)

Published on 3. June 2016

660 pages

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978-0-08-100500-2 (ISBN)

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

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