Climate Mitigation and Adaptation in China: Policy, Technology and Market
Gespeichert in:
| 1. Verfasser: | |
|---|---|
| Format: | Elektronisch E-Book |
| Sprache: | English |
| Veröffentlicht: |
Singapore
Springer Singapore Pte. Limited
2021
|
| Schlagworte: | |
| Online-Zugang: | HWR01 |
| Beschreibung: | 1 Online-Ressource (306 Seiten) |
| ISBN: | 9789811643101 9789811643095 |
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| 505 | 8 | |a Intro -- Preface -- Part I Policy -- Part II Technology -- Part III Market -- Part IV Projection -- Acknowledgements -- Contents -- About the Editors -- Abbreviations -- List of Figures -- List of Tables -- Part I Policy -- 1 Mitigation & -- Adaptation-China's Evolving Policy Framework -- 1 Section 1 -- 1.1 Chinese Industrial Sectors -- 1.2 The Steel Sector -- 1.3 Energy Consumption and CO2 Emissions -- 2 Section 2 -- 2.1 Climate Policy in China: An Evolving Framework -- 2.2 A Nexus of Legislation, Regulation, and Policy -- 2.3 Low-Carbon Policy for Industry -- 2.4 Low-Carbon Policy for the Steel Sector -- 3 Section 3 -- 3.1 Climate Policy Regarding CCUS: A Global Perspective -- 3.2 A Global Fieldtrip -- 4 Section 4 -- 4.1 Reality Check on CCUS in China -- 4.2 Challenges Ahead -- References -- 2 Drawing Strategic Roadmap of Decarbonization for the Steel Sector -- 1 Overview of China's Steel Sector -- 1.1 Steel Production -- 1.2 Steel Consumption -- 1.3 Energy Use -- 1.4 Carbon Emissions -- 2 Review of Low Carbon Policy -- 2.1 Low-Carbon Policy for the Steel Sector -- 2.2 Policy Effects -- 2.3 Policies Regarding CCUS -- 3 Simulation of Deployment of CCUS Technology -- 3.1 SACC with CCUS -- 3.2 Simulation: 3 Scenarios -- 3.3 Simulation Results -- 3.4 CO2 Reduction Potential of CCUS in China -- 3.5 CO2 Reduction Potential of CCUS in the Steel Sector -- 4 Strategic Roadmap for CCUS in the Steel Sector -- References -- Part II Technology -- 3 Carbon Capture, Utilization & -- Storage: A General Overview -- 1 Review of Typical Iron and Steel Plant Layout -- 1.1 The Preparation of the Raw Material -- 1.2 Ironmaking -- 1.3 Steelmaking -- 1.4 Steel Rolling -- 2 Review of Most Appropriate Carbon Capture and Utilization Technology -- 2.1 Carbon Capture Technology -- 3 Carbon Utilization Technology -- 3.1 CO2 Used for Enhanced Oil Recovery | |
| 505 | 8 | |a 3.2 CO2 Used in Iron Making Process -- 3.3 CO2 Used in Steel Making Process -- 3.4 CO2 Used in Continuous Casting Process -- 3.5 CO2 Used in Ferroalloy Production -- 3.6 CO2 Used in Other Areas in Steel Process -- 3.7 CO2 Used in Microalgae Cultivation -- 3.8 Econic Catalyst Technology for Utilization of Carbon Dioxide as a Feedstock for the Polyurethane Industry -- 3.9 Carbon Utilization Recommendation -- 4 Review of Appropriate CO2 Transport and Storage Options -- 4.1 Options for CO2 Transport -- 4.2 Trapping Mechanisms of Geological Storage of CO2 -- 4.3 Options for CO2 Storage -- 4.4 Case Studies -- References -- 4 CCUS: What is It? How Does It Cost? Techno-Economic Analysis -- 1 Section 1 -- 1.1 Main CO2 Emission Sources from Iron/steel Industry -- 1.2 CO2 Emission from Lime Kiln -- 1.3 CO2 Emission from Coke Oven -- 1.4 CO2 Emission from Blast Furnace -- 1.5 CO2 Emission from Converter -- 1.6 CO2 Emission from Hot Blast Furnace -- 1.7 CO2 Emission from Power Generation Unit -- 1.8 Summary of main CO2 sources in iron/steel industry -- 2 Section 2 -- 2.1 Carbon Capture Technologies for Steel/iron Industry -- 2.2 Absorption Capture Technology -- 2.3 Adsorption Capture Technology -- 2.4 Membrane Capture Technology -- 2.5 Cryogenic Distillation Capture Technology -- 2.6 Summary -- 3 Section 3 -- 3.1 Techno-Economic Analysis of CO2 Capture from Different Sources -- 3.2 Techno-Economic Analysis of CO2 Capture from Blast Furnace Gas -- 3.3 Techno-Economic Analysis of CO2 Capture from Lime Kiln Flue Gas -- 3.4 Techno-Economic Analysis of CO2 Capture from for Hot Blast Furnace Flue Gas -- 3.5 Techno-Economic Analysis of CO2 Capture for Linz-Donawitz Gas -- 3.6 Discussions -- 4 Section 4 -- 4.1 Concluding Remarks -- 4.2 A Caveat -- References -- Part III Market -- 5 Building Carbon Market in China: Take Stock and Look Ahead -- 1 Section 1 -- 1.1 "Cap & | |
| 505 | 8 | |a Trade": Theory and Practice of ETS -- 1.2 Policy Framework for Regional ETS Pilots in China -- 2 Section 2 -- 2.1 Institutional Designs of ETS Pilots -- 2.2 ETS Pilots in Operation -- 3 Section 3 -- 3.1 Assessing CO2 Emission Reduction by ETS Pilots -- 3.2 Method of Synthetic Control -- 3.3 Test Results -- 3.4 Robustness Test -- 4 Section 4 -- 4.1 Main Takeaways -- 4.2 Policy Recommendations -- Appendix -- References -- 6 Design Options of ETS: How to Incentivize CCUS -- 1 Section 1 -- 1.1 Key Design Elements of ETS in International Perspective -- 2 Section 2 -- 2.1 Current Designs and Operations of ETS Pilots in China -- 3 Section 3 -- 3.1 Options for China's ETS to Incentivize Steel Sector CCS -- 3.2 Regarding CO2 Stored via CCS as "Not or Low Emitted" -- 3.3 Allowing Offsets from Steel CCUS Projects in China's ETS -- 3.4 Auctioning ETS Allowances for Iron/Steel Plants with CCUS -- 4 Section 4 -- 4.1 Think Ahead -- 4.2 Concluding Remarks -- Appendix 1 -- References -- Part IV Projection -- 7 Achieving Carbon Neutrality by 2060: What (More) Has to Be Done? -- 1 Section 1 -- 1.1 Climate Change Mitigation and Adaption in Global Perspective -- 2 Section 2 -- 2.1 A Conceptual Framework: PPA + MBA + CCS + NBS -- 3 Section 3 -- 3.1 Model Construction and Scenarios Planning -- 3.2 Set-Up of Model Parameters -- 3.3 Single PPA Scenarios -- 3.4 Composite PPA Scenarios -- 4 Section 4 -- 4.1 Projection Results Under Different Scenarios -- 4.2 Impact on Energy Structure -- 4.3 Impact on Economy -- 4.4 Concluding Remarks -- References -- Index | |
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Datensatz im Suchindex
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| author | Fu, Jun |
| author_facet | Fu, Jun |
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| building | Verbundindex |
| bvnumber | BV048631730 |
| collection | ZDB-30-PQE |
| contents | Intro -- Preface -- Part I Policy -- Part II Technology -- Part III Market -- Part IV Projection -- Acknowledgements -- Contents -- About the Editors -- Abbreviations -- List of Figures -- List of Tables -- Part I Policy -- 1 Mitigation & -- Adaptation-China's Evolving Policy Framework -- 1 Section 1 -- 1.1 Chinese Industrial Sectors -- 1.2 The Steel Sector -- 1.3 Energy Consumption and CO2 Emissions -- 2 Section 2 -- 2.1 Climate Policy in China: An Evolving Framework -- 2.2 A Nexus of Legislation, Regulation, and Policy -- 2.3 Low-Carbon Policy for Industry -- 2.4 Low-Carbon Policy for the Steel Sector -- 3 Section 3 -- 3.1 Climate Policy Regarding CCUS: A Global Perspective -- 3.2 A Global Fieldtrip -- 4 Section 4 -- 4.1 Reality Check on CCUS in China -- 4.2 Challenges Ahead -- References -- 2 Drawing Strategic Roadmap of Decarbonization for the Steel Sector -- 1 Overview of China's Steel Sector -- 1.1 Steel Production -- 1.2 Steel Consumption -- 1.3 Energy Use -- 1.4 Carbon Emissions -- 2 Review of Low Carbon Policy -- 2.1 Low-Carbon Policy for the Steel Sector -- 2.2 Policy Effects -- 2.3 Policies Regarding CCUS -- 3 Simulation of Deployment of CCUS Technology -- 3.1 SACC with CCUS -- 3.2 Simulation: 3 Scenarios -- 3.3 Simulation Results -- 3.4 CO2 Reduction Potential of CCUS in China -- 3.5 CO2 Reduction Potential of CCUS in the Steel Sector -- 4 Strategic Roadmap for CCUS in the Steel Sector -- References -- Part II Technology -- 3 Carbon Capture, Utilization & -- Storage: A General Overview -- 1 Review of Typical Iron and Steel Plant Layout -- 1.1 The Preparation of the Raw Material -- 1.2 Ironmaking -- 1.3 Steelmaking -- 1.4 Steel Rolling -- 2 Review of Most Appropriate Carbon Capture and Utilization Technology -- 2.1 Carbon Capture Technology -- 3 Carbon Utilization Technology -- 3.1 CO2 Used for Enhanced Oil Recovery 3.2 CO2 Used in Iron Making Process -- 3.3 CO2 Used in Steel Making Process -- 3.4 CO2 Used in Continuous Casting Process -- 3.5 CO2 Used in Ferroalloy Production -- 3.6 CO2 Used in Other Areas in Steel Process -- 3.7 CO2 Used in Microalgae Cultivation -- 3.8 Econic Catalyst Technology for Utilization of Carbon Dioxide as a Feedstock for the Polyurethane Industry -- 3.9 Carbon Utilization Recommendation -- 4 Review of Appropriate CO2 Transport and Storage Options -- 4.1 Options for CO2 Transport -- 4.2 Trapping Mechanisms of Geological Storage of CO2 -- 4.3 Options for CO2 Storage -- 4.4 Case Studies -- References -- 4 CCUS: What is It? How Does It Cost? Techno-Economic Analysis -- 1 Section 1 -- 1.1 Main CO2 Emission Sources from Iron/steel Industry -- 1.2 CO2 Emission from Lime Kiln -- 1.3 CO2 Emission from Coke Oven -- 1.4 CO2 Emission from Blast Furnace -- 1.5 CO2 Emission from Converter -- 1.6 CO2 Emission from Hot Blast Furnace -- 1.7 CO2 Emission from Power Generation Unit -- 1.8 Summary of main CO2 sources in iron/steel industry -- 2 Section 2 -- 2.1 Carbon Capture Technologies for Steel/iron Industry -- 2.2 Absorption Capture Technology -- 2.3 Adsorption Capture Technology -- 2.4 Membrane Capture Technology -- 2.5 Cryogenic Distillation Capture Technology -- 2.6 Summary -- 3 Section 3 -- 3.1 Techno-Economic Analysis of CO2 Capture from Different Sources -- 3.2 Techno-Economic Analysis of CO2 Capture from Blast Furnace Gas -- 3.3 Techno-Economic Analysis of CO2 Capture from Lime Kiln Flue Gas -- 3.4 Techno-Economic Analysis of CO2 Capture from for Hot Blast Furnace Flue Gas -- 3.5 Techno-Economic Analysis of CO2 Capture for Linz-Donawitz Gas -- 3.6 Discussions -- 4 Section 4 -- 4.1 Concluding Remarks -- 4.2 A Caveat -- References -- Part III Market -- 5 Building Carbon Market in China: Take Stock and Look Ahead -- 1 Section 1 -- 1.1 "Cap & Trade": Theory and Practice of ETS -- 1.2 Policy Framework for Regional ETS Pilots in China -- 2 Section 2 -- 2.1 Institutional Designs of ETS Pilots -- 2.2 ETS Pilots in Operation -- 3 Section 3 -- 3.1 Assessing CO2 Emission Reduction by ETS Pilots -- 3.2 Method of Synthetic Control -- 3.3 Test Results -- 3.4 Robustness Test -- 4 Section 4 -- 4.1 Main Takeaways -- 4.2 Policy Recommendations -- Appendix -- References -- 6 Design Options of ETS: How to Incentivize CCUS -- 1 Section 1 -- 1.1 Key Design Elements of ETS in International Perspective -- 2 Section 2 -- 2.1 Current Designs and Operations of ETS Pilots in China -- 3 Section 3 -- 3.1 Options for China's ETS to Incentivize Steel Sector CCS -- 3.2 Regarding CO2 Stored via CCS as "Not or Low Emitted" -- 3.3 Allowing Offsets from Steel CCUS Projects in China's ETS -- 3.4 Auctioning ETS Allowances for Iron/Steel Plants with CCUS -- 4 Section 4 -- 4.1 Think Ahead -- 4.2 Concluding Remarks -- Appendix 1 -- References -- Part IV Projection -- 7 Achieving Carbon Neutrality by 2060: What (More) Has to Be Done? -- 1 Section 1 -- 1.1 Climate Change Mitigation and Adaption in Global Perspective -- 2 Section 2 -- 2.1 A Conceptual Framework: PPA + MBA + CCS + NBS -- 3 Section 3 -- 3.1 Model Construction and Scenarios Planning -- 3.2 Set-Up of Model Parameters -- 3.3 Single PPA Scenarios -- 3.4 Composite PPA Scenarios -- 4 Section 4 -- 4.1 Projection Results Under Different Scenarios -- 4.2 Impact on Energy Structure -- 4.3 Impact on Economy -- 4.4 Concluding Remarks -- References -- Index |
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| id | DE-604.BV048631730 |
| illustrated | Not Illustrated |
| index_date | 2024-07-03T21:16:05Z |
| indexdate | 2024-07-10T09:44:31Z |
| institution | BVB |
| isbn | 9789811643101 9789811643095 |
| language | English |
| oai_aleph_id | oai:aleph.bib-bvb.de:BVB01-034006750 |
| oclc_num | 1286430506 |
| open_access_boolean | |
| owner | DE-2070s |
| owner_facet | DE-2070s |
| physical | 1 Online-Ressource (306 Seiten) |
| psigel | ZDB-30-PQE ZDB-30-PQE HWR_PDA_PQE |
| publishDate | 2021 |
| publishDateSearch | 2021 |
| publishDateSort | 2021 |
| publisher | Springer Singapore Pte. Limited |
| record_format | marc |
| spelling | Fu, Jun Verfasser aut Climate Mitigation and Adaptation in China Policy, Technology and Market Singapore Springer Singapore Pte. Limited 2021 ©2022 1 Online-Ressource (306 Seiten) txt rdacontent c rdamedia cr rdacarrier Intro -- Preface -- Part I Policy -- Part II Technology -- Part III Market -- Part IV Projection -- Acknowledgements -- Contents -- About the Editors -- Abbreviations -- List of Figures -- List of Tables -- Part I Policy -- 1 Mitigation & -- Adaptation-China's Evolving Policy Framework -- 1 Section 1 -- 1.1 Chinese Industrial Sectors -- 1.2 The Steel Sector -- 1.3 Energy Consumption and CO2 Emissions -- 2 Section 2 -- 2.1 Climate Policy in China: An Evolving Framework -- 2.2 A Nexus of Legislation, Regulation, and Policy -- 2.3 Low-Carbon Policy for Industry -- 2.4 Low-Carbon Policy for the Steel Sector -- 3 Section 3 -- 3.1 Climate Policy Regarding CCUS: A Global Perspective -- 3.2 A Global Fieldtrip -- 4 Section 4 -- 4.1 Reality Check on CCUS in China -- 4.2 Challenges Ahead -- References -- 2 Drawing Strategic Roadmap of Decarbonization for the Steel Sector -- 1 Overview of China's Steel Sector -- 1.1 Steel Production -- 1.2 Steel Consumption -- 1.3 Energy Use -- 1.4 Carbon Emissions -- 2 Review of Low Carbon Policy -- 2.1 Low-Carbon Policy for the Steel Sector -- 2.2 Policy Effects -- 2.3 Policies Regarding CCUS -- 3 Simulation of Deployment of CCUS Technology -- 3.1 SACC with CCUS -- 3.2 Simulation: 3 Scenarios -- 3.3 Simulation Results -- 3.4 CO2 Reduction Potential of CCUS in China -- 3.5 CO2 Reduction Potential of CCUS in the Steel Sector -- 4 Strategic Roadmap for CCUS in the Steel Sector -- References -- Part II Technology -- 3 Carbon Capture, Utilization & -- Storage: A General Overview -- 1 Review of Typical Iron and Steel Plant Layout -- 1.1 The Preparation of the Raw Material -- 1.2 Ironmaking -- 1.3 Steelmaking -- 1.4 Steel Rolling -- 2 Review of Most Appropriate Carbon Capture and Utilization Technology -- 2.1 Carbon Capture Technology -- 3 Carbon Utilization Technology -- 3.1 CO2 Used for Enhanced Oil Recovery 3.2 CO2 Used in Iron Making Process -- 3.3 CO2 Used in Steel Making Process -- 3.4 CO2 Used in Continuous Casting Process -- 3.5 CO2 Used in Ferroalloy Production -- 3.6 CO2 Used in Other Areas in Steel Process -- 3.7 CO2 Used in Microalgae Cultivation -- 3.8 Econic Catalyst Technology for Utilization of Carbon Dioxide as a Feedstock for the Polyurethane Industry -- 3.9 Carbon Utilization Recommendation -- 4 Review of Appropriate CO2 Transport and Storage Options -- 4.1 Options for CO2 Transport -- 4.2 Trapping Mechanisms of Geological Storage of CO2 -- 4.3 Options for CO2 Storage -- 4.4 Case Studies -- References -- 4 CCUS: What is It? How Does It Cost? Techno-Economic Analysis -- 1 Section 1 -- 1.1 Main CO2 Emission Sources from Iron/steel Industry -- 1.2 CO2 Emission from Lime Kiln -- 1.3 CO2 Emission from Coke Oven -- 1.4 CO2 Emission from Blast Furnace -- 1.5 CO2 Emission from Converter -- 1.6 CO2 Emission from Hot Blast Furnace -- 1.7 CO2 Emission from Power Generation Unit -- 1.8 Summary of main CO2 sources in iron/steel industry -- 2 Section 2 -- 2.1 Carbon Capture Technologies for Steel/iron Industry -- 2.2 Absorption Capture Technology -- 2.3 Adsorption Capture Technology -- 2.4 Membrane Capture Technology -- 2.5 Cryogenic Distillation Capture Technology -- 2.6 Summary -- 3 Section 3 -- 3.1 Techno-Economic Analysis of CO2 Capture from Different Sources -- 3.2 Techno-Economic Analysis of CO2 Capture from Blast Furnace Gas -- 3.3 Techno-Economic Analysis of CO2 Capture from Lime Kiln Flue Gas -- 3.4 Techno-Economic Analysis of CO2 Capture from for Hot Blast Furnace Flue Gas -- 3.5 Techno-Economic Analysis of CO2 Capture for Linz-Donawitz Gas -- 3.6 Discussions -- 4 Section 4 -- 4.1 Concluding Remarks -- 4.2 A Caveat -- References -- Part III Market -- 5 Building Carbon Market in China: Take Stock and Look Ahead -- 1 Section 1 -- 1.1 "Cap & Trade": Theory and Practice of ETS -- 1.2 Policy Framework for Regional ETS Pilots in China -- 2 Section 2 -- 2.1 Institutional Designs of ETS Pilots -- 2.2 ETS Pilots in Operation -- 3 Section 3 -- 3.1 Assessing CO2 Emission Reduction by ETS Pilots -- 3.2 Method of Synthetic Control -- 3.3 Test Results -- 3.4 Robustness Test -- 4 Section 4 -- 4.1 Main Takeaways -- 4.2 Policy Recommendations -- Appendix -- References -- 6 Design Options of ETS: How to Incentivize CCUS -- 1 Section 1 -- 1.1 Key Design Elements of ETS in International Perspective -- 2 Section 2 -- 2.1 Current Designs and Operations of ETS Pilots in China -- 3 Section 3 -- 3.1 Options for China's ETS to Incentivize Steel Sector CCS -- 3.2 Regarding CO2 Stored via CCS as "Not or Low Emitted" -- 3.3 Allowing Offsets from Steel CCUS Projects in China's ETS -- 3.4 Auctioning ETS Allowances for Iron/Steel Plants with CCUS -- 4 Section 4 -- 4.1 Think Ahead -- 4.2 Concluding Remarks -- Appendix 1 -- References -- Part IV Projection -- 7 Achieving Carbon Neutrality by 2060: What (More) Has to Be Done? -- 1 Section 1 -- 1.1 Climate Change Mitigation and Adaption in Global Perspective -- 2 Section 2 -- 2.1 A Conceptual Framework: PPA + MBA + CCS + NBS -- 3 Section 3 -- 3.1 Model Construction and Scenarios Planning -- 3.2 Set-Up of Model Parameters -- 3.3 Single PPA Scenarios -- 3.4 Composite PPA Scenarios -- 4 Section 4 -- 4.1 Projection Results Under Different Scenarios -- 4.2 Impact on Energy Structure -- 4.3 Impact on Economy -- 4.4 Concluding Remarks -- References -- Index Climate change mitigation-China Carbon dioxide mitigation-China Climatic changes-China Electronic books Zhang, Dongxiao Sonstige oth Lei, Ming Sonstige oth Erscheint auch als Druck-Ausgabe Fu, Jun Climate Mitigation and Adaptation in China Singapore : Springer Singapore Pte. Limited,c2021 9789811643095 |
| spellingShingle | Fu, Jun Climate Mitigation and Adaptation in China Policy, Technology and Market Intro -- Preface -- Part I Policy -- Part II Technology -- Part III Market -- Part IV Projection -- Acknowledgements -- Contents -- About the Editors -- Abbreviations -- List of Figures -- List of Tables -- Part I Policy -- 1 Mitigation & -- Adaptation-China's Evolving Policy Framework -- 1 Section 1 -- 1.1 Chinese Industrial Sectors -- 1.2 The Steel Sector -- 1.3 Energy Consumption and CO2 Emissions -- 2 Section 2 -- 2.1 Climate Policy in China: An Evolving Framework -- 2.2 A Nexus of Legislation, Regulation, and Policy -- 2.3 Low-Carbon Policy for Industry -- 2.4 Low-Carbon Policy for the Steel Sector -- 3 Section 3 -- 3.1 Climate Policy Regarding CCUS: A Global Perspective -- 3.2 A Global Fieldtrip -- 4 Section 4 -- 4.1 Reality Check on CCUS in China -- 4.2 Challenges Ahead -- References -- 2 Drawing Strategic Roadmap of Decarbonization for the Steel Sector -- 1 Overview of China's Steel Sector -- 1.1 Steel Production -- 1.2 Steel Consumption -- 1.3 Energy Use -- 1.4 Carbon Emissions -- 2 Review of Low Carbon Policy -- 2.1 Low-Carbon Policy for the Steel Sector -- 2.2 Policy Effects -- 2.3 Policies Regarding CCUS -- 3 Simulation of Deployment of CCUS Technology -- 3.1 SACC with CCUS -- 3.2 Simulation: 3 Scenarios -- 3.3 Simulation Results -- 3.4 CO2 Reduction Potential of CCUS in China -- 3.5 CO2 Reduction Potential of CCUS in the Steel Sector -- 4 Strategic Roadmap for CCUS in the Steel Sector -- References -- Part II Technology -- 3 Carbon Capture, Utilization & -- Storage: A General Overview -- 1 Review of Typical Iron and Steel Plant Layout -- 1.1 The Preparation of the Raw Material -- 1.2 Ironmaking -- 1.3 Steelmaking -- 1.4 Steel Rolling -- 2 Review of Most Appropriate Carbon Capture and Utilization Technology -- 2.1 Carbon Capture Technology -- 3 Carbon Utilization Technology -- 3.1 CO2 Used for Enhanced Oil Recovery 3.2 CO2 Used in Iron Making Process -- 3.3 CO2 Used in Steel Making Process -- 3.4 CO2 Used in Continuous Casting Process -- 3.5 CO2 Used in Ferroalloy Production -- 3.6 CO2 Used in Other Areas in Steel Process -- 3.7 CO2 Used in Microalgae Cultivation -- 3.8 Econic Catalyst Technology for Utilization of Carbon Dioxide as a Feedstock for the Polyurethane Industry -- 3.9 Carbon Utilization Recommendation -- 4 Review of Appropriate CO2 Transport and Storage Options -- 4.1 Options for CO2 Transport -- 4.2 Trapping Mechanisms of Geological Storage of CO2 -- 4.3 Options for CO2 Storage -- 4.4 Case Studies -- References -- 4 CCUS: What is It? How Does It Cost? Techno-Economic Analysis -- 1 Section 1 -- 1.1 Main CO2 Emission Sources from Iron/steel Industry -- 1.2 CO2 Emission from Lime Kiln -- 1.3 CO2 Emission from Coke Oven -- 1.4 CO2 Emission from Blast Furnace -- 1.5 CO2 Emission from Converter -- 1.6 CO2 Emission from Hot Blast Furnace -- 1.7 CO2 Emission from Power Generation Unit -- 1.8 Summary of main CO2 sources in iron/steel industry -- 2 Section 2 -- 2.1 Carbon Capture Technologies for Steel/iron Industry -- 2.2 Absorption Capture Technology -- 2.3 Adsorption Capture Technology -- 2.4 Membrane Capture Technology -- 2.5 Cryogenic Distillation Capture Technology -- 2.6 Summary -- 3 Section 3 -- 3.1 Techno-Economic Analysis of CO2 Capture from Different Sources -- 3.2 Techno-Economic Analysis of CO2 Capture from Blast Furnace Gas -- 3.3 Techno-Economic Analysis of CO2 Capture from Lime Kiln Flue Gas -- 3.4 Techno-Economic Analysis of CO2 Capture from for Hot Blast Furnace Flue Gas -- 3.5 Techno-Economic Analysis of CO2 Capture for Linz-Donawitz Gas -- 3.6 Discussions -- 4 Section 4 -- 4.1 Concluding Remarks -- 4.2 A Caveat -- References -- Part III Market -- 5 Building Carbon Market in China: Take Stock and Look Ahead -- 1 Section 1 -- 1.1 "Cap & Trade": Theory and Practice of ETS -- 1.2 Policy Framework for Regional ETS Pilots in China -- 2 Section 2 -- 2.1 Institutional Designs of ETS Pilots -- 2.2 ETS Pilots in Operation -- 3 Section 3 -- 3.1 Assessing CO2 Emission Reduction by ETS Pilots -- 3.2 Method of Synthetic Control -- 3.3 Test Results -- 3.4 Robustness Test -- 4 Section 4 -- 4.1 Main Takeaways -- 4.2 Policy Recommendations -- Appendix -- References -- 6 Design Options of ETS: How to Incentivize CCUS -- 1 Section 1 -- 1.1 Key Design Elements of ETS in International Perspective -- 2 Section 2 -- 2.1 Current Designs and Operations of ETS Pilots in China -- 3 Section 3 -- 3.1 Options for China's ETS to Incentivize Steel Sector CCS -- 3.2 Regarding CO2 Stored via CCS as "Not or Low Emitted" -- 3.3 Allowing Offsets from Steel CCUS Projects in China's ETS -- 3.4 Auctioning ETS Allowances for Iron/Steel Plants with CCUS -- 4 Section 4 -- 4.1 Think Ahead -- 4.2 Concluding Remarks -- Appendix 1 -- References -- Part IV Projection -- 7 Achieving Carbon Neutrality by 2060: What (More) Has to Be Done? -- 1 Section 1 -- 1.1 Climate Change Mitigation and Adaption in Global Perspective -- 2 Section 2 -- 2.1 A Conceptual Framework: PPA + MBA + CCS + NBS -- 3 Section 3 -- 3.1 Model Construction and Scenarios Planning -- 3.2 Set-Up of Model Parameters -- 3.3 Single PPA Scenarios -- 3.4 Composite PPA Scenarios -- 4 Section 4 -- 4.1 Projection Results Under Different Scenarios -- 4.2 Impact on Energy Structure -- 4.3 Impact on Economy -- 4.4 Concluding Remarks -- References -- Index Climate change mitigation-China Carbon dioxide mitigation-China Climatic changes-China |
| title | Climate Mitigation and Adaptation in China Policy, Technology and Market |
| title_auth | Climate Mitigation and Adaptation in China Policy, Technology and Market |
| title_exact_search | Climate Mitigation and Adaptation in China Policy, Technology and Market |
| title_exact_search_txtP | Climate Mitigation and Adaptation in China Policy, Technology and Market |
| title_full | Climate Mitigation and Adaptation in China Policy, Technology and Market |
| title_fullStr | Climate Mitigation and Adaptation in China Policy, Technology and Market |
| title_full_unstemmed | Climate Mitigation and Adaptation in China Policy, Technology and Market |
| title_short | Climate Mitigation and Adaptation in China |
| title_sort | climate mitigation and adaptation in china policy technology and market |
| title_sub | Policy, Technology and Market |
| topic | Climate change mitigation-China Carbon dioxide mitigation-China Climatic changes-China |
| topic_facet | Climate change mitigation-China Carbon dioxide mitigation-China Climatic changes-China |
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