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UID:

Format: 1 Online-Ressource (XI, 387 p. 130 illus)

Edition: 1st ed. 2024

ISBN: 9783031588976

Series Statement: Lecture Notes in Energy 101

Additional Edition: Erscheint auch als Druck-Ausgabe ISBN 978-3-031-58896-9

Additional Edition: Erscheint auch als Druck-Ausgabe ISBN 978-3-031-58898-3

Additional Edition: Erscheint auch als Druck-Ausgabe ISBN 978-3-031-58899-0

Language: English

DOI: 10.1007/978-3-031-58897-6

URL: Volltext  (kostenfrei)

UID:

Format: 1 online resource (0 pages)

Edition: 1st ed. 2024.

ISBN: 3-031-58897-5

Series Statement: Lecture Notes in Energy, 101

Content: This open access book brings together concrete analyses from around the world, spanning various scales, that shed light on strategies for implementing essential energy and climate transitions within the broader context of UN Sustainable Development Goal (SDG) imperatives. Specifically, the book exemplifies the advancement, adaptation, and utilization of energy systems models to address intricate policy issues around pathways to achieve net-zero emissions, enhance energy security, optimize investments, and understand their societal implications. It explores the intricate connections between the SDGs concerning energy, climate action, and other developmental priorities such as employment and economic growth, industrial innovation, urban development, responsible consumption and production, and collaborative partnerships. Organized into four sections, the book illustrates the necessary adjustments of energy system models to guide SDGs, evaluates the role of modeling to advance both renewable energy and energy security, and showcases how energy systems are harnessed to engage with international, national, and local policymakers.

Note: Foreword -- Preface -- Introduction -- PART I - ADAPTING -- ENERGY SYSTEM MODELS TO INFORM SDGs -- 1. Implications of the NetZero Transition Across Spectrum of SDG Indicators: Linking Global Energy System and CGE Models -- 2. Accelerating the Performance of Large-Scale TIMES Models in the Modelling of SDGs -- 3. On the Fairness and Feasibility of Implementing Low-Energy Demand Scenarios to Achieve Net Zero -- 4. A Global and Regional Energy System Analysis of Carbon Dioxide Removal as Climate Sustainable Action considering Land and Water Challenges -- 5. Structure Applications, and Future Perspective of the TEMOA-Italy Model -- PART II – INCREASING RENEWABLE ENERGY USING ENERGY SYSTEM MODELS -- 6. Assessing the Impact of Climate Variability on Wind Energy Potential in Decarbonization Scenarios in Energy Systems Models -- 7. Clean and Affordable Norwegian Offshore Wind to Facilitate the European Low-Carbon Transition -- 8. The Nordics as Green Fuel and Power Hub? -- 9. Modelling Circular Economy in the Spanish Pulp and Paper Industry in TIMES. - 10. Estimating the Cost of Decarbonising an Economy -- PART III – INFORMING ENERGY SECURITY WITH ENERGY SYSTEM MODELS -- 11. Modelling of Demands of Selected Minerals and Metals in Clean Energy Transition with 1.5–2.0 °C Mitigation Targets -- 12. Security of Supply – Emission Free Energy Carriers and the Impact of Trade to Achieve the 1.5 °C Target -- 13. The Gas Crise and the Impact on the Pathway to a Climate Neutral Energy System till 2045 -- 14. Net Zero Transition in Ukraine: Implications for Sustainable Development Goals and Energy Security -- 15. From Dependency to Diversification: How SDG7 Can Help Algeria Overcome Dutch Disease -- PART IV – ENGAGING WITH POLICY-MAKERS ON ENERGY SYSTEM MODELS -- 16. Analysis of Low Carbon Transition Pathways by Using an Interdisciplinary Approach -- 17.Crossing Points Between Sustainable Municipalities and Sustainable Energy Systems -- 18. Application of the TIMES model in the World Bank’s Country Climate and Development Reports in Europe and Central Asia -- 19. Translating TIMES Scenario Results into Policy Insights to Underpin Climate Action in Ireland -- 20. Retrospective of French Prospective Exercises: Chronicle of A Failure.

Additional Edition: ISBN 3-031-58896-7

Language: English

DOI: 10.1007/978-3-031-58897-6

UID:

Format: XI, 387 p. 130 illus. , online resource.

Edition: 1st ed. 2024.

ISBN: 9783031588976

Series Statement: Lecture Notes in Energy, 101

Content: This open access book brings together concrete analyses from around the world, spanning various scales, that shed light on strategies for implementing essential energy and climate transitions within the broader context of UN Sustainable Development Goal (SDG) imperatives. Specifically, the book exemplifies the advancement, adaptation, and utilization of energy systems models to address intricate policy issues around pathways to achieve net-zero emissions, enhance energy security, optimize investments, and understand their societal implications. It explores the intricate connections between the SDGs concerning energy, climate action, and other developmental priorities such as employment and economic growth, industrial innovation, urban development, responsible consumption and production, and collaborative partnerships. Organized into four sections, the book illustrates the necessary adjustments of energy system models to guide SDGs, evaluates the role of modeling to advance both renewable energy and energy security, and showcases how energy systems are harnessed to engage with international, national, and local policymakers. This book is available open access under a Creative Commons Attribution 4.0 International License via link.springer.com.

Note: Foreword -- Preface -- Introduction -- PART I - ADAPTING -- ENERGY SYSTEM MODELS TO INFORM SDGs -- 1. Implications of the NetZero Transition Across Spectrum of SDG Indicators: Linking Global Energy System and CGE Models -- 2. Accelerating the Performance of Large-Scale TIMES Models in the Modelling of SDGs -- 3. On the Fairness and Feasibility of Implementing Low-Energy Demand Scenarios to Achieve Net Zero -- 4. A Global and Regional Energy System Analysis of Carbon Dioxide Removal as Climate Sustainable Action considering Land and Water Challenges -- 5. Structure Applications, and Future Perspective of the TEMOA-Italy Model -- PART II - INCREASING RENEWABLE ENERGY USING ENERGY SYSTEM MODELS -- 6. Assessing the Impact of Climate Variability on Wind Energy Potential in Decarbonization Scenarios in Energy Systems Models -- 7. Clean and Affordable Norwegian Offshore Wind to Facilitate the European Low-Carbon Transition -- 8. The Nordics as Green Fuel and Power Hub? -- 9. Modelling Circular Economy in the Spanish Pulp and Paper Industry in TIMES. - 10. Estimating the Cost of Decarbonising an Economy -- PART III - INFORMING ENERGY SECURITY WITH ENERGY SYSTEM MODELS -- 11. Modelling of Demands of Selected Minerals and Metals in Clean Energy Transition with 1.5-2.0 °C Mitigation Targets -- 12. Security of Supply - Emission Free Energy Carriers and the Impact of Trade to Achieve the 1.5 °C Target -- 13. The Gas Crise and the Impact on the Pathway to a Climate Neutral Energy System till 2045 -- 14. Net Zero Transition in Ukraine: Implications for Sustainable Development Goals and Energy Security -- 15. From Dependency to Diversification: How SDG7 Can Help Algeria Overcome Dutch Disease -- PART IV - ENGAGING WITH POLICY-MAKERS ON ENERGY SYSTEM MODELS -- 16. Analysis of Low Carbon Transition Pathways by Using an Interdisciplinary Approach -- 17.Crossing Points Between Sustainable Municipalities and Sustainable Energy Systems -- 18. Application of the TIMES model in the World Bank's Country Climate and Development Reports in Europe and Central Asia -- 19. Translating TIMES Scenario Results into Policy Insights to Underpin Climate Action in Ireland -- 20. Retrospective of French Prospective Exercises: Chronicle of A Failure.

In: Springer Nature eBook

Additional Edition: Printed edition: ISBN 9783031588969

Additional Edition: Printed edition: ISBN 9783031588983

Additional Edition: Printed edition: ISBN 9783031588990

Language: English

DOI: 10.1007/978-3-031-58897-6

URL: https://doi.org/10.1007/978-3-031-58897-6

UID:

Format: 1 online resource (394 pages)

Edition: 1st ed.

ISBN: 9783031588976

Series Statement: Lecture Notes in Energy Series ; v.101

Note: Intro -- Foreword -- Preface -- Contents -- Introduction -- 1 The IEA Energy Technology Systems Analysis Program: From the Oil Crisis to the Sustainable Development Goals -- 1.1 IEA-ETSAP Technology Collaboration Programme -- 1.2 Building and Adapting Modelling Tools and Capabilities to Evolving Challenges -- 2 The MARKAL/TIMES Family of Models: Examples and Openness -- 3 This Book: Net Zero Emissions, SDGs, and Energy Security -- 3.1 Part I: Adapting Energy Systems Models to Inform SDGs -- 3.2 Part II: Using Energy System Modelling to Support the Transition to Renewable Energy -- 3.3 Part III: Informing Energy Security with Energy System Models -- 3.4 Part IV: Engaging with Policymakers on Energy System Models -- 3.5 Further Information on Energy Systems Modelling and SDGs -- References -- Part I: Adapting Energy System Models to Inform SDGs -- Low Energy Demand Scenarios for OECD Countries: Fairness, Feasibility and Potential Impacts on SDGs -- 1 Introduction -- 2 Review of Published LED Scenarios -- 2.1 Scenarios Overview -- 2.2 Demand Mitigation Measures -- 2.3 Impacts of LED Scenarios -- 3 The Feasibility and Fairness of LED Scenarios -- 3.1 The Economy and the Rebound Effect (Feasibility) -- 3.1.1 Demand and the Economy -- 3.1.2 The Rebound Effect -- 3.2 Price Elasticity (Fairness) -- 3.3 Model Boundaries (Methodology) -- 4 Impacts of LED Scenarios on SDGs -- 4.1 SDG 1.2: Poverty -- 4.2 SDG 7.1: Access to Energy -- 4.3 SDG 7.2: Renewable Energy -- 4.4 SDG 7.3: Energy Efficiency -- 4.5 SDG 10.1: Overcoming Income Inequality -- 4.6 SDG 12.2: Use of Resources -- 4.7 SDG 16.7: Participatory Decision Making -- 5 Conclusions -- References -- Implications of the Net Zero Transition Scenarios on SDG Indicators: Linking Global Energy System, CGE and Atmospheric Source-... -- 1 Introduction -- 2 Methodology -- 2.1 KINESYS Global Energy System Model. , 2.2 ENVISAGE Computable General Equilibrium Model -- 2.3 TM5-FASST Atmospheric Source-Receptor Model -- 2.4 Model Linking -- 2.5 Scenario Framework -- 2.6 SDG Indicators -- 3 Results and Discussion -- 3.1 Emission Pathways -- 3.2 Impacts on SDGs at the Global Level Show Major Co-benefits But Also Highlight Several Trade-Offs -- 3.3 Alternative Revenue Recycling Options Might Strengthen Positive Spillovers -- 3.4 It Is Important to Properly Capture the Interactions Across Various SDG Dimensions: A Case of Air Pollution-Related Mortal... -- 4 Conclusions -- References -- Accelerating the Performance of Large-Scale TIMES Models in the Modelling of Sustainable Development Goals -- 1 Introduction -- 2 Methodology -- 2.1 Overview of the EUSTEM Model -- 2.1.1 Generation of EUSTEM Instances with High Temporal and Spatial Resolution -- 2.2 Using the CPLEX/Barrier Interior Point Solver for Shared-Memory Systems -- 2.2.1 Accelerating the Cholesky Factorisation of CPLEX/Barrier -- 2.2.2 Improving the Starting Point and Avoiding ``Wasted ́́Iterations in Barrier -- 2.2.3 Accelerating the Crossover Algorithm -- 2.2.4 Using Parallel Mode in Barrier -- 2.3 Using the PIPS-IPM++ Parallel Interior Point Solver for Distributed-Memory Systems -- 2.3.1 Annotating Variables and Equations to Reveal the Block Structure of the Model Matrix -- 2.3.2 How to Solve an Annotated Model with the PIPS-IPM++ Solver -- 3 Results -- 3.1 How to Accelerate the CPLEX/Barrier in Shared-Memory Systems -- 3.1.1 Step 1: Examining if Passing the Primal Problem Performs Better Than Dual -- 3.1.2 Step 2: Identifying the Number of Dense Columns to Minimise Cholesky Factorisation Complexity -- 3.1.3 Step 3: Exploring Different Ordering Algorithms and Starting Point Heuristics for Barrier -- 3.1.4 Step 4: Eliminating ``Wasted ́́Iterations -- 3.1.5 Step 5: Accelerating the Crossover Algorithm. , 3.2 Insights from Parallel Solving with PIPS-IPM++ -- 3.2.1 Annotation Strategy for the Block Definitions -- 3.2.2 PIPS-IPM++ Solution Times -- 3.3 Insights from Different Spatial and Temporal Resolutions in Modelling SDG7 and SDG13 -- 3.3.1 Different Regional Aggregations of ``Europe ́́Yields Different Projections of Technology Uptake -- 3.3.2 Different Timeslices Aggregations Yield Different Projections of Flexibility in the Energy System -- 3.3.3 Different Regional and Temporal Aggregations Yield Different Projections of Energy System Cost -- 4 Conclusions -- References -- Enabling Coherence Between Energy Policies and SDGs Through Open Energy Models: The TEMOA-Italy Example -- 1 Introduction and Motivation -- 2 Model Structure -- 2.1 Power Sector -- 2.2 Constraints -- 2.3 Emissions Accounting Methodology -- 3 Sustainability Indicators -- 4 Scenarios and Results -- 4.1 Scenarios -- 4.2 Energy and Emissions -- 4.3 Sustainability -- 5 Conclusions and Perspectives -- 5.1 Conclusions -- 5.2 Perspectives -- References -- Part II: Using Energy System Modelling to Support the Transition to Renewable Energy -- Assessing the Impact of Climate Variability on Wind Energy Potential in Decarbonization Scenarios in Energy Systems Models -- 1 Introduction -- 2 Methods -- 2.1 Definition of the Decarbonization Scenarios -- 2.2 Data Pipeline Process -- 2.3 Global Statistical Analysis -- 2.4 Overview of the TIMES United States (TUSM) Energy System Model Framework -- 3 Results -- 3.1 Global Statistical Analysis -- 3.1.1 Africa -- 3.1.2 Oceania -- 3.1.3 Americas -- 3.1.4 Asia -- 3.1.5 Europe -- 3.1.6 Offshore -- 3.2 Decarbonizing the Electricity Generation -- 3.3 Decarbonizing New Capacity Installation -- 4 Conclusion -- References -- Clean and Affordable Norwegian Offshore Wind to Facilitate the Low-Carbon Transition -- 1 Introduction -- 1.1 Motivation. , 1.2 Energy Modelling Literature -- 1.3 Research Questions -- 2 Methodology -- 2.1 Energy System Model -- 2.2 Modelling of Offshore Wind -- 2.3 Case Studies and Sensitivity Analysis -- 3 Results -- 3.1 Norwegian Offshore Wind Resources -- 3.2 Offshore Wind Investments -- 3.3 Electricity Production and Use -- 3.4 Electricity Trade -- 3.5 Sensitivity on Acceptance for Onshore Wind and Transmission Cables -- 4 Conclusion -- References -- Will the Nordics Become an Export Hub for Electro Fuels and Electricity? -- 1 Introduction -- 2 Who Will Be the Future Net Exporter of Power and Green Fuels? -- 2.1 Hydrogen in the Context of the Nordics -- 2.2 Example 1: Analysis with DTU Balmorel Europe -- 2.2.1 EU Hydrogen Infrastructure in 2050 -- 2.2.2 Hydrogen Demand Assumptions -- 2.2.3 EU Self-Sufficiency -- 2.2.4 Blue Hydrogen Production -- 2.2.5 Generation and Storage Capacities -- 2.2.6 Transmission Infrastructure -- 2.2.7 Electricity and Hydrogen Exports -- 2.3 Example 2: Analysis with EML TIMES-NEU Model -- 2.3.1 Future Demand for Green Fuels -- 2.3.2 Development of Infrastructure -- 2.4 Take Aways from the Two Modelling Examples -- 3 How Is the Green Fuel Revolution in the Nordics Affecting SDGs? -- 4 Key Challenges and Social Concerns -- 4.1 Price Gap: A Battle of Colours -- 4.2 Delays and Challenges -- 4.3 Renewable Electricity: It Needs to Happen Sooner Rather than Later -- 4.4 Willingness-to-Change: The Carrot and the Stick -- 4.4.1 Political Willingness -- 4.4.2 Funding -- 4.4.3 Technology Maturity -- 5 Conclusion -- 5.1 Export Potential from the Nordics -- 5.2 Need for Ramping Up Wind, PV, Electrolysers, and Infrastructure -- 5.3 Political Decisions and Regulation -- 5.4 Sustainable Development Goals -- 5.5 Social Concerns -- References -- Transition Pathways for a Low-Carbon Norway: Bridging Socio-technical and Energy System Analyses. , 1 Introduction -- 2 Approach and Methods -- 2.1 Envisioning Socio-technical Transition Pathways -- 2.2 Energy-Economy Modelling -- 2.2.1 Energy System Analysis with IFE-TIMES-Norway -- 2.2.2 Regional Economic Analysis with REMES-Norway -- 3 Socio-technical Scenarios Definition, Quantifications and Bottlenecks -- 3.1 Scenario Storylines -- 3.1.1 Incremental Innovation Pathway (INC) -- 3.1.2 Technological Substitution Pathway (TECH) -- 3.1.3 Social Change Pathway (SOC) -- 3.1.4 Radical Transformation Pathway (RAD) -- 3.2 Transition Bottlenecks -- 3.3 Quantification of Socio-technical Transition Pathways -- 4 Results -- 4.1 Techno-Economic Analysis -- 4.1.1 Power Generation and Trade -- 4.1.2 Transport Fuels -- 4.1.3 Hydrogen Supply -- 4.1.4 CO2 Emissions -- 4.2 Regional Economic Analysis -- 5 Discussion -- 6 Conclusion -- References -- Part III: Informing Energy Security with Energy System Models -- Modelling of Demands of Selected Minerals and Metals in Clean Energy Transition with 1.5-2.0 C Mitigation Targets -- 1 Introduction -- 2 Overview of Input Data Formulation on Minerals and Metals and Modelling Approach -- 2.1 Data Formulation for Demands of Selected Minerals and Metals -- 2.2 TIMES-VTT Model Description -- 2.3 Description of Scenario Formulation with 1.5-2.0 C Mitigation Target -- 3 Key Results of Mineral and Metal Demands in the Clean Energy Transition -- 3.1 Scenario Results for Energy Systems and Greenhouse Gas Mitigation -- 3.2 Overview of the Demands of Selected Metals for Selected Technologies -- 3.3 Sufficiency of Cobalt, Copper, Dysprosium, Lithium, Neodymium, Silver, and Nickel in Climate Change Mitigation -- 4 Linking SDGs with the Clean Energy Transition -- 5 Conclusion -- References -- Emission Free Energy Carriers and the Impact of Trade to Achieve the 1.5 C Target: A Global Perspective of Hydrogen and Ammonia -- 1 Introduction. , 2 Research to Date.

Additional Edition: Print version: Labriet, Maryse Aligning the Energy Transition with the Sustainable Development Goals Cham : Springer,c2024 ISBN 9783031588969

Language: English

Keywords: Electronic books.

URL: Click to View

UID:

Format: 1 online resource (xi, 387 pages) : , illustrations.

ISBN: 9783031588976 , 3031588975

Series Statement: Lecture notes in energy, volume 101

Content: This open access book brings together concrete analyses from around the world, spanning various scales, that shed light on strategies for implementing essential energy and climate transitions within the broader context of UN Sustainable Development Goal (SDG) imperatives. Specifically, the book exemplifies the advancement, adaptation, and utilization of energy systems models to address intricate policy issues around pathways to achieve net-zero emissions, enhance energy security, optimize investments, and understand their societal implications. It explores the intricate connections between the SDGs concerning energy, climate action, and other developmental priorities such as employment and economic growth, industrial innovation, urban development, responsible consumption and production, and collaborative partnerships. Organized into four sections, the book illustrates the necessary adjustments of energy system models to guide SDGs, evaluates the role of modeling to advance both renewable energy and energy security, and showcases how energy systems are harnessed to engage with international, national, and local policymakers.

Note: Foreword -- Preface -- Introduction -- PART I - ADAPTING -- ENERGY SYSTEM MODELS TO INFORM SDGs -- 1. Implications of the NetZero Transition Across Spectrum of SDG Indicators: Linking Global Energy System and CGE Models -- 2. Accelerating the Performance of Large-Scale TIMES Models in the Modelling of SDGs -- 3. On the Fairness and Feasibility of Implementing Low-Energy Demand Scenarios to Achieve Net Zero -- 4. A Global and Regional Energy System Analysis of Carbon Dioxide Removal as Climate Sustainable Action considering Land and Water Challenges -- 5. Structure Applications, and Future Perspective of the TEMOA-Italy Model -- PART II. INCREASING RENEWABLE ENERGY USING ENERGY SYSTEM MODELS -- 6. Assessing the Impact of Climate Variability on Wind Energy Potential in Decarbonization Scenarios in Energy Systems Models -- 7. Clean and Affordable Norwegian Offshore Wind to Facilitate the European Low-Carbon Transition -- 8. The Nordics as Green Fuel and Power Hub? -- 9. Modelling Circular Economy in the Spanish Pulp and Paper Industry in TIMES. - 10. Estimating the Cost of Decarbonising an Economy -- PART III. INFORMING ENERGY SECURITY WITH ENERGY SYSTEM MODELS -- 11. Modelling of Demands of Selected Minerals and Metals in Clean Energy Transition with 1.5-2.0 °C Mitigation Targets -- 12. Security of Supply : Emission Free Energy Carriers and the Impact of Trade to Achieve the 1.5°C Target -- 13. The Gas Crise and the Impact on the Pathway to a Climate Neutral Energy System till 2045 -- 14. Net Zero Transition in Ukraine: Implications for Sustainable Development Goals and Energy Security -- 15. From Dependency to Diversification: How SDG7 Can Help Algeria Overcome Dutch Disease -- PART IV. ENGAGING WITH POLICY-MAKERS ON ENERGY SYSTEM MODELS -- 16. Analysis of Low Carbon Transition Pathways by Using an Interdisciplinary Approach -- 17.Crossing Points Between Sustainable Municipalities and Sustainable Energy Systems -- 18. Application of the TIMES model in the World Bank's Country Climate and Development Reports in Europe and Central Asia -- 19. Translating TIMES Scenario Results into Policy Insights to Underpin Climate Action in Ireland -- 20. Retrospective of French Prospective Exercises: Chronicle of A Failure.

Additional Edition: Print version: Labriet, Maryse Aligning the Energy Transition with the Sustainable Development Goals Cham : Springer International Publishing AG,c2024 ISBN 9783031588969

Language: English

Keywords: Electronic books.

DOI: 10.1007/978-3-031-58897-6

URL: SpringerLink

URL: Click here to view book

URL: Click here to view book