The Future European Energy System Renewable Energy, Flexibility Options and Technological Progress /
The Future European Energy System Renewable Energy, Flexibility Options and Technological Progress / [electronic resource] :
edited by Dominik Möst, Steffi Schreiber, Andrea Herbst, Martin Jakob, Angelo Martino, Witold-Roger Poganietz.
- 1st ed. 2021.
- XXIX, 309 p. 94 illus., 88 illus. in color. online resource.
Part I : Introduction, Scenario Description and Model Coupling Approach -- Chapter 1 - Introduction ( Dominik Möst, Steffi Schreiber and Martin Jakob) -- Chapter 2 - Scenario Storyline in Context of Decarbonization Pathways for a Future European Energy System ( Andrea Herbst, Steffi Schreiber, Witold-Roger Poganietz, Angelo Martino and Dominik Möst) -- Chapter 3 - Model Coupling Approach for the Analysis of the Future European Energy System ( Robert Kunze and Steffi Schreiber ) -- Part II : Technological Progress -- Chapter 4 - Deriving Experience Curves and Implementing Technological Learning in Energy System Models ( Atse Louwen and Martin Junginger ) -- Chapter 5 - Electric Vehicle Market Diffusion in Main Non-European Markets ( Katrin Seddig, Patrick Jochem and Wolf Fichtner ) -- Part III : Demand Side Flexibility and the Role of Disruptive Technologies -- Chapter 6 - Future Energy Demand Developments and Demand Side Flexibility in a Decarbonized Central Energy System ( Andrea Herbst, Anna-Lena Klingler, Stephanie Heitel, Pia Manz, Tobias Fleiter, Matthias Rehfeldt, Francesca Fermi, Davide Fiorello, Angelo Martino and Ulrich Reiter) -- Chapter 7 - Disruptive Demand Side Technologies: Market Shares and Impact on Flexibility in a Decentralized World ( Stephanie Heitel, Anna-Lena Klingler, Andrea Herbst and Francesca Fermi ) -- Chapter 8 - What is the Flexibility Potential in the Tertiary Sector? (Ulrich Reiter and Martin Jakob) -- Chapter 9 - A Techno-Economic Comparison of Demand Side Management with Other Flexibility Options (Theresa Ladwig) -- Part IV: Flexibility Options in the Electricity and Heating Sector -- Chapter 10 - Optimal Energy Portfolios in the Electricity Sector: Trade-offs and Interplay between Different Flexibility Options ( Steffi Schreiber, Christoph Zöphel and Dominik Möst ) -- Chapter 11 - Impact of Electricity Market Designs on Investments in Flexibility Options ( Christoph Fraunholz, Dogan Keles and Wolf Fichtner ) -- Chapter 12 - Optimal Energy Portfolios in the Heating Sector and the Flexibility Potential of Combined-Heat-Power Plants and District Heating Systems ( Maciej Raczyński, Artur Wyrwa, Marcin Pluta and Wojciech Suwała ) -- Part V : Analysis of the Environmental and Socio-Impacts beyond the Greenhouse Gas Emission Reduction Targets -- Chapter 13 - Unintended Environmental Impacts at Local and Global Scale – Trade-offs of a Low-carbon Electricity System (Maryegli Fuss and Lei Xu).-Chapter 14 - Assessing Social Impacts in Current and Future Electricity Production in the European Union (Nils Brown and David Lindén ) -- Chapter 15 - Spatially Disaggregated Impact Pathway Analysis of Direct Particulate Matter Emissions (Janusz Zyśk, Artur Wyrwa, Beata Sliz-Szkliniarz) -- Part VI : Concluding Remarks -- Chapter 16 - Comprehensive Insights and Recommendations (Dominik Möst, Andrea Herbst, Martin Jakob, Witold-Roger Poganietz, Steffi Schreiber and Christoph Zöphel).
Open Access
This open access book analyzes the transition toward a low-carbon energy system in Europe under the aspects of flexibility and technological progress. By covering the main energy sectors – including the industry, residential, tertiary and transport sector as well as the heating and electricity sector – the analysis assesses flexibility requirements in a cross-sectoral energy system with high shares of renewable energies. The contributing authors – all European energy experts – apply models and tools from various research fields, including techno-economic learning, fundamental energy system modeling, and environmental and social life cycle as well as health impact assessment, to develop an innovative and comprehensive energy models system (EMS). Moreover, the contributions examine renewable penetrations and their contributions to climate change mitigation, and the impacts of available technologies on the energy system. Given its scope, the book appeals to researchers studying energy systems and markets, professionals and policymakers of the energy industry and readers interested in the transformation to a low-carbon energy system in Europe.
9783030609146
10.1007/978-3-030-60914-6 doi
Power resources.
Energy policy.
Energy and state.
Political planning.
Electric power production.
Natural Resource and Energy Economics.
Energy Policy, Economics and Management.
Public Policy.
Electrical Power Engineering.
HD9502-9502.5
333.79
Part I : Introduction, Scenario Description and Model Coupling Approach -- Chapter 1 - Introduction ( Dominik Möst, Steffi Schreiber and Martin Jakob) -- Chapter 2 - Scenario Storyline in Context of Decarbonization Pathways for a Future European Energy System ( Andrea Herbst, Steffi Schreiber, Witold-Roger Poganietz, Angelo Martino and Dominik Möst) -- Chapter 3 - Model Coupling Approach for the Analysis of the Future European Energy System ( Robert Kunze and Steffi Schreiber ) -- Part II : Technological Progress -- Chapter 4 - Deriving Experience Curves and Implementing Technological Learning in Energy System Models ( Atse Louwen and Martin Junginger ) -- Chapter 5 - Electric Vehicle Market Diffusion in Main Non-European Markets ( Katrin Seddig, Patrick Jochem and Wolf Fichtner ) -- Part III : Demand Side Flexibility and the Role of Disruptive Technologies -- Chapter 6 - Future Energy Demand Developments and Demand Side Flexibility in a Decarbonized Central Energy System ( Andrea Herbst, Anna-Lena Klingler, Stephanie Heitel, Pia Manz, Tobias Fleiter, Matthias Rehfeldt, Francesca Fermi, Davide Fiorello, Angelo Martino and Ulrich Reiter) -- Chapter 7 - Disruptive Demand Side Technologies: Market Shares and Impact on Flexibility in a Decentralized World ( Stephanie Heitel, Anna-Lena Klingler, Andrea Herbst and Francesca Fermi ) -- Chapter 8 - What is the Flexibility Potential in the Tertiary Sector? (Ulrich Reiter and Martin Jakob) -- Chapter 9 - A Techno-Economic Comparison of Demand Side Management with Other Flexibility Options (Theresa Ladwig) -- Part IV: Flexibility Options in the Electricity and Heating Sector -- Chapter 10 - Optimal Energy Portfolios in the Electricity Sector: Trade-offs and Interplay between Different Flexibility Options ( Steffi Schreiber, Christoph Zöphel and Dominik Möst ) -- Chapter 11 - Impact of Electricity Market Designs on Investments in Flexibility Options ( Christoph Fraunholz, Dogan Keles and Wolf Fichtner ) -- Chapter 12 - Optimal Energy Portfolios in the Heating Sector and the Flexibility Potential of Combined-Heat-Power Plants and District Heating Systems ( Maciej Raczyński, Artur Wyrwa, Marcin Pluta and Wojciech Suwała ) -- Part V : Analysis of the Environmental and Socio-Impacts beyond the Greenhouse Gas Emission Reduction Targets -- Chapter 13 - Unintended Environmental Impacts at Local and Global Scale – Trade-offs of a Low-carbon Electricity System (Maryegli Fuss and Lei Xu).-Chapter 14 - Assessing Social Impacts in Current and Future Electricity Production in the European Union (Nils Brown and David Lindén ) -- Chapter 15 - Spatially Disaggregated Impact Pathway Analysis of Direct Particulate Matter Emissions (Janusz Zyśk, Artur Wyrwa, Beata Sliz-Szkliniarz) -- Part VI : Concluding Remarks -- Chapter 16 - Comprehensive Insights and Recommendations (Dominik Möst, Andrea Herbst, Martin Jakob, Witold-Roger Poganietz, Steffi Schreiber and Christoph Zöphel).
Open Access
This open access book analyzes the transition toward a low-carbon energy system in Europe under the aspects of flexibility and technological progress. By covering the main energy sectors – including the industry, residential, tertiary and transport sector as well as the heating and electricity sector – the analysis assesses flexibility requirements in a cross-sectoral energy system with high shares of renewable energies. The contributing authors – all European energy experts – apply models and tools from various research fields, including techno-economic learning, fundamental energy system modeling, and environmental and social life cycle as well as health impact assessment, to develop an innovative and comprehensive energy models system (EMS). Moreover, the contributions examine renewable penetrations and their contributions to climate change mitigation, and the impacts of available technologies on the energy system. Given its scope, the book appeals to researchers studying energy systems and markets, professionals and policymakers of the energy industry and readers interested in the transformation to a low-carbon energy system in Europe.
9783030609146
10.1007/978-3-030-60914-6 doi
Power resources.
Energy policy.
Energy and state.
Political planning.
Electric power production.
Natural Resource and Energy Economics.
Energy Policy, Economics and Management.
Public Policy.
Electrical Power Engineering.
HD9502-9502.5
333.79