Verfügbarkeit: Renewable energy systems

Renewable energy systems: a smart energy systems approach to the choice and modeling of fully decarbonized societies

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Bibliographische Detailangaben
1. Verfasser:	Lund, Henrik (VerfasserIn)
Format:	Elektronisch E-Book
Sprache:	English
Veröffentlicht:	London Elsevier, AP, Academic Press [2024]
Ausgabe:	Third edition
Schlagworte:	Erneuerbare Energien
Online-Zugang:	DE-2070s DE-706 Volltext
Beschreibung:	Description based on publisher supplied metadata and other sources
Beschreibung:	1 Online-Ressource (xviii, 380 Seiten) Illustrationen, Diagramme
ISBN:	9780443141362
DOI:	10.1016/C2022-0-02551-4

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MARC


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245	1	0	\|a Renewable energy systems \|b a smart energy systems approach to the choice and modeling of fully decarbonized societies \|c Henrik Lund (Department of Sustainability and Planning, Aalborg University, Aalborg, Denmark)
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505	8		\|a Intro -- Renewable Energy Systems: A Smart Energy Systems Approach to the Choice and Modeling of Fully Decarbonized Societies -- Copyright -- Contents -- About the contributors -- Acknowledgments -- Abbreviations -- Chapter 1: Introduction -- 1. Book contents and structure -- 2. Definitions -- Choice Awareness -- Radical technological change -- Applied and concrete economics -- Renewable energy -- Renewable energy systems -- Smart energy systems -- 3. Renewable versus sustainable -- Sustainable energy -- Political reasons for renewable energy -- Renewable energy and democracy -- Chapter 2: Choice Awareness theses -- 1. Choice and change -- Choice/no choice at the individual level -- Choice/no choice at the societal level -- Radical technological change -- 2. Choice perception and elimination -- Choice perception -- Choice-eliminating mechanisms -- The first Choice Awareness thesis -- 3. Raising Choice Awareness -- The second Choice Awareness thesis -- Chapter 3: Choice Awareness strategies -- 1. Technical alternatives -- 2. Economic feasibility studies -- 3. Public regulation -- 4. Democratic infrastructure -- 5. Research methodology -- Chapter 4: The EnergyPLAN energy system analysis model -- 1. Overall considerations -- The two major challenges of 100percent renewable energy systems and fully decarbonized societies -- Three implementation phases -- Different types of energy system analysis models -- Hourly simulation models at the national level -- 2. The EnergyPLAN model -- Purpose and application -- Energy systems analysis structure -- Validation of model -- Energy system analysis methodology -- A step-by-step approach to national energy systems analysis -- Sister models to EnergyPLAN -- 3. Reflections -- Chapter 5: Large-scale integration of renewable energy -- 1. The Danish reference energy system
505	8		\|a Electrification of transportation scenario -- 2. Excess electricity diagramsb -- 3. Optimal combinations of RESc -- 4. Flexible energy systemsd -- Flexible energy system -- Flexible energy systems including electricity for transportation -- 5. Different energy systemse -- 6. Grid stabilityf -- 7. Local energy marketsg -- 8. Integration of transportationh -- 9. Electric vehicles and V2Gj -- 10. Electricity storage optionsk -- 11. Reflections -- Principles and methodologies -- 12. Conclusions and recommendations -- Chapter 6: Smart energy systems and infrastructures -- 1. Theory and definitionsa -- Smart electricity grid -- Smart thermal grids (district heating and cooling) -- Smart gas grids -- Smart energy systems -- Smart energy systems theory and tools -- 2. The role of district heatingb -- 3. Economic crisis and infrastructure investmentsc -- 4. Zero energy buildings and smart gridsd -- 5. Future power plants and smart energy systemse -- 6. Renewable energy transportation fuel pathwaysf -- Direct electrification -- Fermentation -- Bioenergy hydrogenation -- Co-electrolysis -- Comparison -- 7. Reflections -- Theory, tool and methodologies -- 8. Conclusions and recommendations -- Chapter 7: 100 percent renewable energy systems -- 1. The first approach to coherent renewable energy systemsa -- 2. The Danish Society of Engineers energy planb -- The IDA Climate Plan -- 3. The CEESA coherent 100percent renewable energy scenarioc -- Transportation fuel pathway -- Primary energy and biomass resources -- Smart energy systems and cross-sector integration -- Cost and job estimates based on concrete institutional economics -- 4. Smart energy Aalborgd -- Methodology and guidelines -- The Smart Energy Aalborg 100percent RES scenario -- 5. The potential of renewable energy systems in Chinae -- 6. Reflections -- Principles and methodologies
505	8		\|a 7. Conclusions and recommendations -- Chapter 8: Carbon neutral societies and smart energy systems -- 1. Smart energy systems in the context of a carbon neutral societya -- Overall governing guidelines -- The Smart Energy Denmark 2045 scenario -- The context of a carbon neutral society -- Cost assessment -- 2. Sustainable bioenergy in a carbon neutral societyb -- Overall governing guidelines -- Sustainable bioenergy scenario -- Bioenergy and CCUS in a carbon neutral society -- 3. Energy for transportation in a carbon neutral societyc -- The TransportPLAN tool and methodology -- A transportation decarbonization scenario -- Cost assessment -- 4. Electricity balancing and grid stabilization -- Balancing electricity demand and supply -- Voltage and frequency control -- 5. A smart energy systems approach to a carbon neutral Europed -- Recreating ''A Clean Planet for All'' scenarios in EnergyPLAN -- Smart Energy Europe scenario -- Comparing results -- 6. Reflections -- Principles and methodologies -- 7. Conclusions and recommendations -- Chapter 9: Choice Awareness cases -- 1. Case I: Nordkraft power station (1982-1983) -- The ''no alternative'' situation -- The concrete alternative proposal -- Conclusions and reflections -- 2. Case II: Aalborg heat planning (1984-1987) -- The alternatives in question -- Choice-eliminating strategies -- Conclusions and reflections -- 3. Case III: The evaluation of biogas (1990-1992) -- The applied neoclassical cost-benefit analysis -- Feasibility study based on concrete institutional economics -- Conclusions and reflections -- 4. Case IV: Nordjyllandsværket (1991-1994) -- The no alternative situation -- The alternative proposal -- Discussion of the alternative -- Conclusions and reflections -- 5. Case V: The transmission line case (1992-1996) -- Shifting arguments for the need -- Security of supply
505	8		\|a Concrete technical alternatives -- Conclusions and reflections -- 6. Case VI: European environmental impact assessment procedures (1993-1997)aa -- Implementation of the EIA principles in Denmark -- Example 1: Nordjyllandsværket -- Example 2: High-voltage transmission lines -- Example 3: Avedøreværket -- Conclusions and reflections -- 7. Case VII: The German Lausitz case (1993-1994)ab -- The alternative -- Conclusions and reflections -- 8. Case VIII: The Green Energy Plan (1996)ad -- The design of the concrete technical alternative -- Evaluation and comparisons -- Conclusions and reflections -- 9. Case IX: The Thai power station case (1999)ae -- The Hin Krut power station in Prachuap Khiri Khan -- Official economic objectives for Thailand -- The design of a concrete technical alternative -- Comparative feasibility study -- Conclusions and reflections -- 10. Case X: The economic council case (2002-2003) -- Missing capacity benefits (unfair premises) -- Balance of payment, employment, and technological innovation -- Conclusions and reflections -- 11. Case XI: The Ida Energy Plan 2030 (2006-2007) -- Conclusions and reflections -- 12. Summary -- Existing organizations initiate old technology proposals -- Objectives of radical technological change are disregarded -- Alternatives must come from someone else -- Institutional change is essential -- Applied neoclassical economics provide irrelevant information -- Concrete institutional economics provide relevant information -- Concrete alternatives raise Choice Awareness -- Concrete alternatives help identify institutional barriers -- 13. Conclusions -- Chapter 10: Conclusions and recommendations -- 1. Choice Awareness -- 2. Renewable energy systems -- References -- Index
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Datensatz im Suchindex

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contents	Intro -- Renewable Energy Systems: A Smart Energy Systems Approach to the Choice and Modeling of Fully Decarbonized Societies -- Copyright -- Contents -- About the contributors -- Acknowledgments -- Abbreviations -- Chapter 1: Introduction -- 1. Book contents and structure -- 2. Definitions -- Choice Awareness -- Radical technological change -- Applied and concrete economics -- Renewable energy -- Renewable energy systems -- Smart energy systems -- 3. Renewable versus sustainable -- Sustainable energy -- Political reasons for renewable energy -- Renewable energy and democracy -- Chapter 2: Choice Awareness theses -- 1. Choice and change -- Choice/no choice at the individual level -- Choice/no choice at the societal level -- Radical technological change -- 2. Choice perception and elimination -- Choice perception -- Choice-eliminating mechanisms -- The first Choice Awareness thesis -- 3. Raising Choice Awareness -- The second Choice Awareness thesis -- Chapter 3: Choice Awareness strategies -- 1. Technical alternatives -- 2. Economic feasibility studies -- 3. Public regulation -- 4. Democratic infrastructure -- 5. Research methodology -- Chapter 4: The EnergyPLAN energy system analysis model -- 1. Overall considerations -- The two major challenges of 100percent renewable energy systems and fully decarbonized societies -- Three implementation phases -- Different types of energy system analysis models -- Hourly simulation models at the national level -- 2. The EnergyPLAN model -- Purpose and application -- Energy systems analysis structure -- Validation of model -- Energy system analysis methodology -- A step-by-step approach to national energy systems analysis -- Sister models to EnergyPLAN -- 3. Reflections -- Chapter 5: Large-scale integration of renewable energy -- 1. The Danish reference energy system Electrification of transportation scenario -- 2. Excess electricity diagramsb -- 3. Optimal combinations of RESc -- 4. Flexible energy systemsd -- Flexible energy system -- Flexible energy systems including electricity for transportation -- 5. Different energy systemse -- 6. Grid stabilityf -- 7. Local energy marketsg -- 8. Integration of transportationh -- 9. Electric vehicles and V2Gj -- 10. Electricity storage optionsk -- 11. Reflections -- Principles and methodologies -- 12. Conclusions and recommendations -- Chapter 6: Smart energy systems and infrastructures -- 1. Theory and definitionsa -- Smart electricity grid -- Smart thermal grids (district heating and cooling) -- Smart gas grids -- Smart energy systems -- Smart energy systems theory and tools -- 2. The role of district heatingb -- 3. Economic crisis and infrastructure investmentsc -- 4. Zero energy buildings and smart gridsd -- 5. Future power plants and smart energy systemse -- 6. Renewable energy transportation fuel pathwaysf -- Direct electrification -- Fermentation -- Bioenergy hydrogenation -- Co-electrolysis -- Comparison -- 7. Reflections -- Theory, tool and methodologies -- 8. Conclusions and recommendations -- Chapter 7: 100 percent renewable energy systems -- 1. The first approach to coherent renewable energy systemsa -- 2. The Danish Society of Engineers energy planb -- The IDA Climate Plan -- 3. The CEESA coherent 100percent renewable energy scenarioc -- Transportation fuel pathway -- Primary energy and biomass resources -- Smart energy systems and cross-sector integration -- Cost and job estimates based on concrete institutional economics -- 4. Smart energy Aalborgd -- Methodology and guidelines -- The Smart Energy Aalborg 100percent RES scenario -- 5. The potential of renewable energy systems in Chinae -- 6. Reflections -- Principles and methodologies 7. Conclusions and recommendations -- Chapter 8: Carbon neutral societies and smart energy systems -- 1. Smart energy systems in the context of a carbon neutral societya -- Overall governing guidelines -- The Smart Energy Denmark 2045 scenario -- The context of a carbon neutral society -- Cost assessment -- 2. Sustainable bioenergy in a carbon neutral societyb -- Overall governing guidelines -- Sustainable bioenergy scenario -- Bioenergy and CCUS in a carbon neutral society -- 3. Energy for transportation in a carbon neutral societyc -- The TransportPLAN tool and methodology -- A transportation decarbonization scenario -- Cost assessment -- 4. Electricity balancing and grid stabilization -- Balancing electricity demand and supply -- Voltage and frequency control -- 5. A smart energy systems approach to a carbon neutral Europed -- Recreating ''A Clean Planet for All'' scenarios in EnergyPLAN -- Smart Energy Europe scenario -- Comparing results -- 6. Reflections -- Principles and methodologies -- 7. Conclusions and recommendations -- Chapter 9: Choice Awareness cases -- 1. Case I: Nordkraft power station (1982-1983) -- The ''no alternative'' situation -- The concrete alternative proposal -- Conclusions and reflections -- 2. Case II: Aalborg heat planning (1984-1987) -- The alternatives in question -- Choice-eliminating strategies -- Conclusions and reflections -- 3. Case III: The evaluation of biogas (1990-1992) -- The applied neoclassical cost-benefit analysis -- Feasibility study based on concrete institutional economics -- Conclusions and reflections -- 4. Case IV: Nordjyllandsværket (1991-1994) -- The no alternative situation -- The alternative proposal -- Discussion of the alternative -- Conclusions and reflections -- 5. Case V: The transmission line case (1992-1996) -- Shifting arguments for the need -- Security of supply Concrete technical alternatives -- Conclusions and reflections -- 6. Case VI: European environmental impact assessment procedures (1993-1997)aa -- Implementation of the EIA principles in Denmark -- Example 1: Nordjyllandsværket -- Example 2: High-voltage transmission lines -- Example 3: Avedøreværket -- Conclusions and reflections -- 7. Case VII: The German Lausitz case (1993-1994)ab -- The alternative -- Conclusions and reflections -- 8. Case VIII: The Green Energy Plan (1996)ad -- The design of the concrete technical alternative -- Evaluation and comparisons -- Conclusions and reflections -- 9. Case IX: The Thai power station case (1999)ae -- The Hin Krut power station in Prachuap Khiri Khan -- Official economic objectives for Thailand -- The design of a concrete technical alternative -- Comparative feasibility study -- Conclusions and reflections -- 10. Case X: The economic council case (2002-2003) -- Missing capacity benefits (unfair premises) -- Balance of payment, employment, and technological innovation -- Conclusions and reflections -- 11. Case XI: The Ida Energy Plan 2030 (2006-2007) -- Conclusions and reflections -- 12. Summary -- Existing organizations initiate old technology proposals -- Objectives of radical technological change are disregarded -- Alternatives must come from someone else -- Institutional change is essential -- Applied neoclassical economics provide irrelevant information -- Concrete institutional economics provide relevant information -- Concrete alternatives raise Choice Awareness -- Concrete alternatives help identify institutional barriers -- 13. Conclusions -- Chapter 10: Conclusions and recommendations -- 1. Choice Awareness -- 2. Renewable energy systems -- References -- Index
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Overall considerations -- The two major challenges of 100percent renewable energy systems and fully decarbonized societies -- Three implementation phases -- Different types of energy system analysis models -- Hourly simulation models at the national level -- 2. The EnergyPLAN model -- Purpose and application -- Energy systems analysis structure -- Validation of model -- Energy system analysis methodology -- A step-by-step approach to national energy systems analysis -- Sister models to EnergyPLAN -- 3. Reflections -- Chapter 5: Large-scale integration of renewable energy -- 1. The Danish reference energy system</subfield></datafield><datafield tag="505" ind1="8" ind2=" "><subfield code="a">Electrification of transportation scenario -- 2. Excess electricity diagramsb -- 3. Optimal combinations of RESc -- 4. Flexible energy systemsd -- Flexible energy system -- Flexible energy systems including electricity for transportation -- 5. Different energy systemse -- 6. Grid stabilityf -- 7. Local energy marketsg -- 8. Integration of transportationh -- 9. Electric vehicles and V2Gj -- 10. Electricity storage optionsk -- 11. Reflections -- Principles and methodologies -- 12. Conclusions and recommendations -- Chapter 6: Smart energy systems and infrastructures -- 1. Theory and definitionsa -- Smart electricity grid -- Smart thermal grids (district heating and cooling) -- Smart gas grids -- Smart energy systems -- Smart energy systems theory and tools -- 2. The role of district heatingb -- 3. Economic crisis and infrastructure investmentsc -- 4. Zero energy buildings and smart gridsd -- 5. Future power plants and smart energy systemse -- 6. Renewable energy transportation fuel pathwaysf -- Direct electrification -- Fermentation -- Bioenergy hydrogenation -- Co-electrolysis -- Comparison -- 7. Reflections -- Theory, tool and methodologies -- 8. Conclusions and recommendations -- Chapter 7: 100 percent renewable energy systems -- 1. 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Sustainable bioenergy in a carbon neutral societyb -- Overall governing guidelines -- Sustainable bioenergy scenario -- Bioenergy and CCUS in a carbon neutral society -- 3. Energy for transportation in a carbon neutral societyc -- The TransportPLAN tool and methodology -- A transportation decarbonization scenario -- Cost assessment -- 4. Electricity balancing and grid stabilization -- Balancing electricity demand and supply -- Voltage and frequency control -- 5. A smart energy systems approach to a carbon neutral Europed -- Recreating ''A Clean Planet for All'' scenarios in EnergyPLAN -- Smart Energy Europe scenario -- Comparing results -- 6. Reflections -- Principles and methodologies -- 7. Conclusions and recommendations -- Chapter 9: Choice Awareness cases -- 1. Case I: Nordkraft power station (1982-1983) -- The ''no alternative'' situation -- The concrete alternative proposal -- Conclusions and reflections -- 2. Case II: Aalborg heat planning (1984-1987) -- The alternatives in question -- Choice-eliminating strategies -- Conclusions and reflections -- 3. Case III: The evaluation of biogas (1990-1992) -- The applied neoclassical cost-benefit analysis -- Feasibility study based on concrete institutional economics -- Conclusions and reflections -- 4. Case IV: Nordjyllandsværket (1991-1994) -- The no alternative situation -- The alternative proposal -- Discussion of the alternative -- Conclusions and reflections -- 5. Case V: The transmission line case (1992-1996) -- Shifting arguments for the need -- Security of supply</subfield></datafield><datafield tag="505" ind1="8" ind2=" "><subfield code="a">Concrete technical alternatives -- Conclusions and reflections -- 6. 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publisher	Elsevier, AP, Academic Press
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spelling	Lund, Henrik Verfasser (DE-588)170381919 aut Renewable energy systems a smart energy systems approach to the choice and modeling of fully decarbonized societies Henrik Lund (Department of Sustainability and Planning, Aalborg University, Aalborg, Denmark) Third edition London Elsevier, AP, Academic Press [2024] 1 Online-Ressource (xviii, 380 Seiten) Illustrationen, Diagramme txt rdacontent c rdamedia cr rdacarrier Description based on publisher supplied metadata and other sources Intro -- Renewable Energy Systems: A Smart Energy Systems Approach to the Choice and Modeling of Fully Decarbonized Societies -- Copyright -- Contents -- About the contributors -- Acknowledgments -- Abbreviations -- Chapter 1: Introduction -- 1. Book contents and structure -- 2. Definitions -- Choice Awareness -- Radical technological change -- Applied and concrete economics -- Renewable energy -- Renewable energy systems -- Smart energy systems -- 3. Renewable versus sustainable -- Sustainable energy -- Political reasons for renewable energy -- Renewable energy and democracy -- Chapter 2: Choice Awareness theses -- 1. Choice and change -- Choice/no choice at the individual level -- Choice/no choice at the societal level -- Radical technological change -- 2. Choice perception and elimination -- Choice perception -- Choice-eliminating mechanisms -- The first Choice Awareness thesis -- 3. Raising Choice Awareness -- The second Choice Awareness thesis -- Chapter 3: Choice Awareness strategies -- 1. Technical alternatives -- 2. Economic feasibility studies -- 3. Public regulation -- 4. Democratic infrastructure -- 5. Research methodology -- Chapter 4: The EnergyPLAN energy system analysis model -- 1. Overall considerations -- The two major challenges of 100percent renewable energy systems and fully decarbonized societies -- Three implementation phases -- Different types of energy system analysis models -- Hourly simulation models at the national level -- 2. The EnergyPLAN model -- Purpose and application -- Energy systems analysis structure -- Validation of model -- Energy system analysis methodology -- A step-by-step approach to national energy systems analysis -- Sister models to EnergyPLAN -- 3. Reflections -- Chapter 5: Large-scale integration of renewable energy -- 1. The Danish reference energy system Electrification of transportation scenario -- 2. Excess electricity diagramsb -- 3. Optimal combinations of RESc -- 4. Flexible energy systemsd -- Flexible energy system -- Flexible energy systems including electricity for transportation -- 5. Different energy systemse -- 6. Grid stabilityf -- 7. Local energy marketsg -- 8. Integration of transportationh -- 9. Electric vehicles and V2Gj -- 10. Electricity storage optionsk -- 11. Reflections -- Principles and methodologies -- 12. Conclusions and recommendations -- Chapter 6: Smart energy systems and infrastructures -- 1. Theory and definitionsa -- Smart electricity grid -- Smart thermal grids (district heating and cooling) -- Smart gas grids -- Smart energy systems -- Smart energy systems theory and tools -- 2. The role of district heatingb -- 3. Economic crisis and infrastructure investmentsc -- 4. Zero energy buildings and smart gridsd -- 5. Future power plants and smart energy systemse -- 6. Renewable energy transportation fuel pathwaysf -- Direct electrification -- Fermentation -- Bioenergy hydrogenation -- Co-electrolysis -- Comparison -- 7. Reflections -- Theory, tool and methodologies -- 8. Conclusions and recommendations -- Chapter 7: 100 percent renewable energy systems -- 1. The first approach to coherent renewable energy systemsa -- 2. The Danish Society of Engineers energy planb -- The IDA Climate Plan -- 3. The CEESA coherent 100percent renewable energy scenarioc -- Transportation fuel pathway -- Primary energy and biomass resources -- Smart energy systems and cross-sector integration -- Cost and job estimates based on concrete institutional economics -- 4. Smart energy Aalborgd -- Methodology and guidelines -- The Smart Energy Aalborg 100percent RES scenario -- 5. The potential of renewable energy systems in Chinae -- 6. Reflections -- Principles and methodologies 7. Conclusions and recommendations -- Chapter 8: Carbon neutral societies and smart energy systems -- 1. Smart energy systems in the context of a carbon neutral societya -- Overall governing guidelines -- The Smart Energy Denmark 2045 scenario -- The context of a carbon neutral society -- Cost assessment -- 2. Sustainable bioenergy in a carbon neutral societyb -- Overall governing guidelines -- Sustainable bioenergy scenario -- Bioenergy and CCUS in a carbon neutral society -- 3. Energy for transportation in a carbon neutral societyc -- The TransportPLAN tool and methodology -- A transportation decarbonization scenario -- Cost assessment -- 4. Electricity balancing and grid stabilization -- Balancing electricity demand and supply -- Voltage and frequency control -- 5. A smart energy systems approach to a carbon neutral Europed -- Recreating ''A Clean Planet for All'' scenarios in EnergyPLAN -- Smart Energy Europe scenario -- Comparing results -- 6. Reflections -- Principles and methodologies -- 7. Conclusions and recommendations -- Chapter 9: Choice Awareness cases -- 1. Case I: Nordkraft power station (1982-1983) -- The ''no alternative'' situation -- The concrete alternative proposal -- Conclusions and reflections -- 2. Case II: Aalborg heat planning (1984-1987) -- The alternatives in question -- Choice-eliminating strategies -- Conclusions and reflections -- 3. Case III: The evaluation of biogas (1990-1992) -- The applied neoclassical cost-benefit analysis -- Feasibility study based on concrete institutional economics -- Conclusions and reflections -- 4. Case IV: Nordjyllandsværket (1991-1994) -- The no alternative situation -- The alternative proposal -- Discussion of the alternative -- Conclusions and reflections -- 5. Case V: The transmission line case (1992-1996) -- Shifting arguments for the need -- Security of supply Concrete technical alternatives -- Conclusions and reflections -- 6. Case VI: European environmental impact assessment procedures (1993-1997)aa -- Implementation of the EIA principles in Denmark -- Example 1: Nordjyllandsværket -- Example 2: High-voltage transmission lines -- Example 3: Avedøreværket -- Conclusions and reflections -- 7. Case VII: The German Lausitz case (1993-1994)ab -- The alternative -- Conclusions and reflections -- 8. Case VIII: The Green Energy Plan (1996)ad -- The design of the concrete technical alternative -- Evaluation and comparisons -- Conclusions and reflections -- 9. Case IX: The Thai power station case (1999)ae -- The Hin Krut power station in Prachuap Khiri Khan -- Official economic objectives for Thailand -- The design of a concrete technical alternative -- Comparative feasibility study -- Conclusions and reflections -- 10. Case X: The economic council case (2002-2003) -- Missing capacity benefits (unfair premises) -- Balance of payment, employment, and technological innovation -- Conclusions and reflections -- 11. Case XI: The Ida Energy Plan 2030 (2006-2007) -- Conclusions and reflections -- 12. Summary -- Existing organizations initiate old technology proposals -- Objectives of radical technological change are disregarded -- Alternatives must come from someone else -- Institutional change is essential -- Applied neoclassical economics provide irrelevant information -- Concrete institutional economics provide relevant information -- Concrete alternatives raise Choice Awareness -- Concrete alternatives help identify institutional barriers -- 13. Conclusions -- Chapter 10: Conclusions and recommendations -- 1. Choice Awareness -- 2. Renewable energy systems -- References -- Index Erneuerbare Energien (DE-588)4068598-6 gnd rswk-swf Erneuerbare Energien (DE-588)4068598-6 s DE-604 Erscheint auch als Druck-Ausgabe 9780443141379 https://doi.org/10.1016/C2022-0-02551-4 Verlag URL des Erstveröffentlichers Volltext
spellingShingle	Lund, Henrik Renewable energy systems a smart energy systems approach to the choice and modeling of fully decarbonized societies Intro -- Renewable Energy Systems: A Smart Energy Systems Approach to the Choice and Modeling of Fully Decarbonized Societies -- Copyright -- Contents -- About the contributors -- Acknowledgments -- Abbreviations -- Chapter 1: Introduction -- 1. Book contents and structure -- 2. Definitions -- Choice Awareness -- Radical technological change -- Applied and concrete economics -- Renewable energy -- Renewable energy systems -- Smart energy systems -- 3. Renewable versus sustainable -- Sustainable energy -- Political reasons for renewable energy -- Renewable energy and democracy -- Chapter 2: Choice Awareness theses -- 1. Choice and change -- Choice/no choice at the individual level -- Choice/no choice at the societal level -- Radical technological change -- 2. Choice perception and elimination -- Choice perception -- Choice-eliminating mechanisms -- The first Choice Awareness thesis -- 3. Raising Choice Awareness -- The second Choice Awareness thesis -- Chapter 3: Choice Awareness strategies -- 1. Technical alternatives -- 2. Economic feasibility studies -- 3. Public regulation -- 4. Democratic infrastructure -- 5. Research methodology -- Chapter 4: The EnergyPLAN energy system analysis model -- 1. Overall considerations -- The two major challenges of 100percent renewable energy systems and fully decarbonized societies -- Three implementation phases -- Different types of energy system analysis models -- Hourly simulation models at the national level -- 2. The EnergyPLAN model -- Purpose and application -- Energy systems analysis structure -- Validation of model -- Energy system analysis methodology -- A step-by-step approach to national energy systems analysis -- Sister models to EnergyPLAN -- 3. Reflections -- Chapter 5: Large-scale integration of renewable energy -- 1. The Danish reference energy system Electrification of transportation scenario -- 2. Excess electricity diagramsb -- 3. Optimal combinations of RESc -- 4. Flexible energy systemsd -- Flexible energy system -- Flexible energy systems including electricity for transportation -- 5. Different energy systemse -- 6. Grid stabilityf -- 7. Local energy marketsg -- 8. Integration of transportationh -- 9. Electric vehicles and V2Gj -- 10. Electricity storage optionsk -- 11. Reflections -- Principles and methodologies -- 12. Conclusions and recommendations -- Chapter 6: Smart energy systems and infrastructures -- 1. Theory and definitionsa -- Smart electricity grid -- Smart thermal grids (district heating and cooling) -- Smart gas grids -- Smart energy systems -- Smart energy systems theory and tools -- 2. The role of district heatingb -- 3. Economic crisis and infrastructure investmentsc -- 4. Zero energy buildings and smart gridsd -- 5. Future power plants and smart energy systemse -- 6. Renewable energy transportation fuel pathwaysf -- Direct electrification -- Fermentation -- Bioenergy hydrogenation -- Co-electrolysis -- Comparison -- 7. Reflections -- Theory, tool and methodologies -- 8. Conclusions and recommendations -- Chapter 7: 100 percent renewable energy systems -- 1. The first approach to coherent renewable energy systemsa -- 2. The Danish Society of Engineers energy planb -- The IDA Climate Plan -- 3. The CEESA coherent 100percent renewable energy scenarioc -- Transportation fuel pathway -- Primary energy and biomass resources -- Smart energy systems and cross-sector integration -- Cost and job estimates based on concrete institutional economics -- 4. Smart energy Aalborgd -- Methodology and guidelines -- The Smart Energy Aalborg 100percent RES scenario -- 5. The potential of renewable energy systems in Chinae -- 6. Reflections -- Principles and methodologies 7. Conclusions and recommendations -- Chapter 8: Carbon neutral societies and smart energy systems -- 1. Smart energy systems in the context of a carbon neutral societya -- Overall governing guidelines -- The Smart Energy Denmark 2045 scenario -- The context of a carbon neutral society -- Cost assessment -- 2. Sustainable bioenergy in a carbon neutral societyb -- Overall governing guidelines -- Sustainable bioenergy scenario -- Bioenergy and CCUS in a carbon neutral society -- 3. Energy for transportation in a carbon neutral societyc -- The TransportPLAN tool and methodology -- A transportation decarbonization scenario -- Cost assessment -- 4. Electricity balancing and grid stabilization -- Balancing electricity demand and supply -- Voltage and frequency control -- 5. A smart energy systems approach to a carbon neutral Europed -- Recreating ''A Clean Planet for All'' scenarios in EnergyPLAN -- Smart Energy Europe scenario -- Comparing results -- 6. Reflections -- Principles and methodologies -- 7. Conclusions and recommendations -- Chapter 9: Choice Awareness cases -- 1. Case I: Nordkraft power station (1982-1983) -- The ''no alternative'' situation -- The concrete alternative proposal -- Conclusions and reflections -- 2. Case II: Aalborg heat planning (1984-1987) -- The alternatives in question -- Choice-eliminating strategies -- Conclusions and reflections -- 3. Case III: The evaluation of biogas (1990-1992) -- The applied neoclassical cost-benefit analysis -- Feasibility study based on concrete institutional economics -- Conclusions and reflections -- 4. Case IV: Nordjyllandsværket (1991-1994) -- The no alternative situation -- The alternative proposal -- Discussion of the alternative -- Conclusions and reflections -- 5. Case V: The transmission line case (1992-1996) -- Shifting arguments for the need -- Security of supply Concrete technical alternatives -- Conclusions and reflections -- 6. Case VI: European environmental impact assessment procedures (1993-1997)aa -- Implementation of the EIA principles in Denmark -- Example 1: Nordjyllandsværket -- Example 2: High-voltage transmission lines -- Example 3: Avedøreværket -- Conclusions and reflections -- 7. Case VII: The German Lausitz case (1993-1994)ab -- The alternative -- Conclusions and reflections -- 8. Case VIII: The Green Energy Plan (1996)ad -- The design of the concrete technical alternative -- Evaluation and comparisons -- Conclusions and reflections -- 9. Case IX: The Thai power station case (1999)ae -- The Hin Krut power station in Prachuap Khiri Khan -- Official economic objectives for Thailand -- The design of a concrete technical alternative -- Comparative feasibility study -- Conclusions and reflections -- 10. Case X: The economic council case (2002-2003) -- Missing capacity benefits (unfair premises) -- Balance of payment, employment, and technological innovation -- Conclusions and reflections -- 11. Case XI: The Ida Energy Plan 2030 (2006-2007) -- Conclusions and reflections -- 12. Summary -- Existing organizations initiate old technology proposals -- Objectives of radical technological change are disregarded -- Alternatives must come from someone else -- Institutional change is essential -- Applied neoclassical economics provide irrelevant information -- Concrete institutional economics provide relevant information -- Concrete alternatives raise Choice Awareness -- Concrete alternatives help identify institutional barriers -- 13. Conclusions -- Chapter 10: Conclusions and recommendations -- 1. Choice Awareness -- 2. Renewable energy systems -- References -- Index Erneuerbare Energien (DE-588)4068598-6 gnd
subject_GND	(DE-588)4068598-6
title	Renewable energy systems a smart energy systems approach to the choice and modeling of fully decarbonized societies
title_auth	Renewable energy systems a smart energy systems approach to the choice and modeling of fully decarbonized societies
title_exact_search	Renewable energy systems a smart energy systems approach to the choice and modeling of fully decarbonized societies
title_full	Renewable energy systems a smart energy systems approach to the choice and modeling of fully decarbonized societies Henrik Lund (Department of Sustainability and Planning, Aalborg University, Aalborg, Denmark)
title_fullStr	Renewable energy systems a smart energy systems approach to the choice and modeling of fully decarbonized societies Henrik Lund (Department of Sustainability and Planning, Aalborg University, Aalborg, Denmark)
title_full_unstemmed	Renewable energy systems a smart energy systems approach to the choice and modeling of fully decarbonized societies Henrik Lund (Department of Sustainability and Planning, Aalborg University, Aalborg, Denmark)
title_short	Renewable energy systems
title_sort	renewable energy systems a smart energy systems approach to the choice and modeling of fully decarbonized societies
title_sub	a smart energy systems approach to the choice and modeling of fully decarbonized societies
topic	Erneuerbare Energien (DE-588)4068598-6 gnd
topic_facet	Erneuerbare Energien
url	https://doi.org/10.1016/C2022-0-02551-4
work_keys_str_mv	AT lundhenrik renewableenergysystemsasmartenergysystemsapproachtothechoiceandmodelingoffullydecarbonizedsocieties

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