Kooperativer Bibliotheksverbund

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Format: 1 online resource (400 pages)

Edition: Third edition.

ISBN: 0-443-14136-3

Note: 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.

Additional Edition: Print version: Lund, Henrik Renewable Energy Systems San Diego : Elsevier Science & Technology,c2024 ISBN 9780443141379

Language: English