Urban Energy Transition
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Urban Energy Transition
Renewable Strategies for Cities and Regions
Droege, Peter
Elsevier - Health Sciences Division
06/2025
706
Mole
Inglês
9780323994378
Pré-lançamento - envio 15 a 20 dias após a sua edição
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Section 1. Designing the Essential City 1.1. The Renewable Cities Revolution 1.2. Utilizing the Urban Fabric as the Solar Power Plant of the Future 1.3. Sustainable Neighborhood Design in Tropical Climates 1.4. Solar for Gaza: An Energetic Framework for Renewable Peace and Prosperity for Gaza and Its Greater Region 1.5. The 100% Renewable Energy Metropolis: Governing the Design of Cities for Renewable Energy Infrastructures 1.6. Renewable Wilhelmsburg, Hamburg, Germany: Using the International Building Exhibition to Fight Climate Change 1.7. Buildings as Renewable Power Plants: Active Houses for the Electric City 1.8. Space, Place, and Energy: Perspectives on the Energetic Design of Cities and Regions 1.9. The Electric Highway: Intelligent Infrastructures for Kinetic Cities Section 2. Systems and Technologies 2.1. Reducing Passenger Transport Energy Use in Cities: A Comparative Perspective on Private and Public Transport Energy Use in American, Canadian, Australian, European and Asian Cities 2.2. Transport and Mobility Trends in Beijing and Shanghai: Implications for Urban Passenger Transport Energy Transitions Worldwide 2.3. Urban Energy Storage and Sector Coupling 2.4. The Urban Energy Transition: Pathways to Climate Neutrality in Our Cities 2.5. Thermal City: Comprehensive Guide to the Heating and Cooling of Urban Areas 2.6. Implementing the Heating Sector Transition in Our Cities - Challenges and Problem-Solving Approaches Based on the Example of Municipalities in Germany 2.7. Renewable Malls: Transforming Shopping Centres Into Flexible, Decarbonized Urban Energy Assets 2.8. Photovoltaic City: Effective Approaches to Integrated Urban Solar Power 2.9. Wiring the Southeast Asian City: Lessons From Urban Solar Applications in the Philippines 2.10. Conceptualizing the Urban Nexus Framework for a Circular Economy: Linking Energy, Water, Food, and Waste (EWFW) in Southeast-Asian cities Section 3. Investment, Finance, Tariffs and Value 3.1. The Untouched Market: Distributed Renewable Energy in Multitenanted Buildings and Communities 3.2. Canberra-Renewable Energy Leader 3.3. An Integrative Business Model for Net-Zero Energy Districts 3.4. Value-Added and Employment Effects of Renewable Energies and the Energy-Efficiency Refurbishment of Existing Housing-Case Study: Berlin, Germany 3.5. Multiple Benefits of Smart Urban Energy Transition 3.6. Renewable Energy: Stabilising Money and Society Section 4. Governance, Community and Planning 4.1. Smart Guidance: Governing the Urban Energy Transition 4.2. Reaching 100% Renewable Energy: Lessons-Learned from Aspen, Colorado 4.3. Sustainable Energy Transitions in Sub-Saharan African Cities: The Role of Local Government 4.4. Sustainable Energy Transitions in South African Cities: Reflections on Enablers of Change Over the Past Two Decades 4.5. Building Regenerative Regions Rapidly: The STAR Energy Model as Regional Planning Tool 4.6. Urban Energy Masterplanning-Approaches, Strategies, and Methods for the Energy Transition in Cities 4.7. Modeling and Mapping Domestic Energy Refurbishment Measures on a Community Scale
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<p>Energy Transition; transformation; science; innovation; practice; global; urban system; fossil fuel; nuclear power; renewable energy; infrastructure; sustainable urban development</p>
Section 1. Designing the Essential City 1.1. The Renewable Cities Revolution 1.2. Utilizing the Urban Fabric as the Solar Power Plant of the Future 1.3. Sustainable Neighborhood Design in Tropical Climates 1.4. Solar for Gaza: An Energetic Framework for Renewable Peace and Prosperity for Gaza and Its Greater Region 1.5. The 100% Renewable Energy Metropolis: Governing the Design of Cities for Renewable Energy Infrastructures 1.6. Renewable Wilhelmsburg, Hamburg, Germany: Using the International Building Exhibition to Fight Climate Change 1.7. Buildings as Renewable Power Plants: Active Houses for the Electric City 1.8. Space, Place, and Energy: Perspectives on the Energetic Design of Cities and Regions 1.9. The Electric Highway: Intelligent Infrastructures for Kinetic Cities Section 2. Systems and Technologies 2.1. Reducing Passenger Transport Energy Use in Cities: A Comparative Perspective on Private and Public Transport Energy Use in American, Canadian, Australian, European and Asian Cities 2.2. Transport and Mobility Trends in Beijing and Shanghai: Implications for Urban Passenger Transport Energy Transitions Worldwide 2.3. Urban Energy Storage and Sector Coupling 2.4. The Urban Energy Transition: Pathways to Climate Neutrality in Our Cities 2.5. Thermal City: Comprehensive Guide to the Heating and Cooling of Urban Areas 2.6. Implementing the Heating Sector Transition in Our Cities - Challenges and Problem-Solving Approaches Based on the Example of Municipalities in Germany 2.7. Renewable Malls: Transforming Shopping Centres Into Flexible, Decarbonized Urban Energy Assets 2.8. Photovoltaic City: Effective Approaches to Integrated Urban Solar Power 2.9. Wiring the Southeast Asian City: Lessons From Urban Solar Applications in the Philippines 2.10. Conceptualizing the Urban Nexus Framework for a Circular Economy: Linking Energy, Water, Food, and Waste (EWFW) in Southeast-Asian cities Section 3. Investment, Finance, Tariffs and Value 3.1. The Untouched Market: Distributed Renewable Energy in Multitenanted Buildings and Communities 3.2. Canberra-Renewable Energy Leader 3.3. An Integrative Business Model for Net-Zero Energy Districts 3.4. Value-Added and Employment Effects of Renewable Energies and the Energy-Efficiency Refurbishment of Existing Housing-Case Study: Berlin, Germany 3.5. Multiple Benefits of Smart Urban Energy Transition 3.6. Renewable Energy: Stabilising Money and Society Section 4. Governance, Community and Planning 4.1. Smart Guidance: Governing the Urban Energy Transition 4.2. Reaching 100% Renewable Energy: Lessons-Learned from Aspen, Colorado 4.3. Sustainable Energy Transitions in Sub-Saharan African Cities: The Role of Local Government 4.4. Sustainable Energy Transitions in South African Cities: Reflections on Enablers of Change Over the Past Two Decades 4.5. Building Regenerative Regions Rapidly: The STAR Energy Model as Regional Planning Tool 4.6. Urban Energy Masterplanning-Approaches, Strategies, and Methods for the Energy Transition in Cities 4.7. Modeling and Mapping Domestic Energy Refurbishment Measures on a Community Scale
Este título pertence ao(s) assunto(s) indicados(s). Para ver outros títulos clique no assunto desejado.