Buch, Englisch, 352 Seiten, Format (B × H): 174 mm x 246 mm
Fundamentals, Modelling and Performance Assessment
Buch, Englisch, 352 Seiten, Format (B × H): 174 mm x 246 mm
ISBN: 978-1-041-16290-2
Verlag: Taylor & Francis Ltd
Positive Energy Districts: Fundamentals, Modelling and Performance Assessment offers a comprehensive and timely exploration of the rapidly evolving concept of Positive Energy Districts (PEDs).
The book delves into the key technologies, energy systems, and urban planning strategies that underpin the development of PEDs, addressing the critical need for sustainable and energy-efficient urban environments in the face of climate change. Covering a wide range of topics, the book begins with clear definitions and the historical context of PEDs, tracing their evolution and highlighting the driving forces behind their emergence. It explores methodologies for characterizing PEDs, considering their energy balance, spatial boundaries, and interactions with the surrounding urban fabric. A significant portion of the book is dedicated to the role of cutting-edge technologies and integrated energy systems in achieving positive energy balance, including renewable energy generation, energy storage, and smart grids at the district level. Furthermore, the book presents modelling and simulation techniques for predicting the energy performance of PEDs under various operational scenarios and climate conditions and establishes KPIs for assessing the environmental, economic, and social impacts of PEDs, providing a framework for evaluating their overall sustainability. Including best practices, insightful case studies from around the world, and an analysis of the barriers and enablers that influence their successful deployment, the book explores the crucial integration of PEDs within broader urban planning strategies aimed at achieving carbon-neutral cities. Researchers, urban planners, policymakers, industry professionals, and postgraduate students will find a valuable resource for advancing knowledge, fostering interdisciplinary collaboration, and accelerating the implementation of PEDs globally, ultimately contributing to more sustainable and resilient urban environments.
Zielgruppe
Academic, Postgraduate, and Professional Reference
Autoren/Hrsg.
Weitere Infos & Material
1. Towards Positive Energy Districts: An Introductory Framework. 2. Evolution of the Concept and Definitions of Positive Energy Districts. 3. Characterising Positive Energy Districts (PEDs) through a Preliminary Review of Existing 60 Projects in Europe. 4. Machine Learning Algorithms for In-Depth Analysis of Positive Energy Districts 5. Rethinking Mapping of Stakeholders in the Extended Process Flow of Positive Energy Districts. 6. Development of PED Archetypes. 7. Technologies and Energy Systems for Positive Energy Districts. 8. Barriers, Enablers and Patterns in Positive Energy Districts: Results from Stakeholders and Interviews with Case Studies. 9. Ontologies for Modelling Positive Energy Districts. 10. Energy System Archetypes for Modelling PEDs. 11. Integrating Control in Simulation for Enabling Energy Flexibility in Buildings, Districts and Various Systems. 12. Value Proposition for PEDs and Their Economic Impacts. 13. Towards an Urban Zero-Carbon Footprint: Perspectives and Case Studies on Positive Energy Districts. 14. Environmental, Economic and Social Key Performance Indicators for Positive Energy Districts. 15. A Framework for Energy Performance Assessment and Monitoring of Positive Energy Districts. 16. Step-by-Step Evaluation Method for Multiple Benefits in PEDs. 17. An Overarching Concept for the PED Database at the EU and Global Level for Supporting the Decision-Making Processes. 18. Best Practices for Replication of PEDs. 19. PED Learnings from International Guidelines. 20. Harmonising Performance Indicators for Positive Energy Districts: Evidence from Case Study Implementation and Sustainable Development Goal Mapping. Conclusions, Research Needs and Future Directions. Appendix Glossary and Key terms




