Theory, modelling and policy
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Köp båda 2 för 1030 kr"Whole Energy System Dynamics provides a genuine means of understanding the energy system by identifying three main pillars: the theory of interacting systems, the practice of modelling the whole energy system and the policy that steers its future evolution. The book rises to the challenge of integrating the numerous parts of todays energy systems while connecting the different disciplines and thus allowing for various perspectives on the complex systems we are all part of." Andreas Koch, Group Manager Energy Planning and Geosimulation, EIFER I European Institute for Energy Research, Germany "This book comes at a time when there is an urgent need to have a complete rethink of our future energy options. It cuts through the ingrained perceptions hindering our move from fossil fuel to sustainable forms of energy. This book, which integrates theory, practical perspectives, modelling and policy aspects and links traditional engineering ways with the very latest developments, will be a beacon in our quest for a secure and sustainable energy future." Trevor Letcher, Emeritus Professor of Chemistry at the University of KwaZulu-Natal, Durban, South Africa and a Fellow of the Royal Society of Chemistry. "This book is well written, hugely interesting and an excellent format for discussing new problems, particularly for people working on energy systems and policy. It provides profound analysis and understanding of the energy systems integration from theory, practice/modelling and policy perspectives as a whole. I enjoyed reading it." Pierluigi Siano, Professor of Electrical Energy Engineering, Electrical Power Systems, University of Salerno, Italy "The book is very timely as whole system energy modelling is one of the hottest research topics at the moment. Research funding agencies in many countries have recognized the need to research and model the energy system as the whole and provided ample funding to support it. This is a relatively new area of research and there are few books available on the subject. This book therefore fills an important gap in the market by covering theory, practice and policy. It will be relevant not only for researchers but also for policy makers." Janusz Bialek, FIEEE, Director of Skoltech Center for Energy Systems, Russia
Catalina Spataru is a Lecturer in Energy Systems and Networks at UCL Energy Institute in London, UK, Course Director of MRes in Energy Demand Studies at UCL and Group Leader of Energy Space Time Group. Her expertise is in whole energy system dynamics, with great interest for regional interconnections (EU, West Africa, MENA countries, Latin America) and market integration, future energy development in emerging economies, reliability and security of future energy systems and with particular interest in the interaction of waterenergyland nexus to assess water scarcity problems in risky countries like Brazil, Jordan, Egypt. She regularly delivers presentations in academic and professional circles, public engagement events and for the media, recently visited Princeton University and MIT (USA), spoke at Cheltenham Science Festival and was interviewed by the Sunday Telegraph. Currently she teaches Smart Energy Systems for MSc EDE students at UCL, a multidisciplinary module that she proposed and developed in 2013. This multidisciplinary module provides students with an understanding of the methods, concepts and practice of whole energy systems, offering a combination of theory, modelling interactive exercises and case studies. Also she teaches Communication Skills to MRes EDS students and Metrics, Modeling and Visualisation of the Resource Nexus module for the ISR MSc sustainable resources programme. She supervises MSc, MRes and PhD students. She is the regional representative of the IEEE Women in Power (Region 8 Europe).
Part I Theory and History 1. Global Energy Systems - A Historical Perspective 2. Scales and Systems Interactions at All Scales across Multiple Energy Domains 3. Whole Energy Systems Components 4. Brief Overview of Energy Systems Models and Methodologies 5. Discrepancies in Energy System Models: Actual vs. Forecast 6. Drivers and Challenges for Energy Systems Modelling for 20th Century and of Future WES Integration 7. Worldwide Conversation about Energy Systems Integration Part II Modelling Challenges and Discussions 8. Why do Mathematical Modelling? 9. Indicators and Their Role in Models 10. Research Challenges 11. Performance of Multi-Scale Energy Systems 12. Problems/Gaps/Research Questions and Issues Part III Energy Policy, Markets and Geopolitics 13. Energy Policies - What Our Past Teaches Us 14. Measures, Practices, and Tools - Utilizing Best Practices to Reduce Air Pollution and Carbon Footprint World Wide 15. Energy Policy Simulators & Modelling Approaches 16. Energy Policy Simulators & Energy Modelling Approaches 17. Policy Instruments 18. Energy Resource Use and Geopolitics of Trade