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Introducing a framework for obtaining and maintaining renewable energy security at the local community level Local energy communities are a framework for assembling and coordinating major stakeholders, individual, corporate, and institutional, in the pursuit of long-term renewable energy and carbon-free projects in a given area. They are aimed at community benefits rather than profit, and have become an invaluable tool in the fight to reimagine the global energy grid, one community at a time. With climate change making this fight ever more urgent, integrated local energy communities (ILECs) that enhance the previous concept through a multi-carrier systems’ approach have never been a more important social force. Integrated Local Energy Communities offers a framework for designing, planning, and operating communities from end to end. Incorporating regulatory and policy issues, the mechanics of local multi-carrier energy systems, social aspects and more, it provides viable solutions to one of the most urgent energy challenges of our time. The result is an indispensable contribution to a potentially transformative process. Integrated Local Energy Communities readers will also find: Comprehensive coverage of all types of energy conversion technologies and processes Analysis of the entire value chain, from concepts to planning and operation Discussion of all key factors for integrating the ILEC energy paradigm Integrated Local Energy Communities is ideal for energy engineers, electrical engineers, mechanical engineers, engineering scientists working in consultancy and industry, as well as the libraries that serve them.
In recent years, interest for local energy production, supply and consumption has increased in academic and public debates. In particular, contemporary energy transition discourses and strategies often emphasize the search for increased local energy autonomy, a phrase which can refer to a diverse range of configurations, both in terms of the spaces and scales of the local territory considered and in terms of what is meant by energy autonomy. This book explores policies, projects and processes aimed at increased local energy autonomy, with a particular focus on their spatial, infrastructural and political dimensions. In doing so, the authors – Sabine Barles, Bruno Barroca, Guilhem Blanchard, Benoit Boutaud, Arwen Colell, Gilles Debizet, Ariane Debourdeau, Laure Dobigny, Florian Dupont, Zélia Hampikian, Sylvy Jaglin, Allan Jones, Raphael Ménard, Alain Nadaï, Angela Pohlmann, Cyril Roger-Lacan, Eric Vidalenc – improve our understanding of the always partial and controversial processes of energy relocation that articulate forms of local metabolic self-sufficiency, socio-technical decentralization and political empowerment. Comprising fifteen chapters, the book is divided into four parts: Governance and Actors; Urban Projects and Energy Systems; Energy Communities; and The Challenges of Energy Autonomy.
More than two billion people worldwide have currently no access to grid electricity or other efficient energy supply. This is one third of humanity and the majority live in rural areas. The productivity and health of these people are diminished by reliance on traditional fuels and technologies, with women and children suffering most. Energy is the key element to empower people and ensure water, food and fodder supply as well as rural development. Therefore access to energy should be treated as the fundamental right to everybody. Renewable energy has the potential to bring power, not only in the literal sense, to communities by transforming their prospects. This book offers options that meet the needs of people and communities for energy and engage them in identifying and planning their own provision. It describes updated renewable energy technologies and offers strategies and guidelines for the planning and implementation of sustainable energy supply for individuals and communities.
Energy Communities explores core potential systemic benefits and costs in engaging consumers into communities, particularly relating to energy transition. The book evaluates the conditions under which energy communities might be regarded as customer-centered, market-driven and welfare-enhancing. The book also reviews the issue of prevalence and sustainability of energy communities and whether these features are likely to change as opportunities for distributed energy grow. Sections cover the identification of welfare considerations for citizens and for society on a local and national level, and from social, economic and ecological perspectives, while also considering different community designs and evolving business models. - Defines and conceptualizes the energy community for the current generation of researchers and practitioners facing the energy transition - Explores the main benefits and challenges in forming energy communities and to what extent they are welfare-enhancing - Examines under what terms, conditions, regulations or policies energy communities can be beneficially and successfully organized and why - Reviews the combination of business models and forms of organization which are conducive to economic feasibility and the commercial success of energy communities
Energy is essential to all human activities as well as critical to social and economic development. Sustainable energy planning encompassing the concept of smart cities has a high potential to significantly contribute to climate change mitigation. For improved energy efficiency, it is essential to find low carbon solutions for the urban environment. The integration and management of energy supply with predominant exploitation of local resources is examined through the fundamental concept of exergy. This book can assist in decision making, with regard to sustainable energy design both at a national and local level.
Distributed Energy Resources in Microgrids: Integration, Challenges and Optimization unifies classically unconnected aspects of microgrids by considering them alongside economic analysis and stability testing. In addition, the book presents well-founded mathematical analyses on how to technically and economically optimize microgrids via distributed energy resource integration. Researchers and engineers in the power and energy sector will find this information useful for combined scientific and economical approaches to microgrid integration. Specific sections cover microgrid performance, including key technical elements, such as control design, stability analysis, power quality, reliability and resiliency in microgrid operation. - Addresses the challenges related to the integration of renewable energy resources - Includes examples of control algorithms adopted during integration - Presents detailed methods of optimization to enhance successful integration
Sustainable Energy Democracy and the Law offers a legal account of the concept of sustainable energy democracy. The book explains what the concept means in a legal context and how it can be translated into concrete legal instruments.
The papers presented in this volume address diverse challenges in energy systems, ranging from operational to investment planning problems, from market economics to technical and environmental considerations, from distribution grids to transmission grids and from theoretical considerations to data provision concerns and applied case studies. The International Symposium on Energy System Optimization (ISESO) was held on November 9th and 10th 2015 at the Heidelberg Institute for Theoretical Studies (HITS) and was organized by HITS, Heidelberg University and Karlsruhe Institute of Technology.
Multi-Actor Multi-Criteria Analysis (MAMCA) developed by Professor Cathy Macharis enables decision-makers within the sectors of transport, mobility and logistics to account for conflicting stakeholder interests. This book draws on 15 years of research and application during which MAMCA has been deployed to support sustainable decisions within the transport and mobility sectors.
A unique electrical engineering approach to alternative sources ofenergy Unlike other books that deal with alternative sources of energyfrom a mechanical point of view, Integration of Alternative Sourcesof Energy takes an electrical engineering perspective. Moreover,the authors examine the full spectrum of alternative and renewableenergy with the goal of developing viable methods of integratingenergy sources and storage efficiently. Readers become thoroughlyconversant with the principles, possibilities, and limits ofalternative and renewable energy. The book begins with a general introduction and then reviewsprinciples of thermodynamics. Next, the authors explore both commonand up-and-coming alternative energy sources, including hydro,wind, solar, photovoltaic, thermosolar, fuel cells, and biomass.Following that are discussions of microturbines and inductiongenerators, as well as a special chapter dedicated to energystorage systems. After setting forth the fundamentals, the authorsfocus on how to integrate the various energy sources for electricalpower production. Discussions related to system operation,maintenance, and management, as well as standards forinterconnection, are also set forth. Throughout the book, diagrams are provided to demonstrate theelectrical operation of all the systems that are presented. Inaddition, extensive use of examples helps readers better grasp howintegration of alternative energy sources can beaccomplished. The final chapter gives readers the opportunity to learn about theHOMER Micropower Optimization Model. This computer model, developedby the National Renewable Energy Laboratory (NREL), assists in thedesign of micropower systems and facilitates comparisons of powergeneration techniques. Readers can download the software from theNREL Web site. This book is a must-read for engineers, consultants, regulators,and environmentalists involved in energy production and delivery,helping them evaluate alternative energy sources and integrate theminto an efficient energy delivery system. It is also a superiortextbook for upper-level undergraduates and graduate students.