Advanced smart grids for distribution system operators /

The dynamic of the Energy Transition is engaged in many region of the World. This is a real challenge for electric systems and a paradigm shift for existing distribution networks. With the help of "advanced" smart technologies, the Distribution System Operators will have a central role to...

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Detalles Bibliográficos
Clasificación:Libro Electrónico
Autor principal: Boillot, Marc (Autor)
Formato: Electrónico eBook
Idioma:Inglés
Publicado: London : Hoboken, NJ : ISTE ; John Wiley and Sons, Inc., 2014.
Colección:Advanced smart grids set ; v. 1.
Temas:
Smart power grids.
Electric power distribution.
Réseaux électriques intelligents.
TECHNOLOGY & ENGINEERING > Mechanical.
Electric power distribution
Smart power grids
dissertations.
Academic theses
Academic theses.
Thèses et écrits académiques.
Acceso en línea:Texto completo
Tabla de Contenidos:
  • Cover; Title Page; Copyright; Contents; Foreword; Preface; Acknowledgments; List of Figures; List of Acronyms; Welcome to "Advanced Smart Grids"; 1: Distribution System Operators in a Changing Environment; 1.1. Energy policies promoting the energy transition; 1.2. A new era of technological revolution; 2: The Existing Distribution Networks: Design and Operation; 2.1. Above all, smart grids remain grids!; 2.2. The DSO, a player at the heart of the power system; 2.3. A necessary mastery of technical and regulatory constraints; 2.4. Generalities of network design; 2.4.1. Energy transformers
  • 2.4.2. Wiring and architectures2.4.3. Safeguard devices; 2.4.4. Sensors, digital equipment and software; 2.4.5. The importance of telecommunication for operating the distribution networks; 2.5. The factors that differentiate network architecture; 2.5.1. Voltage levels; 2.5.1.1. The amount of voltage levels; 2.5.1.2. The value of the voltage levels; 2.5.2. The neutral point treatment in MV networks; 2.5.3. The balance between automation, redundancy and reliability; 2.5.4. The density and layout of the serviced area; 2.5.5. The variation in building design; 2.6. Network safety and planning
  • 2.6.1. Development of distribution networks2.6.2. Operating distribution networks; 2.6.3. Studies in operational safety; 2.6.4. Monte Carlo method; 2.6.5. Some results from applying the Monte Carlo method; 2.7. Progressive modernization of a distribution network
  • the French example; 2.7.1. Standardization (1950-1965) and expansion of the network (1965-1985); 2.7.2. Achieving a minimal quality level for every customer; 2.7.3. Targeted improvement of quality according to needs; 2.7.4. Progressive desensitization of networks toward climate hazards
  • 3: Main Drivers and Functions of Advanced Smart Grids3.1. Drivers of the evolution of distribution grids; 3.1.1. Massive integration of renewable energy sources; 3.1.2. Contribution to the development of electric vehicle and the charging infrastructures; 3.1.3. Implementation of new market mechanisms (peak shaving, capacity market, etc.); 3.1.4. Participation in the development of new uses contributing to energy efficiency; 3.1.5. Urban renewal and the rise of the smart city in favor of resource optimization; 3.1.6. Integration of energy storage solutions
  • 3.2. Main functions of the advanced smart grid3.2.1. Toward dynamic network management by the distribution system operators; 3.2.2. Structuring the target model based on key functions; 3.2.3. Enhancing efficiency in day-to-day grid operation; 3.2.3.1. Advanced function: supervision of medium- and low- voltage networks; 3.2.3.1.1. MV supervision; 3.2.3.1.2. LV supervision; 3.2.3.2. Advanced function: dynamic management of disruptions; 3.2.4. Ensuring network security, system control and quality of supply; 3.2.4.1. Advanced function: operational planning and scheduling

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