Eco-friendly Innovation in Electricity Transmission and Distribution Networks
Bessede, Jean-Luc
Electricity transmission and distribution (T&D) networks carry electricity from generation sites to demand sites. With the increasing penetration of decentralised and renewable energy systems, in particular variable power sources such as wind turbines, and the rise in demand-side technologies, the importance of innovative products has never been greater. Eco-design approaches and standards in this field are aimed at improving the performance as well as the overall sustainability of T&D network equipment. This multidisciplinary reference provides coverage of developments and lessons-learned in the fields of eco-design of innovation from product-specific issues to system approaches, including case studies featuring problem-solving methodologies applicable to electricity transmission and distribution networks. Discusses key environmental issues and methodologies for eco-design, and applies this to development of equipment for electricity transmission and distribution.Provides analysis of using and assessing advanced equipment for wind energy systems.Includes reviews of the energy infrastructure for demand-side management in the US and Scandinavia. INDICE: Introduction Part I Eco-design and innovation in electricity transmission and distribution networks 1 The implications of climate change and energy security for global electricity supply: the energy (r)evolution F. Maltini, FM Consultants Associates, France 2 Key performance indicators in assessing new technology for electricity transmission and distribution networks F. Delfino, S. Bracco and F. Pampararo, University of Genoa, Italy 3 Improving standards in eco-design of equipment for electricity transmission and distribution networks: the case of the EU C. Jagu, Gimélec, France 4 Approaches for multi-objective optimisation in the eco-design of electric systems S. Brisset and F. Gillon, Ecole Centrale de Lille, France 5 Strategic environmental assessment (SEA) of power plants and electricity transmission and distribution networks R. C. Furtado, Diversa Consultancy on Sustainability, Brazil Part II Application and assessment of advanced equipment for electricity transmission and distribution networks 6 Life cycle assessment of equipment for electricity transmission and distribution networks W. Wang, Ecole Centrale de Lyon, France and J.-L. Bessède, Schneider Electric, France 7 Superconducting DC cables to improve the efficiency of electricity transmission and distribution networks: an overview C. E. Bruzek, A. Allais, D. Dickson and N. Lallouet, Nexans, France and K. Allweins and E. Marzahn, Nexans, Germany 8 Improving energy efficiency in railway powertrains S. Brisset and F. Gillon, Ecole Centrale de Lille, France 9 Reducing the environmental impact of power transmission lines A. Battaglini and S. Bätjer, Renewables-Grid-Initiative, Germany 10 Eco-design of equipment for electricity distribution networks M. Hassanzadeh, Schneider Electric, France and R. Metz, Université Claude Bernard, France Part III Application and assessment of advanced wind energy systems 11 Condition monitoring and fault diagnosis to improve the reliability of wind energy systems F. P. García Márquez, Universidad Castilla-La Mancha 12 Development of permanent magnet generators to integrate wind turbines into electricity transmission and distribution networks S. Mouty and C. Espanet, University of Franche-Comte, France 13 Advanced AC and DC technologies to connect offshore wind farms into electricity transmission and distribution networks J. Liang and C.M. Feng, Cardiff University, UK 14 DC grid architectures to improve the integration of wind farms into electricity transmission and distribution networks B. Robyns, Ecole des Hautes Etudes d'Ingénieur (HEI), France and P. Monjean, EDF CIST, France Part IV Smart grid and demand-side management for electricity transmission and distribution networks 15 Improved energy demand management in buildings for smart grids: the US experience S. Kiliccote, M. A. Piette and G. Ghatikar , Lawrence Berkeley National Laboratory, USA 16 Smart meters for improved energy demand management: the Nordic experience R. Bago and M. Campos, Schneider Electric, Spain 17 Managing charging of electric vehicles in electricity transmission and distribution networks F. A. Amoroso, University of Calabria, Italy 18 The Serhatköy Photovoltaic Power plant and the future of Renewable Energy on the Turkish Republic of Northern Cyprus: Integrating solar photovoltaic and wind farms into electricity transmission and distribution networks F. Maltini, FM Consultants Associates, France and R. Minder, Minder Energy Consulting, Switzerland
- ISBN: 978-1-78242-010-1
- Editorial: Woodhead Publishing
- Encuadernacion: Cartoné
- Páginas: 452
- Fecha Publicación: 19/12/2014
- Nº Volúmenes: 1
- Idioma: Inglés