Abstract
Electricity is an efficient energy vector that carries over long distances and has minimal impact at the place of end use. However, in order to accommodate the many localized and discontinuous production sources characterizing distributed generation, it will be increasingly necessary to adopt active and intelligent solutions in the electricity supply system. This is the notion that stands at the base of the development of smart grids, which will be briefly described.
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- 1.
IEA—BLUE Map Scenario.
- 2.
In 2007 the Energy Intensity (TPES/GDP) in the world was 0.30 toe per thousand USD 2000—ETP 2010, IEA.
- 3.
In 2007 the ElectricityIntensity (Electricity Consumption/GDP in kWh/USD 2000) is 0.36 for US and 0.46 in the world—ETP 2010, IEA.
- 4.
The European Commission (2006) estimates that the EU can save up to 20% of its energy consumption over the period 2007–2020 and reduce GHG emissions by 20%.
References
Peet J (2004) Economic systems and energy conceptual overview. Elsevier, Amsterdam
Marchionna M (2006) Dalle fonti al mercato: vettori energetici. Enciclopedia degli idrocarburi, vol III, Cap IV edn. ENI-TRECCANI
Orecchini F (2006) The era of energy vectors. Int J Hydrogen Energy 31(14):1951–1954
Brundtland GH (1987) Our Common Future, Report of the World Commission on Environment and Development to UNEP’s 14th Governing Council Session
Naso V (2010) Closed cycles of resources and their application to Energy Systems. In: 2nd International conference on sustainability science, Rome, Italy, 2010
Key world energy statistics 2010 (2010) http://www.iea.org
Intergovernmental Panel on Climate Change (IPCC) (2007) Fourth Assessment Report: Climate Change 2007
International Energy Agency (IEA) (2008) Empowering variable renewable, Options for flexible electricity systems
International Energy Agency (IEA) (2011) Technology Roadmap, Smart Grids
http://en.wikipedia.org/wiki/File:ElectricityElectricity_GridGrid_Schematic_English.svg
Cossent R, Gómez T, Frías P (2009) Towards a future with large penetration of distributed generation: is the current regulation of electricity distribution ready? Regul Recommendations European Perspect Energy Policy 37(3):1145–1155
European Commission (2003) New ERA for electricity in Europe
Alanne K, Saari A (2006) Distributed energy generation and sustainable development. Renew Sustainable Energy Rev 10(6):539–558
Wasiak I, Hanzelka Z (2009) Integration of distributed energy sources with electrical power grid. Bull Pol Acad Sci: Tech Sci 57(4):297–309
International Energy Agency (IEA) (2010) Energy Technology Perspective 2010
JRC—European Commission Communication (2011) Smart Grids: from innovation to deployment
ABB (2009) ABB’s Vision for the Power System of the Future
Vélo Tout Terrain (VTT) (2010) Energy Visions 2050. Finland
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Gaeta, M. (2012). Electricity and the Grid . In: Fuel Cells in the Waste-to-Energy Chain. Green Energy and Technology. Springer, London. https://doi.org/10.1007/978-1-4471-2369-9_11
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DOI: https://doi.org/10.1007/978-1-4471-2369-9_11
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