Generation distributed from static bicycles and hybrid systems
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Published:
2013-12-30
Keywords:
Distributed power generation, micro grid, alternative energy, energy management, smart grid, smart metering, renewable energies.
Main Article Content
Abstract
This article refers to the different ways of generating electricity in distributed generation systems; it has generating micro-grids which need electricity management systems. Distributed generation has become the best alternative to reduce energy consumption in buildings and also to generate additional income. The importance of generating electricity from their own buildings has made the human being will develop various devices to take advantage of different and varied energies, the most common are solar and wind energy. The use of movement of static machine to exercise is a new source for generating electricity, it was underutilized and it is therefore necessary to carry out a study to check how it is their behavior in a micro grid and energy management system. At the end, a study will give a starting point for future research in relation to distributed generation using static machines for exercises.
Article Details
Section
Scientific Paper
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T. Gibson, “Turning sweat into watts,” Spectrum,IEEE, vol. 48, no. 7, pp. 50–55, 2011.
S. Cherry, “How to build a green city,” Spectrum, IEEE, vol. 44, no. 6, pp. 26–29, 2007.
P. Zhao, S. Suryanarayanan, and M. Simoes, “An energy management system for building structures using a multi-agent decision-making control methodology,” in Industry Applications Society Annual Meeting (IAS), 2010 IEEE, 2010, pp. 1–8.
J. Wilson, La Energía Solar. Alhambra S.A.,1982.
A. Davda and B. Parekh, “System impact analysis of renewable distributed generation on an existing radial distribution network,” in IEEE Electr.Power Energy Conf., october 2012, pp. 128–132.
E. M. Inga, “Redes de comunicación en smart grid,” Ingenius, no. 7, pp. 36–55, 2012.
E. Inga and J. Rodríguez, “Estretegias de negocio para medición inteligente acoplando energías renovables,”in Prim. Congr. Int. y Expo Científica:Investigación Sostenible: Energías Renovables y Eficiencia Energética, 2013, pp. 281–291.
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A. Osorio, “Generador eléctrico accionado por fuerza humana: una nueva alternativa de generación de energ?a,” ContactoS, vol. 65, pp. 13–15, 2007.
G. Byeon, T. Yoon, S. Oh, and G. Jang, “Energy management strategy of the dc distribution system in buildings using the ev service model,”Power Electronics, IEEE Transactions on, vol. 28, no. 4, pp. 1544–1554, 2013.
A. Vidal, “Telemedicina, una propuesta integradora,”Bioingeniería y física médica cubana, vol. 4, no. 1, 2003.
H. Zhou, T. Bhattacharya, D. Tran, T. Siew, and A. Khambadkone, “Composite energy storage system involving battery and ultracapacitor with dynamic energy management in microgrid applications,”Power Electronics,IEEE Transactions on, vol. 26, no. 3, pp. 923–930, 2011.
P. Zervas, H. Sarimveis, J. Palyvos, and N. Markatos, “Model-based optimal control of a hybrid power generation system consisting of photovoltaic arrays and fuel cells,” Journal of Power Sources, vol. 181, no. 2, pp. 327 – 338,2008.
G. N. Kulkarni, S. B. Kedare, and S. Bandyopadhyay,“Determination of design space and optimization of solar water heating systems,” Solar Energy, vol. 81, no. 8, pp. 958 – 968, 2007.
D. Carrión, “Energy saving model through lighting management systems for residences,” in Power Electronics and Power Quality Applications (PEPQA), 2013 Workshop on, 2013, pp. 1–6.
O. Zavalani, “Reducing energy in buildings by using energy management systems and alternative energy-saving systems,” in Energy Market (EEM), 2011 8th International Conference on the European, 2011, pp. 370–375.
D. Arcos, F. Guinjoan, J. Barricarte, L. Marroyo,P. Sanchis, and H. Valderrama, “Controlador borroso para la gestión de baterías de una microrred conectada a la red eléctrica,” in SAAEI 2012 - Semin. Anu. AUtomática, Electrónica Ind. e Instrumentación, vol. 19, 2012, pp. 344–349.