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Control strategies and configurations of hybrid distributed generation systems

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  • Carmeli, Maria Stefania
  • Castelli-Dezza, Francesco
  • Mauri, Marco
  • Marchegiani, Gabriele
  • Rosati, Daniele

Abstract

Nowadays the use of distributed generating systems, which use a renewable energy source, has experienced a fast development. Moreover their intrinsic intermittent nature can be overcome using hybrid systems which combine more energy sources. This paper discusses the main topologies which can be adopted for a general hybrid generation system and it focuses on a particular hybrid system which combines two different energy sources, evidencing high level and local level power flow control strategies in both stand-alone and grid connected operation. A full experience in the realization of a hybrid plant which uses an internal combustion engine with cogeneration functionalities and solar source, installed in Delebio, Italy is then presented. System design aspects, with particular attention to the possible topologies and power flow control strategies, are analyzed. After the analysis of the design aspects, experimental results of the real plant are reported.

Suggested Citation

  • Carmeli, Maria Stefania & Castelli-Dezza, Francesco & Mauri, Marco & Marchegiani, Gabriele & Rosati, Daniele, 2012. "Control strategies and configurations of hybrid distributed generation systems," Renewable Energy, Elsevier, vol. 41(C), pages 294-305.
    • Handle: RePEc:eee:renene:v:41:y:2012:i:c:p:294-305
    DOI: 10.1016/j.renene.2011.11.010
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    2. Barote, L. & Marinescu, C., 2014. "Software method for harmonic content evaluation of grid connected converters from distributed power generation systems," Energy, Elsevier, vol. 66(C), pages 401-412.
    3. El Halabi, N. & García-Gracia, M. & Comech, M.P. & Oyarbide, E., 2012. "Distributed generation network design considering ground capacitive couplings," Renewable Energy, Elsevier, vol. 45(C), pages 119-127.
    4. Basrawi, Firdaus & Yamada, Takanobu & Obara, Shin’ya, 2014. "Economic and environmental based operation strategies of a hybrid photovoltaic–microgas turbine trigeneration system," Applied Energy, Elsevier, vol. 121(C), pages 174-183.
    5. Jung, Jaesung & Onen, Ahmet & Arghandeh, Reza & Broadwater, Robert P., 2014. "Coordinated control of automated devices and photovoltaic generators for voltage rise mitigation in power distribution circuits," Renewable Energy, Elsevier, vol. 66(C), pages 532-540.
    6. Hsu, Po-Chien & Huang, Bin-Juine & Lin, Wei-Chiuan & Chang, Yu-Jen & Chang, Cheng-Jui & Li, Kang & Lee, Kung-Yen, 2016. "Effect of switching scheme on the performance of a hybrid solar PV system," Renewable Energy, Elsevier, vol. 96(PA), pages 520-530.
    7. Karabiber, Abdulkerim & Keles, Cemal & Kaygusuz, Asim & Alagoz, B. Baykant, 2013. "An approach for the integration of renewable distributed generation in hybrid DC/AC microgrids," Renewable Energy, Elsevier, vol. 52(C), pages 251-259.
    8. César Hernández-Hernández & Francisco Rodríguez & José Carlos Moreno & Paulo Renato Da Costa Mendes & Julio Elias Normey-Rico & José Luis Guzmán, 2017. "The Comparison Study of Short-Term Prediction Methods to Enhance the Model Predictive Controller Applied to Microgrid Energy Management," Energies, MDPI, vol. 10(7), pages 1-24, June.
    9. Valdés, R. & Lucio, J.H. & Rodríguez, L.R., 2013. "Operational simulation of wind power plants for electrolytic hydrogen production connected to a distributed electricity generation grid," Renewable Energy, Elsevier, vol. 53(C), pages 249-257.
    10. Shivarama Krishna, K. & Sathish Kumar, K., 2015. "A review on hybrid renewable energy systems," Renewable and Sustainable Energy Reviews, Elsevier, vol. 52(C), pages 907-916.

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