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Design and analysis of hybrid energy systems: The Brazilian Antarctic Station case

Author

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  • de Christo, Tiago Malavazi
  • Fardin, Jussara Farias
  • Simonetti, Domingos Sávio Lyrio
  • Encarnação, Lucas Frizera
  • de Alvarez, Cristina Engel

Abstract

This paper presents the design and analysis of a hybrid energy system for an Antarctic Station. The research considered the constraints of the extreme climate, the logistics limitations and the technical assets of the Brazilian Antarctic Station. The thermal and electrical annual profiles of the Station, the spreadsheets of the organic solid waste, and the local measured data of wind and sun were investigated. The application of anaerobic digestion, combined heat and power generation, use of photovoltaic panels and wind turbines were analysed. In the renewables analyses, 25 years of local climatic data were assessed. The influences of air density, temperature and ground reflectance on the renewable generation were also investigated. In order to assess potentials hybrid energy systems for the Brazilian Antarctic Station, possible topologies were organized in groups and then analysed by consumption, performance and feasibility. The methodology supported the identification of an efficient and feasible energy system for the Brazilian Station. The proposed system reached 37% of fuel saves considering the original demand profile of the Station. This work adopted the liter of oil as a currency, thus in any future time the results can be used for financial studies.

Suggested Citation

  • de Christo, Tiago Malavazi & Fardin, Jussara Farias & Simonetti, Domingos Sávio Lyrio & Encarnação, Lucas Frizera & de Alvarez, Cristina Engel, 2016. "Design and analysis of hybrid energy systems: The Brazilian Antarctic Station case," Renewable Energy, Elsevier, vol. 88(C), pages 236-246.
    • Handle: RePEc:eee:renene:v:88:y:2016:i:c:p:236-246
    DOI: 10.1016/j.renene.2015.11.014
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    References listed on IDEAS

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    1. Boccaletti, Chiara & Di Felice, Pietro & Santini, Ezio, 2014. "Integration of renewable power systems in an Antarctic Research Station," Renewable Energy, Elsevier, vol. 62(C), pages 582-591.
    2. Teetz, H.W. & Harms, T.M. & von Backström, T.W., 2003. "Assessment of the wind power potential at SANAE IV base, Antarctica: a technical and economic feasibility study," Renewable Energy, Elsevier, vol. 28(13), pages 2037-2061.
    3. Tin, Tina & Sovacool, Benjamin K. & Blake, David & Magill, Peter & El Naggar, Saad & Lidstrom, Sven & Ishizawa, Kenji & Berte, Johan, 2010. "Energy efficiency and renewable energy under extreme conditions: Case studies from Antarctica," Renewable Energy, Elsevier, vol. 35(8), pages 1715-1723.
    4. Hessami, Mir-Akbar & Christensen, Sky & Gani, Robert, 1996. "Anaerobic digestion of household organic waste to produce biogas," Renewable Energy, Elsevier, vol. 9(1), pages 954-957.
    5. Olivier, Jürgen R. & Harms, Thomas M. & Esterhuyse, Daniël J., 2008. "Technical and economic evaluation of the utilization of solar energy at South Africa's SANAE IV base in Antarctica," Renewable Energy, Elsevier, vol. 33(5), pages 1073-1084.
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    Cited by:

    1. de Christo, Tiago Malavazi & Perron, Sylvain & Fardin, Jussara Farias & Simonetti, Domingos Sávio Lyrio & de Alvarez, Cristina Engel, 2019. "Demand-side energy management by cooperative combination of plans: A multi-objective method applicable to isolated communities," Applied Energy, Elsevier, vol. 240(C), pages 453-472.
    2. Rasidnie Razin Wong & Zheng Syuen Lim & Noor Azmi Shaharuddin & Azham Zulkharnain & Claudio Gomez-Fuentes & Siti Aqlima Ahmad, 2021. "Diesel in Antarctica and a Bibliometric Study on Its Indigenous Microorganisms as Remediation Agent," IJERPH, MDPI, vol. 18(4), pages 1-18, February.
    3. Diemuodeke, E.O. & Addo, A. & Oko, C.O.C. & Mulugetta, Y. & Ojapah, M.M., 2019. "Optimal mapping of hybrid renewable energy systems for locations using multi-criteria decision-making algorithm," Renewable Energy, Elsevier, vol. 134(C), pages 461-477.

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