Dataset after seven years simulating hybrid energy systems with Homer Legacy

Homer Legacy software is a well-known software for simulation of small hybrid systems that can be used for both design and research. This dataset is a set of files generated by Homer Legacy bringing the simulation results of hybrid energy systems over the last seven years, as a consequence of the re...

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Autores:: Beluco, Alexandre
During F, Frederico A.
Silva, Lúcia M. R.
Silva, Jones S.
Teixeira, Lúis E.
Vasco, Gabriel
Canales, Fausto
Gimenez Rossini, Elton
de Souza, José
Daronco, Giuliano C.
Risso, Alfonso

Tipo de recurso:: Article of journal

Fecha de publicación:: 2020

Institución:: Corporación Universidad de la Costa

Repositorio:: REDICUC - Repositorio CUC

Idioma:: eng

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network_acronym_str	RCUC2
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repository_id_str
dc.title.spa.fl_str_mv	Dataset after seven years simulating hybrid energy systems with Homer Legacy
title	Dataset after seven years simulating hybrid energy systems with Homer Legacy
spellingShingle	Dataset after seven years simulating hybrid energy systems with Homer Legacy Hybrid energy systems Feasibility studies Homer Legacy software Hydro PV hybrid systems Energetic complementarity Hydro power plants with reservoir Pumped hydro storage PV modules on floating structures PV modules on floating structures
title_short	Dataset after seven years simulating hybrid energy systems with Homer Legacy
title_full	Dataset after seven years simulating hybrid energy systems with Homer Legacy
title_fullStr	Dataset after seven years simulating hybrid energy systems with Homer Legacy
title_full_unstemmed	Dataset after seven years simulating hybrid energy systems with Homer Legacy
title_sort	Dataset after seven years simulating hybrid energy systems with Homer Legacy
dc.creator.fl_str_mv	Beluco, Alexandre During F, Frederico A. Silva, Lúcia M. R. Silva, Jones S. Teixeira, Lúis E. Vasco, Gabriel Canales, Fausto Gimenez Rossini, Elton de Souza, José Daronco, Giuliano C. Risso, Alfonso
dc.contributor.author.spa.fl_str_mv	Beluco, Alexandre During F, Frederico A. Silva, Lúcia M. R. Silva, Jones S. Teixeira, Lúis E. Vasco, Gabriel Canales, Fausto Gimenez Rossini, Elton de Souza, José Daronco, Giuliano C. Risso, Alfonso
dc.subject.spa.fl_str_mv	Hybrid energy systems Feasibility studies Homer Legacy software Hydro PV hybrid systems Energetic complementarity Hydro power plants with reservoir Pumped hydro storage PV modules on floating structures PV modules on floating structures
topic	Hybrid energy systems Feasibility studies Homer Legacy software Hydro PV hybrid systems Energetic complementarity Hydro power plants with reservoir Pumped hydro storage PV modules on floating structures PV modules on floating structures
description	Homer Legacy software is a well-known software for simulation of small hybrid systems that can be used for both design and research. This dataset is a set of files generated by Homer Legacy bringing the simulation results of hybrid energy systems over the last seven years, as a consequence of the research work led by Dr. Alexandre Beluco, Federal University of Rio Grande do Sul, in southern Brazil. The data correspond to twelve papers published in the last seven years. Two of them describe hydro PV hybrid systems with photovoltaic panels operating on the water surface of reservoirs. One of these twelve papers suggests the modeling of hydropower plants with reservoirs and the other the modeling of pumped hydro storage, and a third still uses these models in a place that could receive both the two types of hydroelectric power plant. The other simulated hybrid systems include wind turbines, diesel generators, batteries, among other components. This data article describes the files that integrate this dataset and the papers that have been published presenting the hybrid systems under study and discussing the results. The files that make up this dataset are available on Mendeley Data repository at https://doi.org/10.17632/ybxsttf2by.2.
publishDate	2020
dc.date.accessioned.none.fl_str_mv	2020-07-22T16:16:03Z
dc.date.available.none.fl_str_mv	2020-07-22T16:16:03Z
dc.date.issued.none.fl_str_mv	2020
dc.type.spa.fl_str_mv	Artículo de revista
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dc.identifier.issn.spa.fl_str_mv	1683-1470
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dc.identifier.doi.spa.fl_str_mv	DOI: https://doi.org/10.5334/dsj-2020-014
dc.identifier.instname.spa.fl_str_mv	Corporación Universidad de la Costa
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dc.language.iso.none.fl_str_mv	eng
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dc.relation.references.spa.fl_str_mv	Beluco, A, Colvara, CP, Teixeira, LE and Beluco, A. 2013. Feasibility study for power generation during peak hours with a hybrid system in a recycled paper mill. Computational Water, Energy and Environmental Engineering, 2(2): 43–53. DOI: https://doi.org/10.4236/cweee.2013.22005 Beluco, A, During Fo, FA, Silva, LMR, Silva, JS, Teixeira, LE, Vasco, G, Canales, FA, Rossini, EG, Souza, J, Daronco, GC and Risso, A. 2019. Seven years simulating hybrid energy systems with Homer Legacy. Mendeley Data, v2. During submission: ybxsttf2by/draft?a...ff71fa. DOI: https://doi.org/10.17632/ybxsttf2by. 2 Beluco, A and Ponticelli, FA. 2014. Inclusion of biodiesel and PV modules in a wind diesel hybrid system supplying electrical loads on a small farms. International Journal of Renewable Energy Technology, 5(3): 229–250. DOI: https://doi.org/10.1504/IJRET.2014.063010 Beluco, A, Souza, PK and Krenzinger, A. 2008. A dimensionless index evaluating the time complementarity between solar and hydraulic energies. Renewable Energy, 33(10): 2157–2165. DOI: https://doi. org/10.1016/j.renene.2008.01.019 Beluco, A, Souza, PK and Krenzinger, A. 2012. A method to evaluate the effect of complementarity in time between hydro and solar energy on the performance of hybrid hydro PV generating plants. Renewable Energy, 45: 24–30. DOI: https://doi.org/10.1504/IJRET.2014.063010 Benevit, MG, Silva, JS, Gewehr, AG and Beluco, A. 2016. Subtle influence of the Weibull shape parameter on Homer optimization space of a wind diesel hybrid system for use in southern Brazil. Journal of Power and Energy Engineering, 4(8): 38–48. DOI: https://doi.org/10.4236/cweee.2013.22005 Canales, FA and Beluco, A. 2014. Modeling pumped hydro storage with the micropower optimization model (Homer). Journal of Renewable and Sustainable Energy, 6: #043131, 12. DOI: https://doi. org/10.1063/1.4893077 Canales, FA, Beluco, A and Mendes, CAB. 2015. A comparative study of a wind hydro hybrid system with water storage capacity: conventional reservoir or pumped storage plant. Journal of Energy Storage, 4: 96–105. DOI: https://doi.org/10.1016/j.est.2015.09.007 Canales, FA, Beluco, A and Mendes, CAB. 2017. Modelling a hydropower plant with reservoir with the micro power optimization model (Homer). International Journal of Sustainable Energy, 36(7): 654–667. DOI: https://doi.org/10.1080/14786451.2015.1080706 Connolly, D, Lund, H, Mathiesen, BV and Leahy, M. 2010. A review of computer tools for analyzing the integration of renewable energy into various energy systems. Applied Energy, 87: 1059–1082. DOI: https://doi.org/10.1016/j.apenergy.2009.09.026 During Fo, FA and Beluco, A. 2019. Simulating hybrid energy systems based on complementary energy resources. MethodsX, 6: 2492–2498. DOI: https://doi.org/10.1016/j.mex.2019.10.017 During Fo, FA, Beluco, A, Rossini, EG and Souza, J. 2018. Influence of time complementarity on energy storage through batteries in the performance of hydro PV hybrid systems. Computational Water, Energy and Environmental Engineering, 7(3): 142–159. DOI: https://doi.org/10.4236/cweee.2018.73010 HomerEnergy. 2007. Software Homer Legacy (software Homer, version 2.68 beta). Available at www.homerenergy. com. HomerEnergy. 2019. www.homerenergy.com. [Last accessed on June 29, 2019]. Jurasz, J, Canales, FA, Kies, A, Guezgouz, M and Beluco, A. 2019. A review on the complementarity of renewable energy sources: concept, metrics, application and future research directions. Solar Energy, 195: 703–724. DOI: https://doi.org/10.1016/j.solener.2019.11.087 Lambert, TW, Gilman, P and Lilienthal, PD. 2005. Micropower system modeling with Homer. In: Farret, FA and Simões, MG (eds.), Integration of Alternative Sources of Energy, 379–418. Hoboken (NJ), USA: John Wiley & Sons. DOI: https://doi.org/10.1002/0471755621.ch15 Lilienthal, PD, Lambert, TW and Gilman, P. 2004. Computer modeling of renewable power systems. In: Cleveland, CJ (ed.), Encyclopedia of Energy, 1, 633–647. Amsterdam, Netherlands: Elsevier. DOI: https:// doi.org/10.1016/B0-12-176480-X/00522-2 Lilienthal, PD, Lambert, TW and Gilman, P. 2011. Getting Started Guide for Homer Legacy (Version 2.68). Available online at http://www.science.smith.edu/~jcardell/Courses/ EGR325/Readings/HOMERGettingStartedGuide. pdf. [Last accessed June 29, 2019]. Risso, A, Canales, FA, Beluco, A and Rossini, EG. 2017. A PV wind hydro hybrid system with pumped storage capacity installed in Linha Sete, Aparados da Serra, southern Brazil. In: Kishor, N and Fraile- Ardanuy, J (eds.), Modeling and Dynamic Behaviour of Hydropower Plants, 205–222. London, England: The Institution of Engineering and Technology. Silva, JS and Beluco, A. 2018. Characterization of a feasibility space for a new technology – case study of wave energy in southern Brazil. Current Alternative Energy, 2(2): 112–122. DOI: https://doi.org/10.2174 /1570178615666180830102336 Silva, JS, Cardoso, AR and Beluco, A. 2012. Consequences of reducing the costs of PV modules on a PV wind diesel hybrid system with limited sizing components. International Journal of Photoenergy, 2012: #384153, 7. DOI: https://doi.org/10.1155/2012/384153 Sinha, S and Chandel, SS. 2014. Review of software tools for hybrid renewable energy systems. Renewable and Sustainable Energy Reviews, 32: 192–205. DOI: https://doi.org/10.1016/j.rser.2014.01.035 Teixeira, LE, Caux, J, Beluco, A, Bertoldo, I, Louzada, JAS and Eifler, RC. 2015. Feasibility study of a hydro PV hybrid system operating at a dam for water supply in southern Brazil. Journal of Power and Energy Engineering, 3(9): 70–83. DOI: https://doi.org/10.4236/jpee.2015.39006 U.S. Department of Energy. 2019. NREL, National Renewable Energy Laboratory. Available at https://www. nrel.gov. [Last accessed June 29, 2019]. Vasco, G, Silva, JS, Beluco, A, Rossini, EG and Souza, J. 2019a. A hydro PV hybrid system as a new concept for an abandoned dam in southern Brazil. Computational Water, Energy and Environmental Engineering, 8(2): 41–56. DOI: https://doi.org/10.4236/cweee.2019.82003 Vasco, G, Silva, JS, Canales, FA, Beluco, A, Rossini, EG and Souza, J. 2019b. A hydro PV hybrid system for the Laranjeiras Dam (in southern Brazil) operating with storage capacity in the water reservoir. Smart Grid and Renewable Energy, 10(4): 83–97. DOI: https://doi.org/10.4236/sgre.2019.104006
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spelling	Beluco, AlexandreDuring F, Frederico A.Silva, Lúcia M. R.Silva, Jones S.Teixeira, Lúis E.Vasco, GabrielCanales, FaustoGimenez Rossini, Eltonde Souza, JoséDaronco, Giuliano C.Risso, Alfonso2020-07-22T16:16:03Z2020-07-22T16:16:03Z20201683-1470https://hdl.handle.net/11323/6800DOI: https://doi.org/10.5334/dsj-2020-014Corporación Universidad de la CostaREDICUC - Repositorio CUChttps://repositorio.cuc.edu.co/Homer Legacy software is a well-known software for simulation of small hybrid systems that can be used for both design and research. This dataset is a set of files generated by Homer Legacy bringing the simulation results of hybrid energy systems over the last seven years, as a consequence of the research work led by Dr. Alexandre Beluco, Federal University of Rio Grande do Sul, in southern Brazil. The data correspond to twelve papers published in the last seven years. Two of them describe hydro PV hybrid systems with photovoltaic panels operating on the water surface of reservoirs. One of these twelve papers suggests the modeling of hydropower plants with reservoirs and the other the modeling of pumped hydro storage, and a third still uses these models in a place that could receive both the two types of hydroelectric power plant. The other simulated hybrid systems include wind turbines, diesel generators, batteries, among other components. This data article describes the files that integrate this dataset and the papers that have been published presenting the hybrid systems under study and discussing the results. The files that make up this dataset are available on Mendeley Data repository at https://doi.org/10.17632/ybxsttf2by.2.Beluco, Alexandre-will be generated-orcid-0000-0003-1507-9519-600During F, Frederico A.Silva, Lúcia M. R.Silva, Jones S.Teixeira, Lúis E.Vasco, Gabriel-will be generated-orcid-0000-0001-6026-3724-600Canales, Fausto-will be generated-orcid-0000-0002-6858-1855-600G. Rossini, Elton-will be generated-orcid-0000-0002-4195-2003-600de Souza, JoséDaronco, Giuliano C.Risso, Alfonso-will be generated-orcid-0000-0003-1504-6127-600engData Science JournalCC0 1.0 Universalhttp://creativecommons.org/publicdomain/zero/1.0/info:eu-repo/semantics/openAccesshttp://purl.org/coar/access_right/c_abf2Hybrid energy systemsFeasibility studiesHomer Legacy softwareHydro PV hybrid systemsEnergetic complementarityHydro power plants with reservoirPumped hydro storagePV modules on floating structuresPV modules on floating structuresDataset after seven years simulating hybrid energy systems with Homer LegacyArtículo de revistahttp://purl.org/coar/resource_type/c_6501http://purl.org/coar/resource_type/c_2df8fbb1Textinfo:eu-repo/semantics/articlehttp://purl.org/redcol/resource_type/ARTinfo:eu-repo/semantics/acceptedVersionBeluco, A, Colvara, CP, Teixeira, LE and Beluco, A. 2013. Feasibility study for power generation during peak hours with a hybrid system in a recycled paper mill. Computational Water, Energy and Environmental Engineering, 2(2): 43–53. DOI: https://doi.org/10.4236/cweee.2013.22005Beluco, A, During Fo, FA, Silva, LMR, Silva, JS, Teixeira, LE, Vasco, G, Canales, FA, Rossini, EG, Souza, J, Daronco, GC and Risso, A. 2019. Seven years simulating hybrid energy systems with Homer Legacy. Mendeley Data, v2. During submission: ybxsttf2by/draft?a...ff71fa. DOI: https://doi.org/10.17632/ybxsttf2by. 2Beluco, A and Ponticelli, FA. 2014. Inclusion of biodiesel and PV modules in a wind diesel hybrid system supplying electrical loads on a small farms. International Journal of Renewable Energy Technology, 5(3): 229–250. DOI: https://doi.org/10.1504/IJRET.2014.063010Beluco, A, Souza, PK and Krenzinger, A. 2008. A dimensionless index evaluating the time complementarity between solar and hydraulic energies. Renewable Energy, 33(10): 2157–2165. DOI: https://doi. org/10.1016/j.renene.2008.01.019Beluco, A, Souza, PK and Krenzinger, A. 2012. A method to evaluate the effect of complementarity in time between hydro and solar energy on the performance of hybrid hydro PV generating plants. Renewable Energy, 45: 24–30. DOI: https://doi.org/10.1504/IJRET.2014.063010Benevit, MG, Silva, JS, Gewehr, AG and Beluco, A. 2016. Subtle influence of the Weibull shape parameter on Homer optimization space of a wind diesel hybrid system for use in southern Brazil. Journal of Power and Energy Engineering, 4(8): 38–48. DOI: https://doi.org/10.4236/cweee.2013.22005Canales, FA and Beluco, A. 2014. Modeling pumped hydro storage with the micropower optimization model (Homer). Journal of Renewable and Sustainable Energy, 6: #043131, 12. DOI: https://doi. org/10.1063/1.4893077Canales, FA, Beluco, A and Mendes, CAB. 2015. A comparative study of a wind hydro hybrid system with water storage capacity: conventional reservoir or pumped storage plant. Journal of Energy Storage, 4: 96–105. DOI: https://doi.org/10.1016/j.est.2015.09.007Canales, FA, Beluco, A and Mendes, CAB. 2017. Modelling a hydropower plant with reservoir with the micro power optimization model (Homer). International Journal of Sustainable Energy, 36(7): 654–667. DOI: https://doi.org/10.1080/14786451.2015.1080706Connolly, D, Lund, H, Mathiesen, BV and Leahy, M. 2010. A review of computer tools for analyzing the integration of renewable energy into various energy systems. Applied Energy, 87: 1059–1082. DOI: https://doi.org/10.1016/j.apenergy.2009.09.026During Fo, FA and Beluco, A. 2019. Simulating hybrid energy systems based on complementary energy resources. MethodsX, 6: 2492–2498. DOI: https://doi.org/10.1016/j.mex.2019.10.017During Fo, FA, Beluco, A, Rossini, EG and Souza, J. 2018. Influence of time complementarity on energy storage through batteries in the performance of hydro PV hybrid systems. Computational Water, Energy and Environmental Engineering, 7(3): 142–159. DOI: https://doi.org/10.4236/cweee.2018.73010HomerEnergy. 2007. Software Homer Legacy (software Homer, version 2.68 beta). Available at www.homerenergy. com.HomerEnergy. 2019. www.homerenergy.com. [Last accessed on June 29, 2019].Jurasz, J, Canales, FA, Kies, A, Guezgouz, M and Beluco, A. 2019. A review on the complementarity of renewable energy sources: concept, metrics, application and future research directions. Solar Energy, 195: 703–724. DOI: https://doi.org/10.1016/j.solener.2019.11.087Lambert, TW, Gilman, P and Lilienthal, PD. 2005. Micropower system modeling with Homer. In: Farret, FA and Simões, MG (eds.), Integration of Alternative Sources of Energy, 379–418. Hoboken (NJ), USA: John Wiley & Sons. DOI: https://doi.org/10.1002/0471755621.ch15Lilienthal, PD, Lambert, TW and Gilman, P. 2004. Computer modeling of renewable power systems. In: Cleveland, CJ (ed.), Encyclopedia of Energy, 1, 633–647. Amsterdam, Netherlands: Elsevier. DOI: https:// doi.org/10.1016/B0-12-176480-X/00522-2Lilienthal, PD, Lambert, TW and Gilman, P. 2011. Getting Started Guide for Homer Legacy (Version 2.68). Available online at http://www.science.smith.edu/~jcardell/Courses/ EGR325/Readings/HOMERGettingStartedGuide. pdf. [Last accessed June 29, 2019].Risso, A, Canales, FA, Beluco, A and Rossini, EG. 2017. A PV wind hydro hybrid system with pumped storage capacity installed in Linha Sete, Aparados da Serra, southern Brazil. In: Kishor, N and Fraile- Ardanuy, J (eds.), Modeling and Dynamic Behaviour of Hydropower Plants, 205–222. London, England: The Institution of Engineering and Technology.Silva, JS and Beluco, A. 2018. Characterization of a feasibility space for a new technology – case study of wave energy in southern Brazil. Current Alternative Energy, 2(2): 112–122. DOI: https://doi.org/10.2174 /1570178615666180830102336Silva, JS, Cardoso, AR and Beluco, A. 2012. Consequences of reducing the costs of PV modules on a PV wind diesel hybrid system with limited sizing components. International Journal of Photoenergy, 2012: #384153, 7. DOI: https://doi.org/10.1155/2012/384153Sinha, S and Chandel, SS. 2014. Review of software tools for hybrid renewable energy systems. Renewable and Sustainable Energy Reviews, 32: 192–205. DOI: https://doi.org/10.1016/j.rser.2014.01.035Teixeira, LE, Caux, J, Beluco, A, Bertoldo, I, Louzada, JAS and Eifler, RC. 2015. Feasibility study of a hydro PV hybrid system operating at a dam for water supply in southern Brazil. Journal of Power and Energy Engineering, 3(9): 70–83. DOI: https://doi.org/10.4236/jpee.2015.39006U.S. Department of Energy. 2019. NREL, National Renewable Energy Laboratory. Available at https://www. nrel.gov. [Last accessed June 29, 2019].Vasco, G, Silva, JS, Beluco, A, Rossini, EG and Souza, J. 2019a. A hydro PV hybrid system as a new concept for an abandoned dam in southern Brazil. Computational Water, Energy and Environmental Engineering, 8(2): 41–56. DOI: https://doi.org/10.4236/cweee.2019.82003Vasco, G, Silva, JS, Canales, FA, Beluco, A, Rossini, EG and Souza, J. 2019b. A hydro PV hybrid system for the Laranjeiras Dam (in southern Brazil) operating with storage capacity in the water reservoir. Smart Grid and Renewable Energy, 10(4): 83–97. 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Dataset after seven years simulating hybrid energy systems with Homer Legacy

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