A Review: Integration of Renewable Energies in the Sustainability of the Electric Distribution Grid

This Article submits a review of the integration of renewable energies in the contemporary distribution of generated energy. A technological supervision is implemented to observe in a systematic manner the behavior of state of the art technologies in renewable energies, in the search of energetic su...

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Autores:: Ospino Castro, Adalberto
Troncoso-Mendoza, Sonni
Peña Gallardo, Rafael
Zamora Musa, Ronald

Tipo de recurso:: Article of investigation

Fecha de publicación:: 2021

Institución:: Universidad Cooperativa de Colombia

Repositorio:: Repositorio UCC

Idioma:

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network_acronym_str	COOPER2
network_name_str	Repositorio UCC
repository_id_str
dc.title.none.fl_str_mv	A Review: Integration of Renewable Energies in the Sustainability of the Electric Distribution Grid
title	A Review: Integration of Renewable Energies in the Sustainability of the Electric Distribution Grid
spellingShingle	A Review: Integration of Renewable Energies in the Sustainability of the Electric Distribution Grid Energías Renovables Generación Distribuida Microrred Sistemas de Generación Sostenibilidad energética Renewable Energies Distributed Generation Microgrid Generation Systems Energetic sustainability
title_short	A Review: Integration of Renewable Energies in the Sustainability of the Electric Distribution Grid
title_full	A Review: Integration of Renewable Energies in the Sustainability of the Electric Distribution Grid
title_fullStr	A Review: Integration of Renewable Energies in the Sustainability of the Electric Distribution Grid
title_full_unstemmed	A Review: Integration of Renewable Energies in the Sustainability of the Electric Distribution Grid
title_sort	A Review: Integration of Renewable Energies in the Sustainability of the Electric Distribution Grid
dc.creator.fl_str_mv	Ospino Castro, Adalberto Troncoso-Mendoza, Sonni Peña Gallardo, Rafael Zamora Musa, Ronald
dc.contributor.author.none.fl_str_mv	Ospino Castro, Adalberto Troncoso-Mendoza, Sonni Peña Gallardo, Rafael Zamora Musa, Ronald
dc.subject.none.fl_str_mv	Energías Renovables Generación Distribuida Microrred Sistemas de Generación Sostenibilidad energética
topic	Energías Renovables Generación Distribuida Microrred Sistemas de Generación Sostenibilidad energética Renewable Energies Distributed Generation Microgrid Generation Systems Energetic sustainability
dc.subject.other.none.fl_str_mv	Renewable Energies Distributed Generation Microgrid Generation Systems Energetic sustainability
description	This Article submits a review of the integration of renewable energies in the contemporary distribution of generated energy. A technological supervision is implemented to observe in a systematic manner the behavior of state of the art technologies in renewable energies, in the search of energetic sustainability, making an analysis of the distribution of the most representative Microgrids at world level. It is to be noted, the great inclusion of energy obtained through solar panels, and Eolic generators. However, there is a great participation of generators from diesel vapor, and gas; while in the storage system batteries are predominant, and sometimes, flywheels and supercapacitors surface. These results are possibly due to the promotion and experience of including new techniques and use of energy resource methodologies
publishDate	2021
dc.date.issued.none.fl_str_mv	2021-02-08
dc.date.accessioned.none.fl_str_mv	2023-03-30T15:50:57Z
dc.date.available.none.fl_str_mv	2023-03-30T15:50:57Z
dc.type.none.fl_str_mv	Artículos Científicos
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dc.type.version.none.fl_str_mv	info:eu-repo/semantics/publishedVersion
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dc.identifier.issn.none.fl_str_mv	21464553
dc.identifier.uri.none.fl_str_mv	https://doi.org/10.32479/ijeep.9570 https://hdl.handle.net/20.500.12494/49087
dc.identifier.bibliographicCitation.none.fl_str_mv	Castro, A. O., Troncoso-Mendoza, S., Gallardo, R. P., & Zamora-Musa, R. (2021). A review: Integration of renewable energies in the sustainability of the electric distribution grid. International Journal of Energy Economics and Policy, 11(4), 240–248. https://doi.org/10.32479/ijeep.9570
identifier_str_mv	21464553 Castro, A. O., Troncoso-Mendoza, S., Gallardo, R. P., & Zamora-Musa, R. (2021). A review: Integration of renewable energies in the sustainability of the electric distribution grid. International Journal of Energy Economics and Policy, 11(4), 240–248. https://doi.org/10.32479/ijeep.9570
url	https://doi.org/10.32479/ijeep.9570 https://hdl.handle.net/20.500.12494/49087
dc.relation.isversionof.none.fl_str_mv	https://www.econjournals.com/index.php/ijeep/article/view/9570/5916
dc.relation.ispartofjournal.none.fl_str_mv	International Journal of Energy Economics and Policy
dc.relation.references.none.fl_str_mv	Amin, M. (2016), Hybrid Microgrid and its Coordination, Doctoral Dissertation, California State University, Northridge Arango, A., Álvarez, R. (2013), Microgrids: New paradigm in electricity grids. Revista Colombiana de Tecnologías de Avanzada, 2(22), 42-48. Arcamone, R. (2015), Battery selection for different microgrids. In: 2015 Trojan Battery Company, Munich, Germany. p1-20 Bayindir, R., Bekiroglu, E., Hossain, E., Kabalci, E. (2014), Microgrid facility at European union. In: 2014 International Conference on Renewable Energy Research and Application. United States: IEEE. p865-872 Bayindir, R., Hossain, E., Kabalci, E., Billah, K.M.M. (2015), Investigation on North American microgrid facility. International Journal of Renewable Energy Research, 5(2), 558-574. Becerra, H. (2011), Desarrollo y aplicaciones de microrredes eléctricas en México. In: Taller Sobre Minirredes y Sistemas Híbridos con Energías Renovables en la Electrificación Rural-Universidad de Sao Paulo. p1-65 Bordons, C., Torres, F.G., Valverde, L. (2015), Gestión óptima de la energía en microrredes con generación renovable. Revista Iberoamericana de Automática e Informática industrial, 12(2), 117-132. Cabello-Eras, J., Balbis-Morejón, M., Sagastume-Gutiérrez, A., García, A.P., Ulloa, M.C., Rey-Martínez, F.J., Rueda-Bayona, J.G. (2019), A look to the electricity generation from non-conventional renewable energy sources in Colombia. International Journal of Energy Economics and Policy, 9(1), 15-25. Cantarero, M.M.V. (2018), Reviewing the Nicaraguan transition to a renewable energy system: Why is “business-as-usual” no longer an option? Energy Policy, 120, 580-592 Chilán, J.C.H., Torres, S.G.P., Machuca, B.I.F., Cordova, A.J.T., Pérez, C.A.M., Gamez, M.R. (2018), Social impact of renewable energy sources in the province of Loja. International Journal of Physical Sciences and Engineering, 2(1), 13-25. de Sousa Mascarenhas, F., Brown, I.F., da Silva, S.S. (2018), Desmatamento e incêndios florestais transformando a realidade da Reserva Extrativista Chico Mendes. Desenvolvimento e Meio Ambiente, 48, 236-262 Falahati, B., Chua, E., Kazemi, A. (2016), A novel design for an expandable, modular microgrid unit. In: 2016 IEEE Power and Energy Society Innovative Smart Grid Technologies Conference. United States: IEEE. p1-5 Gaona, E.E., Trujillo, C.A., Guacaneme, J.A. (2015), Rural microgrids and its potential application in Colombia. Renewable and Sustainable Energy Reviews, 51, 125-137 González, H.D. (2012), Diseño De Un Sistema Fotovoltaico Para La Generación De Energía Eléctrica En El Cobaev 35 Xalapa. p1-172. Available from: http://www.cdigital.uv.mx/bitstream/123456789/31561/1/dominguezgonzalezhector.pdf. [Last accessed on 2019 Dec 01] Grids, S. (2011), La Evolución de la Red Eléctrica, Observatorio Industrial del Sector de la Electrónica, Tecnologías de la Información y Telecomunicaciones Gui, E.M., Diesendorf, M., MacGill, I. (2017), Distributed energy infrastructure paradigm: Community microgrids in a new institutional economics context. Renewable and Sustainable Energy Reviews, 72, 1355-1365. Guilherme, P., Morante, F. (2012), A busca pelo sucesso em projetos de eletrificação rural descentralizada por meio de sistemas híbridos de geração de energia elétrica. In: VI Encontro Nacional da Anppas, Belém. p1-28. Hatziargyriou, N. (2014), Microgrids: Architectures and Control. United States: John Wiley & Sons. Jiang, L., Wang, C., Huang, Y., Pei, Z., Xin, S., Wang, W., Brown, T. (2015), Growth in wind and sun: Integrating variable generation in China. IEEE Power and Energy Magazine, 13(6), 40-49 Josa, A.C. (2011), Primeros pasos hacia las redes inteligentes en España. Visión del operador del sistema. Cuadernos de Energía, 32, 33-41. Lee, Y.D., Chang, Y.R., Chan, C.M., Ho, Y.H. (2012), Preliminary implementation of microgrid with photovoltaic and microturbine for stand alone operation. In: 2012 IEEE Industry Applications Society Annual Meeting. United States: IEEE. p1-9 León-Trigo, L.I., Reyes-Archundia, E., Gutiérrez-Gnecchi, J.A., Méndez-Patiño, A., Chávez-Campos, G.M. (2019), Smart grids en México: Situación actual, retos y propuesta de implementación. Ingeniería, Investigación y Tecnología, 20(2), 1-12 Lidula, N.W.A., Rajapakse, A.D. (2011), Microgrids research: A review of experimental microgrids and test systems. Renewable and Sustainable Energy Reviews, 15(1), 186-202 Mahieux, C., Oudalov, A. (2014), Microrredes: Integración de microrredes con tecnologías de ABB. Revista ABB, 4, 54-60 Mata, O.N., Villalba, D.O., Palma-Behnke, R. (2013), Microrredes en la red eléctrica del futuro-caso Huatacondo. Revista de Ciencia y Tecnología, 29(2), 1-16 Morozumi, S. (2015), Japanese island grid experience. In: Island Energy-Status and Perspectives. Available from: https://www.iea.blob.core.windows.net/assets/imports/events/111/3morozumi_nedo.pdf. [Last accessed on 2020 Mar 01] Munoz, A. (2019), Microgrids for disaster management: An ethical risk perspective. IEEE Technology and Society Magazine, 38(4), 70-74 Muñoz, Y., Zafra, D., Acevedo, V., Ospino, A. (2014), Analysis of energy production with different photovoltaic technologies in the Colombian geography. IOP Conference Series: Materials Science and Engineering, 59(1), 012012 Nam, Y.H., Lee, H.D., Kim, Y.R., Marito, F., Kim, M.Y., Rho, D.S. (2017), Economic evaluation algorithm of island micro-grid for utility and independent power producer. The Transactions of the Korean Institute of Electrical Engineers, 66(7), 1032-1038 Onodera, O. (2013), Micro-grid activities related to Japan. In: Microgrid World Forum, Irvine, California, Estados Unidos. p1-24. Papaioannou, D.I., Papadimitriou, C.N., Dimeas, A.L., Zountouridou, E.I., Kiokes, G.C., Hatziargyriou, N.D. (2014), Optimization and sensitivity analysis of microgrids using HOMER software-a case study. In: India Conference (INDICON). United States: IEEE. Rese, L. (2012), Modelagem, Análise de Estabilidade e Controle de Microrredes de Energia Elétrica, Doctoral Dissertation. Rueda-Bayona, J.G., Guzmán, A., Eras, J.J.C., Silva-Casarín, R., Bastidas-Arteaga, E., Horrillo-Caraballo, J. (2019), Renewables energies in Colombia and the opportunity for the offshore wind technology. Journal of Cleaner Production, 220, 529-543 Sarmiento, N., Belmonte, S., Dellicompagni, P., Franco, J., Escalante, K., Sarmiento, J. (2019), A solar irradiation GIS as decision support tool for the Province of Salta, Argentina. Renewable Energy, 132, 68-80 Shuai, Z., Sun, Y., Shen, Z.J., Tian, W., Tu, C., Li, Y., Yin, X. (2016), Microgrid stability: Classification and a review. Renewable and Sustainable Energy Reviews, 58, 167-179 Sood, V.K., Abdelgawad, H. (2019), Microgrids architectures. In: Distributed Energy Resources in Microgrids. 10th ed. Cambridge: Academic Press. p1-31 Tamaki, M., Uehara, S., Takagi, K., Ichikawa, T. (2012), Demonstration results using Miyako island mega-solar demonstration research facility. In: PES T&D 2012. United States: IEEE. p1-4. Tobin, P., Schmidt, N.M., Tosun, J., Burns, C. (2018), Mapping states’ Paris climate pledges: Analyzing targets and groups at COP 21. Global Environmental Change, 48, 11-21. Tolón, T.I.M. (2013), Operación y Gestión de Microrredes Energéticas Urbanas en un Entorno de Sostenibilidad Energética y Ambiental (Master’s Thesis, Universitat Politècnica de Catalunya). Available from: http://www.upcommons.upc.edu/pfc/bitstream/2099.1/19411/1/tamaratolon_memoriatfm_deposito.pdf. [Last accessed on 2020 Feb 10]. Xie, H., Zheng, S., Ni, M. (2017), Microgrid development in China: A method for renewable energy and energy storage capacity configuration in a megawatt-level isolated microgrid. IEEE Electrification Magazine, 5(2), 28-35.
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dc.coverage.temporal.none.fl_str_mv	Vol. 11. No. 4
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spelling	Ospino Castro, AdalbertoTroncoso-Mendoza, SonniPeña Gallardo, RafaelZamora Musa, RonaldVol. 11. No. 42023-03-30T15:50:57Z2023-03-30T15:50:57Z2021-02-0821464553https://doi.org/10.32479/ijeep.9570https://hdl.handle.net/20.500.12494/49087Castro, A. O., Troncoso-Mendoza, S., Gallardo, R. P., & Zamora-Musa, R. (2021). A review: Integration of renewable energies in the sustainability of the electric distribution grid. International Journal of Energy Economics and Policy, 11(4), 240–248. https://doi.org/10.32479/ijeep.9570This Article submits a review of the integration of renewable energies in the contemporary distribution of generated energy. A technological supervision is implemented to observe in a systematic manner the behavior of state of the art technologies in renewable energies, in the search of energetic sustainability, making an analysis of the distribution of the most representative Microgrids at world level. It is to be noted, the great inclusion of energy obtained through solar panels, and Eolic generators. However, there is a great participation of generators from diesel vapor, and gas; while in the storage system batteries are predominant, and sometimes, flywheels and supercapacitors surface. These results are possibly due to the promotion and experience of including new techniques and use of energy resource methodologiesThis Article submits a review of the integration of renewable energies in the contemporary distribution of generated energy. A technological supervision is implemented to observe in a systematic manner the behavior of state of the art technologies in renewable energies, in the search of energetic sustainability, making an analysis of the distribution of the most representative Microgrids at world level. It is to be noted, the great inclusion of energy obtained through solar panels, and Eolic generators. However, there is a great participation of generators from diesel vapor, and gas; while in the storage system batteries are predominant, and sometimes, flywheels and supercapacitors surface. These results are possibly due to the promotion and experience of including new techniques and use of energy resource methodologieshttps://scienti.minciencias.gov.co/cvlac/visualizador/generarCurriculoCv.do?cod_rh=0001348149https://orcid.org/0000-0003-4949-4438https://scienti.minciencias.gov.co/gruplac/jsp/visualiza/visualizagr.jsp?nro=0000000000498ronald.zamora@campusucc.edu.cohttps://scholar.google.com/citations?user=KXDKYVUAAAAJ&hl=es240-248Universidad Cooperativa de Colombia, Facultad de Ingenierías, Ingeniería Industrial, BarrancabermejaIngeniería IndustrialBarrancabermejahttps://www.econjournals.com/index.php/ijeep/article/view/9570/5916International Journal of Energy Economics and PolicyAmin, M. (2016), Hybrid Microgrid and its Coordination, Doctoral Dissertation, California State University, NorthridgeArango, A., Álvarez, R. (2013), Microgrids: New paradigm in electricity grids. Revista Colombiana de Tecnologías de Avanzada, 2(22), 42-48.Arcamone, R. (2015), Battery selection for different microgrids. In: 2015 Trojan Battery Company, Munich, Germany. p1-20Bayindir, R., Bekiroglu, E., Hossain, E., Kabalci, E. (2014), Microgrid facility at European union. In: 2014 International Conference on Renewable Energy Research and Application. United States: IEEE. p865-872Bayindir, R., Hossain, E., Kabalci, E., Billah, K.M.M. (2015), Investigation on North American microgrid facility. International Journal of Renewable Energy Research, 5(2), 558-574.Becerra, H. (2011), Desarrollo y aplicaciones de microrredes eléctricas en México. In: Taller Sobre Minirredes y Sistemas Híbridos con Energías Renovables en la Electrificación Rural-Universidad de Sao Paulo. p1-65Bordons, C., Torres, F.G., Valverde, L. (2015), Gestión óptima de la energía en microrredes con generación renovable. Revista Iberoamericana de Automática e Informática industrial, 12(2), 117-132.Cabello-Eras, J., Balbis-Morejón, M., Sagastume-Gutiérrez, A., García, A.P., Ulloa, M.C., Rey-Martínez, F.J., Rueda-Bayona, J.G. (2019), A look to the electricity generation from non-conventional renewable energy sources in Colombia. International Journal of Energy Economics and Policy, 9(1), 15-25.Cantarero, M.M.V. (2018), Reviewing the Nicaraguan transition to a renewable energy system: Why is “business-as-usual” no longer an option? Energy Policy, 120, 580-592Chilán, J.C.H., Torres, S.G.P., Machuca, B.I.F., Cordova, A.J.T., Pérez, C.A.M., Gamez, M.R. (2018), Social impact of renewable energy sources in the province of Loja. International Journal of Physical Sciences and Engineering, 2(1), 13-25.de Sousa Mascarenhas, F., Brown, I.F., da Silva, S.S. (2018), Desmatamento e incêndios florestais transformando a realidade da Reserva Extrativista Chico Mendes. Desenvolvimento e Meio Ambiente, 48, 236-262Falahati, B., Chua, E., Kazemi, A. (2016), A novel design for an expandable, modular microgrid unit. In: 2016 IEEE Power and Energy Society Innovative Smart Grid Technologies Conference. United States: IEEE. p1-5Gaona, E.E., Trujillo, C.A., Guacaneme, J.A. (2015), Rural microgrids and its potential application in Colombia. Renewable and Sustainable Energy Reviews, 51, 125-137González, H.D. (2012), Diseño De Un Sistema Fotovoltaico Para La Generación De Energía Eléctrica En El Cobaev 35 Xalapa. p1-172. Available from: http://www.cdigital.uv.mx/bitstream/123456789/31561/1/dominguezgonzalezhector.pdf. [Last accessed on 2019 Dec 01]Grids, S. (2011), La Evolución de la Red Eléctrica, Observatorio Industrial del Sector de la Electrónica, Tecnologías de la Información y TelecomunicacionesGui, E.M., Diesendorf, M., MacGill, I. (2017), Distributed energy infrastructure paradigm: Community microgrids in a new institutional economics context. Renewable and Sustainable Energy Reviews, 72, 1355-1365.Guilherme, P., Morante, F. (2012), A busca pelo sucesso em projetos de eletrificação rural descentralizada por meio de sistemas híbridos de geração de energia elétrica. In: VI Encontro Nacional da Anppas, Belém. p1-28.Hatziargyriou, N. (2014), Microgrids: Architectures and Control. United States: John Wiley & Sons.Jiang, L., Wang, C., Huang, Y., Pei, Z., Xin, S., Wang, W., Brown, T. (2015), Growth in wind and sun: Integrating variable generation in China. IEEE Power and Energy Magazine, 13(6), 40-49Josa, A.C. (2011), Primeros pasos hacia las redes inteligentes en España. Visión del operador del sistema. Cuadernos de Energía, 32, 33-41.Lee, Y.D., Chang, Y.R., Chan, C.M., Ho, Y.H. (2012), Preliminary implementation of microgrid with photovoltaic and microturbine for stand alone operation. In: 2012 IEEE Industry Applications Society Annual Meeting. United States: IEEE. p1-9León-Trigo, L.I., Reyes-Archundia, E., Gutiérrez-Gnecchi, J.A., Méndez-Patiño, A., Chávez-Campos, G.M. (2019), Smart grids en México: Situación actual, retos y propuesta de implementación. Ingeniería, Investigación y Tecnología, 20(2), 1-12Lidula, N.W.A., Rajapakse, A.D. (2011), Microgrids research: A review of experimental microgrids and test systems. Renewable and Sustainable Energy Reviews, 15(1), 186-202Mahieux, C., Oudalov, A. (2014), Microrredes: Integración de microrredes con tecnologías de ABB. Revista ABB, 4, 54-60Mata, O.N., Villalba, D.O., Palma-Behnke, R. (2013), Microrredes en la red eléctrica del futuro-caso Huatacondo. Revista de Ciencia y Tecnología, 29(2), 1-16Morozumi, S. (2015), Japanese island grid experience. In: Island Energy-Status and Perspectives. Available from: https://www.iea.blob.core.windows.net/assets/imports/events/111/3morozumi_nedo.pdf. [Last accessed on 2020 Mar 01]Munoz, A. (2019), Microgrids for disaster management: An ethical risk perspective. IEEE Technology and Society Magazine, 38(4), 70-74Muñoz, Y., Zafra, D., Acevedo, V., Ospino, A. (2014), Analysis of energy production with different photovoltaic technologies in the Colombian geography. IOP Conference Series: Materials Science and Engineering, 59(1), 012012Nam, Y.H., Lee, H.D., Kim, Y.R., Marito, F., Kim, M.Y., Rho, D.S. (2017), Economic evaluation algorithm of island micro-grid for utility and independent power producer. The Transactions of the Korean Institute of Electrical Engineers, 66(7), 1032-1038Onodera, O. (2013), Micro-grid activities related to Japan. In: Microgrid World Forum, Irvine, California, Estados Unidos. p1-24.Papaioannou, D.I., Papadimitriou, C.N., Dimeas, A.L., Zountouridou, E.I., Kiokes, G.C., Hatziargyriou, N.D. (2014), Optimization and sensitivity analysis of microgrids using HOMER software-a case study. In: India Conference (INDICON). United States: IEEE.Rese, L. (2012), Modelagem, Análise de Estabilidade e Controle de Microrredes de Energia Elétrica, Doctoral Dissertation.Rueda-Bayona, J.G., Guzmán, A., Eras, J.J.C., Silva-Casarín, R., Bastidas-Arteaga, E., Horrillo-Caraballo, J. (2019), Renewables energies in Colombia and the opportunity for the offshore wind technology. Journal of Cleaner Production, 220, 529-543Sarmiento, N., Belmonte, S., Dellicompagni, P., Franco, J., Escalante, K., Sarmiento, J. (2019), A solar irradiation GIS as decision support tool for the Province of Salta, Argentina. Renewable Energy, 132, 68-80Shuai, Z., Sun, Y., Shen, Z.J., Tian, W., Tu, C., Li, Y., Yin, X. (2016), Microgrid stability: Classification and a review. Renewable and Sustainable Energy Reviews, 58, 167-179Sood, V.K., Abdelgawad, H. (2019), Microgrids architectures. In: Distributed Energy Resources in Microgrids. 10th ed. Cambridge: Academic Press. p1-31Tamaki, M., Uehara, S., Takagi, K., Ichikawa, T. (2012), Demonstration results using Miyako island mega-solar demonstration research facility. In: PES T&D 2012. United States: IEEE. p1-4.Tobin, P., Schmidt, N.M., Tosun, J., Burns, C. (2018), Mapping states’ Paris climate pledges: Analyzing targets and groups at COP 21. Global Environmental Change, 48, 11-21.Tolón, T.I.M. (2013), Operación y Gestión de Microrredes Energéticas Urbanas en un Entorno de Sostenibilidad Energética y Ambiental (Master’s Thesis, Universitat Politècnica de Catalunya). Available from: http://www.upcommons.upc.edu/pfc/bitstream/2099.1/19411/1/tamaratolon_memoriatfm_deposito.pdf. [Last accessed on 2020 Feb 10].Xie, H., Zheng, S., Ni, M. (2017), Microgrid development in China: A method for renewable energy and energy storage capacity configuration in a megawatt-level isolated microgrid. IEEE Electrification Magazine, 5(2), 28-35.Energías RenovablesGeneración DistribuidaMicrorredSistemas de GeneraciónSostenibilidad energéticaRenewable EnergiesDistributed GenerationMicrogridGeneration SystemsEnergetic sustainabilityA Review: Integration of Renewable Energies in the Sustainability of the Electric Distribution GridArtículos Científicoshttp://purl.org/coar/resource_type/c_2df8fbb1http://purl.org/coar/version/c_970fb48d4fbd8a85info:eu-repo/semantics/articleinfo:eu-repo/semantics/publishedVersionAtribución – No comercial – Sin 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A Review: Integration of Renewable Energies in the Sustainability of the Electric Distribution Grid

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