A battery energy storage system as an alternative for mitigating issues in the distribution network

distribution network to boost energy efficacy. The investigation specifically scrutinizes the integration of BESS into the distribution network feeder, both in the presence and absence of distributed photovoltaic penetration, with a focus on enhancing load factor and power factor. Utilizing the Open...

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Autores:: Caretta, Thiago Luiz
Correia, Vitor Teles
Saldanha, John Jefferson Antunes
Trentini, Rodrigo

Tipo de recurso:: Article of journal

Fecha de publicación:: 2024

Institución:: Universidad Tecnológica de Bolívar

Repositorio:: Repositorio Institucional UTB

Idioma:: eng

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network_acronym_str	UTB2
network_name_str	Repositorio Institucional UTB
repository_id_str
dc.title.spa.fl_str_mv	A battery energy storage system as an alternative for mitigating issues in the distribution network
dc.title.translated.spa.fl_str_mv	A battery energy storage system as an alternative for mitigating issues in the distribution network
title	A battery energy storage system as an alternative for mitigating issues in the distribution network
spellingShingle	A battery energy storage system as an alternative for mitigating issues in the distribution network Battery Energy Storage System Distribution Network Distributed Photovoltaic Generation OpenDSS
title_short	A battery energy storage system as an alternative for mitigating issues in the distribution network
title_full	A battery energy storage system as an alternative for mitigating issues in the distribution network
title_fullStr	A battery energy storage system as an alternative for mitigating issues in the distribution network
title_full_unstemmed	A battery energy storage system as an alternative for mitigating issues in the distribution network
title_sort	A battery energy storage system as an alternative for mitigating issues in the distribution network
dc.creator.fl_str_mv	Caretta, Thiago Luiz Correia, Vitor Teles Saldanha, John Jefferson Antunes Trentini, Rodrigo
dc.contributor.author.eng.fl_str_mv	Caretta, Thiago Luiz Correia, Vitor Teles Saldanha, John Jefferson Antunes Trentini, Rodrigo
dc.subject.eng.fl_str_mv	Battery Energy Storage System Distribution Network Distributed Photovoltaic Generation OpenDSS
topic	Battery Energy Storage System Distribution Network Distributed Photovoltaic Generation OpenDSS
description	distribution network to boost energy efficacy. The investigation specifically scrutinizes the integration of BESS into the distribution network feeder, both in the presence and absence of distributed photovoltaic penetration, with a focus on enhancing load factor and power factor. Utilizing the OpenDSS software with a Python interface, simulations were conducted to assess a range of scenarios involving the injection and absorption of active and reactive power. The outcomes underscore noteworthy enhancements in both load factor and power factor at the feeder output. Additionally, the integration of BESS exhibits a reduction in power losses along the feeder. These findings offer valuable perspectives for advancing energy efficiency in distribution networks, and have implications for future research and practical implementation.
publishDate	2024
dc.date.accessioned.none.fl_str_mv	2024-12-24 00:00:00
dc.date.available.none.fl_str_mv	2024-12-24 00:00:00
dc.date.issued.none.fl_str_mv	2024-12-24
dc.type.spa.fl_str_mv	Artículo de revista
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dc.type.local.eng.fl_str_mv	Journal article
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dc.identifier.url.none.fl_str_mv	https://doi.org/10.32397/tesea.vol5.n2.575
dc.identifier.doi.none.fl_str_mv	10.32397/tesea.vol5.n2.575
dc.identifier.eissn.none.fl_str_mv	2745-0120
url	https://doi.org/10.32397/tesea.vol5.n2.575
identifier_str_mv	10.32397/tesea.vol5.n2.575 2745-0120
dc.language.iso.eng.fl_str_mv	eng
language	eng
dc.relation.references.eng.fl_str_mv	Asif Raihan and Almagul Tuspekova. Dynamic impacts of economic growth, energy use, urbanization, tourism, agricultural value-added, and forested area on carbon dioxide emissions in brazil. Journal of Environmental Studies and Sciences, 12(4):794–814, Aug 2022. [2] Natsawat Pompern, Suttichai Premrudeepreechacharn, Apirat Siritaratiwat, and Sirote Khunkitti. Optimal placement and capacity of battery energy storage system in distribution networks integrated with pv and evs using metaheuristic algorithms. IEEE Access, 11:68379–68394, 2023. [3] Nadeeshani Jayasekara, Mohammad A. S. Masoum, and Peter J. Wolfs. Optimal operation of distributed energy storage systems to improve distribution network load and generation hosting capability. IEEE Transactions on Sustainable Energy, 7(1):250–261, Jan 2016. [4] Shahab Karrari, Nicole Ludwig, Giovanni De Carne, and Mathias Noe. Sizing of hybrid energy storage systems using recurring daily patterns. IEEE Transactions on Smart Grid, 13(4):3290–3300, Jul 2022. [5] Alberto Grimaldi, Francesco Demetrio Minuto, Alessandro Perol, Silvia Casagrande, and Andrea Lanzini. Ageing and energy performance analysis of a utility-scale lithium-ion battery for power grid applications through a data-driven empirical modelling approach. Journal of Energy Storage, 65:107232, Aug 2023. [6] Daniel Augusto Cantane, Oswaldo Hideo Ando Junior, and Márcio Biehl Hamerschmidt. Tecnologias de Armazenamento de Energia Aplicadas ao Setor Elétrico Brasileiro. Scienza, 2020. [7] Ricardo Aldabó LOPEZ. Qualidade na energia elétrica: Efeitos dos distúrbios, diagnósticos e soluções. São Paulo: Artliber, 2013. [8] Ye Yang, Hui Li, Andreas Aichhorn, Jianping Zheng, and Michael Greenleaf. Sizing strategy of distributed battery storage system with high penetration of photovoltaic for voltage regulation and peak load shaving. IEEE Transactions on Smart Grid, 5(2):982–991, Mar 2014. [9] Sayed Mir Shah Danish, Mikaeel Ahmadi, Mir Sayed Shah Danish, Paras Mandal, Atsushi Yona, and Tomonobu Senjyu. A coherent strategy for peak load shaving using energy storage systems. Journal of Energy Storage, 32:101823, Dec 2020. [10] Yu Zheng, Junhua Zhao, Yue Song, Fengji Luo, Ke Meng, Jing Qiu, and David John Hill. Optimal operation of battery energy storage system considering distribution system uncertainty. IEEE Transactions on Sustainable Energy, 9(3):1051–1060, Jul 2018. [11] Pei Yong, Ning Zhang, Qingchun Hou, Yuxiao Liu, Fei Teng, Song Ci, and Chongqing Kang. Evaluating the dispatchable capacity of base station backup batteries in distribution networks. IEEE Transactions on Smart Grid, 12(5):3966–3979, Sep 2021. [12] Rafael Sebastián. Application of a battery energy storage for frequency regulation and peak shaving in a wind diesel power system. IET Generation, Transmission Distribution, 10(3):764–770, Feb 2016. Transactions on Energy Systems and Engineering Applications, 5(2): 575, 2024 15 of 15 [13] Qifeng Li, Raja Ayyanar, and Vijay Vittal. Convex optimization for des planning and operation in radial distribution systems with high penetration of photovoltaic resources. IEEE Transactions on Sustainable Energy, 7(3):985–995, Jul 2016. [14] Mohsen Kalantar-Neyestanaki and Rachid Cherkaoui. Coordinating distributed energy resources and utility-scale battery energy storage system for power flexibility provision under uncertainty. IEEE Transactions on Sustainable Energy, 12(4):1853–1863, Oct 2021. [15] Agência Nacional de Energia Elétrica - ANEEL. Resolução homologatória nº 2.120, de 16 de agosto de 2016, 2016. [16] John Jefferson Antunes Saldanha and Marcos Samuel Jansen. Impacto da geração distribuída em uma rede elétrica real da cidade de Jaraguá do Sul. In 2022 Anais do Seminário de Ensino, Pesquisa e Extensão (SEPETEC), 2022. [17] Alexandre Klabunde and Vitor Teles Correia. Utilização do controle volt/var como alternativa para mitigar as transgressões de nível de tensão elétrica em um alimentador da rede de distribuição com alta penetração de energia fotovoltaica. IFSC, Jaraguá do Sul, 2022. [18] Marcos Samuel Jansen and John Jefferson Antunes Saldanha. Análise do impacto da geração distribuída fotovoltaica em uma rede elétrica da cidade de Jaraguá do Sul. IFSC, Jaraguá do Sul, 2022. [19] Paulo Ricardo Radatz de Freitas. Modelos avançados de análise de redes elétricas inteligentes utilizando o software OpenDSS. USP, São Paulo, 2015. [20] EPRI. Storage element. Technical report, EPRI, 2020. [21] EPRI. Storage controller element. Technical report, EPRI, 2020. [22] WEG. ESSW sistema de armazenamento de energia em baterias, 2022. [23] Keith Malmedal and P. K. Sen. A better understanding of load and loss factors. 2008 IEEE Industry Applications Society Annual Meeting, Oct 2008.
dc.relation.ispartofjournal.eng.fl_str_mv	Transactions on Energy Systems and Engineering Applications
dc.relation.citationvolume.eng.fl_str_mv	5
dc.relation.citationstartpage.none.fl_str_mv	1
dc.relation.citationendpage.none.fl_str_mv	15
dc.relation.bitstream.none.fl_str_mv	https://revistas.utb.edu.co/tesea/article/download/575/399
dc.relation.citationedition.eng.fl_str_mv	Núm. 2 , Año 2024 : Transactions on Energy Systems and Engineering Applications
dc.relation.citationissue.eng.fl_str_mv	2
dc.rights.eng.fl_str_mv	Thiago Luiz Caretta, Vitor Teles Correia, John Jefferson Antunes Saldanha, Rodrigo Trentini - 2024
dc.rights.uri.eng.fl_str_mv	https://creativecommons.org/licenses/by/4.0
dc.rights.accessrights.eng.fl_str_mv	info:eu-repo/semantics/openAccess
dc.rights.creativecommons.eng.fl_str_mv	This work is licensed under a Creative Commons Attribution 4.0 International License.
dc.rights.coar.eng.fl_str_mv	http://purl.org/coar/access_right/c_abf2
rights_invalid_str_mv	Thiago Luiz Caretta, Vitor Teles Correia, John Jefferson Antunes Saldanha, Rodrigo Trentini - 2024 https://creativecommons.org/licenses/by/4.0 This work is licensed under a Creative Commons Attribution 4.0 International License. http://purl.org/coar/access_right/c_abf2
eu_rights_str_mv	openAccess
dc.format.mimetype.eng.fl_str_mv	application/pdf
dc.publisher.eng.fl_str_mv	Universidad Tecnológica de Bolívar
dc.source.eng.fl_str_mv	https://revistas.utb.edu.co/tesea/article/view/575
institution	Universidad Tecnológica de Bolívar
repository.name.fl_str_mv	Repositorio Digital Universidad Tecnológica de Bolívar
repository.mail.fl_str_mv	bdigital@metabiblioteca.com
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spelling	Caretta, Thiago LuizCorreia, Vitor TelesSaldanha, John Jefferson AntunesTrentini, Rodrigo2024-12-24 00:00:002024-12-24 00:00:002024-12-24distribution network to boost energy efficacy. The investigation specifically scrutinizes the integration of BESS into the distribution network feeder, both in the presence and absence of distributed photovoltaic penetration, with a focus on enhancing load factor and power factor. Utilizing the OpenDSS software with a Python interface, simulations were conducted to assess a range of scenarios involving the injection and absorption of active and reactive power. The outcomes underscore noteworthy enhancements in both load factor and power factor at the feeder output. Additionally, the integration of BESS exhibits a reduction in power losses along the feeder. These findings offer valuable perspectives for advancing energy efficiency in distribution networks, and have implications for future research and practical implementation.application/pdfengUniversidad Tecnológica de BolívarThiago Luiz Caretta, Vitor Teles Correia, John Jefferson Antunes Saldanha, Rodrigo Trentini - 2024https://creativecommons.org/licenses/by/4.0info:eu-repo/semantics/openAccessThis work is licensed under a Creative Commons Attribution 4.0 International License.http://purl.org/coar/access_right/c_abf2https://revistas.utb.edu.co/tesea/article/view/575Battery Energy Storage SystemDistribution NetworkDistributed Photovoltaic GenerationOpenDSSA battery energy storage system as an alternative for mitigating issues in the distribution networkA battery energy storage system as an alternative for mitigating issues in the distribution networkArtículo de revistainfo:eu-repo/semantics/articlehttp://purl.org/coar/resource_type/c_6501http://purl.org/coar/resource_type/c_2df8fbb1Journal articleTextinfo:eu-repo/semantics/publishedVersionhttp://purl.org/coar/version/c_970fb48d4fbd8a85https://doi.org/10.32397/tesea.vol5.n2.57510.32397/tesea.vol5.n2.5752745-0120Asif Raihan and Almagul Tuspekova. Dynamic impacts of economic growth, energy use, urbanization, tourism, agricultural value-added, and forested area on carbon dioxide emissions in brazil. Journal of Environmental Studies and Sciences, 12(4):794–814, Aug 2022. [2] Natsawat Pompern, Suttichai Premrudeepreechacharn, Apirat Siritaratiwat, and Sirote Khunkitti. Optimal placement and capacity of battery energy storage system in distribution networks integrated with pv and evs using metaheuristic algorithms. IEEE Access, 11:68379–68394, 2023. [3] Nadeeshani Jayasekara, Mohammad A. S. Masoum, and Peter J. Wolfs. Optimal operation of distributed energy storage systems to improve distribution network load and generation hosting capability. IEEE Transactions on Sustainable Energy, 7(1):250–261, Jan 2016. [4] Shahab Karrari, Nicole Ludwig, Giovanni De Carne, and Mathias Noe. Sizing of hybrid energy storage systems using recurring daily patterns. IEEE Transactions on Smart Grid, 13(4):3290–3300, Jul 2022. [5] Alberto Grimaldi, Francesco Demetrio Minuto, Alessandro Perol, Silvia Casagrande, and Andrea Lanzini. Ageing and energy performance analysis of a utility-scale lithium-ion battery for power grid applications through a data-driven empirical modelling approach. Journal of Energy Storage, 65:107232, Aug 2023. [6] Daniel Augusto Cantane, Oswaldo Hideo Ando Junior, and Márcio Biehl Hamerschmidt. Tecnologias de Armazenamento de Energia Aplicadas ao Setor Elétrico Brasileiro. Scienza, 2020. [7] Ricardo Aldabó LOPEZ. Qualidade na energia elétrica: Efeitos dos distúrbios, diagnósticos e soluções. São Paulo: Artliber, 2013. [8] Ye Yang, Hui Li, Andreas Aichhorn, Jianping Zheng, and Michael Greenleaf. Sizing strategy of distributed battery storage system with high penetration of photovoltaic for voltage regulation and peak load shaving. IEEE Transactions on Smart Grid, 5(2):982–991, Mar 2014. [9] Sayed Mir Shah Danish, Mikaeel Ahmadi, Mir Sayed Shah Danish, Paras Mandal, Atsushi Yona, and Tomonobu Senjyu. A coherent strategy for peak load shaving using energy storage systems. Journal of Energy Storage, 32:101823, Dec 2020. [10] Yu Zheng, Junhua Zhao, Yue Song, Fengji Luo, Ke Meng, Jing Qiu, and David John Hill. Optimal operation of battery energy storage system considering distribution system uncertainty. IEEE Transactions on Sustainable Energy, 9(3):1051–1060, Jul 2018. [11] Pei Yong, Ning Zhang, Qingchun Hou, Yuxiao Liu, Fei Teng, Song Ci, and Chongqing Kang. Evaluating the dispatchable capacity of base station backup batteries in distribution networks. IEEE Transactions on Smart Grid, 12(5):3966–3979, Sep 2021. [12] Rafael Sebastián. Application of a battery energy storage for frequency regulation and peak shaving in a wind diesel power system. IET Generation, Transmission Distribution, 10(3):764–770, Feb 2016. Transactions on Energy Systems and Engineering Applications, 5(2): 575, 2024 15 of 15 [13] Qifeng Li, Raja Ayyanar, and Vijay Vittal. Convex optimization for des planning and operation in radial distribution systems with high penetration of photovoltaic resources. IEEE Transactions on Sustainable Energy, 7(3):985–995, Jul 2016. [14] Mohsen Kalantar-Neyestanaki and Rachid Cherkaoui. Coordinating distributed energy resources and utility-scale battery energy storage system for power flexibility provision under uncertainty. IEEE Transactions on Sustainable Energy, 12(4):1853–1863, Oct 2021. [15] Agência Nacional de Energia Elétrica - ANEEL. Resolução homologatória nº 2.120, de 16 de agosto de 2016, 2016. [16] John Jefferson Antunes Saldanha and Marcos Samuel Jansen. Impacto da geração distribuída em uma rede elétrica real da cidade de Jaraguá do Sul. In 2022 Anais do Seminário de Ensino, Pesquisa e Extensão (SEPETEC), 2022. [17] Alexandre Klabunde and Vitor Teles Correia. Utilização do controle volt/var como alternativa para mitigar as transgressões de nível de tensão elétrica em um alimentador da rede de distribuição com alta penetração de energia fotovoltaica. IFSC, Jaraguá do Sul, 2022. [18] Marcos Samuel Jansen and John Jefferson Antunes Saldanha. Análise do impacto da geração distribuída fotovoltaica em uma rede elétrica da cidade de Jaraguá do Sul. IFSC, Jaraguá do Sul, 2022. [19] Paulo Ricardo Radatz de Freitas. Modelos avançados de análise de redes elétricas inteligentes utilizando o software OpenDSS. USP, São Paulo, 2015. [20] EPRI. Storage element. Technical report, EPRI, 2020. [21] EPRI. Storage controller element. Technical report, EPRI, 2020. [22] WEG. ESSW sistema de armazenamento de energia em baterias, 2022. [23] Keith Malmedal and P. K. Sen. A better understanding of load and loss factors. 2008 IEEE Industry Applications Society Annual Meeting, Oct 2008.Transactions on Energy Systems and Engineering Applications5115https://revistas.utb.edu.co/tesea/article/download/575/399Núm. 2 , Año 2024 : Transactions on Energy Systems and Engineering Applications220.500.12585/13533oai:repositorio.utb.edu.co:20.500.12585/135332025-09-16 09:15:13.114https://creativecommons.org/licenses/by/4.0Thiago Luiz Caretta, Vitor Teles Correia, John Jefferson Antunes Saldanha, Rodrigo Trentini - 2024metadata.onlyhttps://repositorio.utb.edu.coRepositorio Digital Universidad Tecnológica de Bolívarbdigital@metabiblioteca.com

A battery energy storage system as an alternative for mitigating issues in the distribution network

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