Characterization of the current electric energy needs in subsidized residential users

In this paper it is considered the characterization and behaviour of the residential energy demand of users located in socioeconomic sectors of the Department of Atlántico, also, the participation of communities to declare the typical energy consumption at the residential level. The results are base...

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Autores:: Umaña Ibáñez, Samir
Silva Ortega, Jorge I
Gómez Charris, Yulineth
Berdugo Sarmiento, Kelly Margarita
Carbonell Navarro, Stalin Jose

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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repository_id_str
dc.title.spa.fl_str_mv	Characterization of the current electric energy needs in subsidized residential users
title	Characterization of the current electric energy needs in subsidized residential users
spellingShingle	Characterization of the current electric energy needs in subsidized residential users Electric energy Subsidized Residential users
title_short	Characterization of the current electric energy needs in subsidized residential users
title_full	Characterization of the current electric energy needs in subsidized residential users
title_fullStr	Characterization of the current electric energy needs in subsidized residential users
title_full_unstemmed	Characterization of the current electric energy needs in subsidized residential users
title_sort	Characterization of the current electric energy needs in subsidized residential users
dc.creator.fl_str_mv	Umaña Ibáñez, Samir Silva Ortega, Jorge I Gómez Charris, Yulineth Berdugo Sarmiento, Kelly Margarita Carbonell Navarro, Stalin Jose
dc.contributor.author.spa.fl_str_mv	Umaña Ibáñez, Samir Silva Ortega, Jorge I Gómez Charris, Yulineth Berdugo Sarmiento, Kelly Margarita Carbonell Navarro, Stalin Jose
dc.subject.spa.fl_str_mv	Electric energy Subsidized Residential users
topic	Electric energy Subsidized Residential users
description	In this paper it is considered the characterization and behaviour of the residential energy demand of users located in socioeconomic sectors of the Department of Atlántico, also, the participation of communities to declare the typical energy consumption at the residential level. The results are based on direct measurement sources which allows the development of energy efficiency projects, renewable energies that respond to the needs of the communities and seek to encourage the proliferation of renewable energy projects by adequately sizing the installed capacities of the resources, with the possibility of establishing grid connection as well as systems for energy management in residential users.
publishDate	2020
dc.date.issued.none.fl_str_mv	2020
dc.date.accessioned.none.fl_str_mv	2021-01-27T14:29:48Z
dc.date.available.none.fl_str_mv	2021-01-27T14:29:48Z
dc.type.spa.fl_str_mv	Artículo de revista
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identifier_str_mv	1757-8981 1757-899X doi:10.1088/1757-899X/844/1/012034 Corporación Universidad de la Costa REDICUC - Repositorio CUC
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dc.language.iso.none.fl_str_mv	eng
language	eng
dc.relation.references.spa.fl_str_mv	[1] Livas-García A 2015 Análisis de insumo-producto de energía y observaciones sobre el desarrollo sustentable, caso mexicano 1970-2010 Ing. Investig. y Tecnol. Vol 16 no 2, pp. 239– 251 [2] Kok B and Benli B 2017 Energy diversity and nuclear energy for sustainable development in Turkey Renew. Energy vol 111 pp 870–877 [3] Vidadili N Suleymanov E Bulut C and Mahmudlu C 2017 Transition to renewable energy and sustainable energy development in Azerbaijan Renewable and Sustainable Energy Reviews vol 80 pp 1153–1161 [4] Shortall R and Kharrazi A 2017 Cultural factors of sustainable energy development: A case study of geothermal energy in Iceland and Japan Renewable and Sustainable Energy Reviews vol 79 pp 101–109 [5] Edomah N 2016 On the path to sustainability: Key issues on Nigeria’s sustainable energy development Energy Reports vol 2 pp 28–34 [6] Caspary G 2009 Gauging the future competitiveness of renewable energy in Colombia Energy Econ. vol 31 no 3 pp 443–449 [7] FEDIT and Electrónica Tecnologías de la información y Telecomunicaciones 2011 Smart Grids y la Evolución de la Red Eléctrica FEDIT p 82 [8] Kranz E Broadband Networks 2013 Smart Grids and Climate Change. New York: Springer [9] Giordano V et al 2011 Smart Grid projects in Europe : lessons learned and current developments European U. [10] Physical Measurement Laboratory Office of the National Coordinator for Smart Grid Interoperability and Information Tecnology Laboratory 2012 NIST Framework and Roadmap for Smart Grid Interoperability Standards [11] EPRI Smart grid demostration initiative final update 2014. [12] Kieny C Berseneff B, Hadjsaid N Besanger Y and Maire J 2009 On the concept and the interest of Virtual Power plant : some results from the European project pp 1–6 [13] Awerbuch S and Preston A 1997 The Virtual Utility: Accounting, Technology & Competitive Aspects of the Emerging Industry 1st ed New York: Springer US [14] Gellings C 2014 The Smart Grid: Enabling Energy Efficiency and Demand Response [15] Hatziargyriou N 2014 Microgrids: Architectures and Control [16] Chakrabortty A and Ilić M D 2012 Control and Optimization Methods for Electric Smart Grids, 1st ed New York: Springer-Verlag [17] Kaestle G 2006 Virtual Power Plants as Real CHP-Clusters: A New Approach To Coordinate in Energy 2nd International Conference on Integration of Renewable and Distributed Resources 2006. [18] Zare M and Niknam T 2013 A new multi-objective for environmental and economic management of Volt / Var Control considering renewable energy resources Energy vol 55 pp 236–252 [19] Aghaei J and Alizadeh M I 2013 Demand response in smart electricity grids equipped with renewable energy sources: A review Renew. Sustain. Energy Rev vol 18 pp 64–72 [20] Ausubel L M and Cramton PN 2010Virtual power plant auctions vol 18 [21] Carmeli M S Dezza F C Faranda R Marchegiani G and Mauri M 2006 Universal Digital Controller for Power Quality and Distributed Generation Systems pp 17–22 [22] International Energy Agency 2011 Technology Roadmap Smart Grids Paris [23] MIT 20101 The Future of the Electric Grid: An Interdisciplinary MIT Study [24] Guasch Murillo D 2003 Modelado y análisis de sistemas fotovoltaicos p 223 [25] UPME 2017 Mercado regulado y no regulado [26] Castro-Ospino A 2010 Análisis del potencial energético solar en la Región Caribe para el diseño de un sistema fotovoltaico Inge Cuc, vol 6 no 6 pp. 0–8 [27] Silva-Ortega J I Castro-Ospino A and Balbis-Morejon M 2013 Set of Elements, Parameters and considerations to get the successful inclusion of the Smart Grids in Colombian power systems in IMETI 2013 - 6th International Multi-Conference on Engineering and Technological Innovation pp 166–169 [28] Ojeda Camargo R Candelo J E and J. Silva-Ortega J I 2017 Perspectives of Native Community in La Guajira Facing Sustainable Development and Energy Supply Rev Espac vol 38 no 11 pp 25–32 [29] Ojeda Camargo E, Candelo Becerra J E, and Silva-Ortega J I 2017 Solar and wind energy potential characterization to integrate sustainable projects in native communities in La Guajira Colombia Espacios vol 38 no 37 pp. 11–27 [30] SUI 2018 Consolidado de energía por empresa y departamento [31] González J M Daza C A D and Ureña C H G 2008 Análisis del esquema de generación distribuida como una opción para el sistema elécctrico colombiano Rev. Fac. Ing. no. 44 pp 97– 110 [32] M de M y Energía CREG 1994 (Comisión Reguladora de Energía y Gas Resolución 108 de la Ley 142 de 1994) pp 1–36 [33] Ministerio de Minas y Energia 2006 Caracterización energética sectores residencial, comercial y terciario Colombia p 135
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spelling	Umaña Ibáñez, Samir5d68654559524b75d8a3f2db2de21b47Silva Ortega, Jorge I83b55aee69e99cf41061bfcc3130d4f3Gómez Charris, Yulineth521a5e3aeccf810f3207451bb1863507Berdugo Sarmiento, Kelly Margaritafab6c7236bde2d8888e705da321cda3eCarbonell Navarro, Stalin Jose2ac4ebbe2c8cbe0afa2b0e958a04686c3002021-01-27T14:29:48Z2021-01-27T14:29:48Z20201757-89811757-899Xhttps://hdl.handle.net/11323/7766doi:10.1088/1757-899X/844/1/012034Corporación Universidad de la CostaREDICUC - Repositorio CUChttps://repositorio.cuc.edu.co/In this paper it is considered the characterization and behaviour of the residential energy demand of users located in socioeconomic sectors of the Department of Atlántico, also, the participation of communities to declare the typical energy consumption at the residential level. The results are based on direct measurement sources which allows the development of energy efficiency projects, renewable energies that respond to the needs of the communities and seek to encourage the proliferation of renewable energy projects by adequately sizing the installed capacities of the resources, with the possibility of establishing grid connection as well as systems for energy management in residential users.application/pdfengCorporación Universidad de la CostaCC0 1.0 Universalhttp://creativecommons.org/publicdomain/zero/1.0/info:eu-repo/semantics/openAccesshttp://purl.org/coar/access_right/c_abf2IOP Conference Series: Materials Science and Engineeringhttps://www.researchgate.net/publication/342568056_Characterization_of_the_current_electric_energy_needs_in_subsidized_residential_usersElectric energySubsidizedResidential usersCharacterization of the current electric energy needs in subsidized residential usersArtículo 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/acceptedVersion[1] Livas-García A 2015 Análisis de insumo-producto de energía y observaciones sobre el desarrollo sustentable, caso mexicano 1970-2010 Ing. Investig. y Tecnol. Vol 16 no 2, pp. 239– 251[2] Kok B and Benli B 2017 Energy diversity and nuclear energy for sustainable development in Turkey Renew. Energy vol 111 pp 870–877[3] Vidadili N Suleymanov E Bulut C and Mahmudlu C 2017 Transition to renewable energy and sustainable energy development in Azerbaijan Renewable and Sustainable Energy Reviews vol 80 pp 1153–1161[4] Shortall R and Kharrazi A 2017 Cultural factors of sustainable energy development: A case study of geothermal energy in Iceland and Japan Renewable and Sustainable Energy Reviews vol 79 pp 101–109[5] Edomah N 2016 On the path to sustainability: Key issues on Nigeria’s sustainable energy development Energy Reports vol 2 pp 28–34[6] Caspary G 2009 Gauging the future competitiveness of renewable energy in Colombia Energy Econ. vol 31 no 3 pp 443–449[7] FEDIT and Electrónica Tecnologías de la información y Telecomunicaciones 2011 Smart Grids y la Evolución de la Red Eléctrica FEDIT p 82[8] Kranz E Broadband Networks 2013 Smart Grids and Climate Change. New York: Springer[9] Giordano V et al 2011 Smart Grid projects in Europe : lessons learned and current developments European U.[10] Physical Measurement Laboratory Office of the National Coordinator for Smart Grid Interoperability and Information Tecnology Laboratory 2012 NIST Framework and Roadmap for Smart Grid Interoperability Standards[11] EPRI Smart grid demostration initiative final update 2014.[12] Kieny C Berseneff B, Hadjsaid N Besanger Y and Maire J 2009 On the concept and the interest of Virtual Power plant : some results from the European project pp 1–6[13] Awerbuch S and Preston A 1997 The Virtual Utility: Accounting, Technology & Competitive Aspects of the Emerging Industry 1st ed New York: Springer US[14] Gellings C 2014 The Smart Grid: Enabling Energy Efficiency and Demand Response[15] Hatziargyriou N 2014 Microgrids: Architectures and Control[16] Chakrabortty A and Ilić M D 2012 Control and Optimization Methods for Electric Smart Grids, 1st ed New York: Springer-Verlag[17] Kaestle G 2006 Virtual Power Plants as Real CHP-Clusters: A New Approach To Coordinate in Energy 2nd International Conference on Integration of Renewable and Distributed Resources 2006.[18] Zare M and Niknam T 2013 A new multi-objective for environmental and economic management of Volt / Var Control considering renewable energy resources Energy vol 55 pp 236–252[19] Aghaei J and Alizadeh M I 2013 Demand response in smart electricity grids equipped with renewable energy sources: A review Renew. Sustain. Energy Rev vol 18 pp 64–72[20] Ausubel L M and Cramton PN 2010Virtual power plant auctions vol 18[21] Carmeli M S Dezza F C Faranda R Marchegiani G and Mauri M 2006 Universal Digital Controller for Power Quality and Distributed Generation Systems pp 17–22[22] International Energy Agency 2011 Technology Roadmap Smart Grids Paris[23] MIT 20101 The Future of the Electric Grid: An Interdisciplinary MIT Study[24] Guasch Murillo D 2003 Modelado y análisis de sistemas fotovoltaicos p 223[25] UPME 2017 Mercado regulado y no regulado[26] Castro-Ospino A 2010 Análisis del potencial energético solar en la Región Caribe para el diseño de un sistema fotovoltaico Inge Cuc, vol 6 no 6 pp. 0–8[27] Silva-Ortega J I Castro-Ospino A and Balbis-Morejon M 2013 Set of Elements, Parameters and considerations to get the successful inclusion of the Smart Grids in Colombian power systems in IMETI 2013 - 6th International Multi-Conference on Engineering and Technological Innovation pp 166–169[28] Ojeda Camargo R Candelo J E and J. Silva-Ortega J I 2017 Perspectives of Native Community in La Guajira Facing Sustainable Development and Energy Supply Rev Espac vol 38 no 11 pp 25–32[29] Ojeda Camargo E, Candelo Becerra J E, and Silva-Ortega J I 2017 Solar and wind energy potential characterization to integrate sustainable projects in native communities in La Guajira Colombia Espacios vol 38 no 37 pp. 11–27[30] SUI 2018 Consolidado de energía por empresa y departamento[31] González J M Daza C A D and Ureña C H G 2008 Análisis del esquema de generación distribuida como una opción para el sistema elécctrico colombiano Rev. Fac. Ing. no. 44 pp 97– 110[32] M de M y Energía CREG 1994 (Comisión Reguladora de Energía y Gas Resolución 108 de la Ley 142 de 1994) pp 1–36[33] Ministerio de Minas y Energia 2006 Caracterización energética sectores residencial, comercial y terciario Colombia p 135ORIGINALCharacterization of the current electric energy needs in subsidized residential users.pdfCharacterization of the current electric energy needs in subsidized residential users.pdfapplication/pdf696933https://repositorio.cuc.edu.co/bitstream/11323/7766/1/Characterization%20of%20the%20current%20electric%20energy%20needs%20in%20subsidized%20residential%20users.pdfeb89b13c10d4d02d8d17f451b9555d85MD51open accessCC-LICENSElicense_rdflicense_rdfapplication/rdf+xml; charset=utf-8701https://repositorio.cuc.edu.co/bitstream/11323/7766/2/license_rdf42fd4ad1e89814f5e4a476b409eb708cMD52open accessLICENSElicense.txtlicense.txttext/plain; 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Characterization of the current electric energy needs in subsidized residential users

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