A Methodology to Estimation of Savings Potential at Thermoelectric Plants in Colombia Based on ISO 50001 Standard

The ISO 50001:2018 standard establishes a standardized set of concepts and practices for energy management of industrial assets and processes, providing criteria to establish policies, processes, procedures, and tasks related to energy management to meet established energy objectives. This article p...

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Autores:: Tabares, Juan José
Valencia, Melissa
Chamorro, Jose E.
Tibaquirá, Juan E.
Quispe Oqueña, Enrique Ciro
Vidal Medina, Juan Ricardo

Tipo de recurso:: Article of journal

Fecha de publicación:: 2023

Institución:: Universidad Autónoma de Occidente

Repositorio:: RED: Repositorio Educativo Digital UAO

Idioma:: eng

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dc.title.spa.fl_str_mv	A Methodology to Estimation of Savings Potential at Thermoelectric Plants in Colombia Based on ISO 50001 Standard
title	A Methodology to Estimation of Savings Potential at Thermoelectric Plants in Colombia Based on ISO 50001 Standard
spellingShingle	A Methodology to Estimation of Savings Potential at Thermoelectric Plants in Colombia Based on ISO 50001 Standard Energy Efficiency Energy Management ISO 50001 Thermoelectric power plants
title_short	A Methodology to Estimation of Savings Potential at Thermoelectric Plants in Colombia Based on ISO 50001 Standard
title_full	A Methodology to Estimation of Savings Potential at Thermoelectric Plants in Colombia Based on ISO 50001 Standard
title_fullStr	A Methodology to Estimation of Savings Potential at Thermoelectric Plants in Colombia Based on ISO 50001 Standard
title_full_unstemmed	A Methodology to Estimation of Savings Potential at Thermoelectric Plants in Colombia Based on ISO 50001 Standard
title_sort	A Methodology to Estimation of Savings Potential at Thermoelectric Plants in Colombia Based on ISO 50001 Standard
dc.creator.fl_str_mv	Tabares, Juan José Valencia, Melissa Chamorro, Jose E. Tibaquirá, Juan E. Quispe Oqueña, Enrique Ciro Vidal Medina, Juan Ricardo
dc.contributor.author.none.fl_str_mv	Tabares, Juan José Valencia, Melissa Chamorro, Jose E. Tibaquirá, Juan E. Quispe Oqueña, Enrique Ciro Vidal Medina, Juan Ricardo
dc.subject.proposal.eng.fl_str_mv	Energy Efficiency Energy Management ISO 50001 Thermoelectric power plants
topic	Energy Efficiency Energy Management ISO 50001 Thermoelectric power plants
description	The ISO 50001:2018 standard establishes a standardized set of concepts and practices for energy management of industrial assets and processes, providing criteria to establish policies, processes, procedures, and tasks related to energy management to meet established energy objectives. This article presents the application of these tools in thermal power generation systems in Colombia to analyze their energy performance, study posible saving potentials and propose strategies to improve their energy efficiency. As a result, a savings potential of 18568.4 GWh and 2008.7 GWh in 15 years was found for operation, maintenance, and production planning, respectively
publishDate	2023
dc.date.issued.none.fl_str_mv	2023-03
dc.date.accessioned.none.fl_str_mv	2024-09-17T13:13:21Z
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dc.identifier.citation.spa.fl_str_mv	Tabares, J. J., et. al. (2023). A Methodology to Estimation of Savings Potential at Thermoelectric Plants in Colombia Based on ISO 50001 Standard. International Journal of Energy Economics and Policy. 13(2). p.p 417-426. DOI:10.32479/ijeep.13975
dc.identifier.other.spa.fl_str_mv	DOI:10.32479/ijeep.13975
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dc.identifier.eissn.spa.fl_str_mv	21464553
dc.identifier.instname.spa.fl_str_mv	Universidad Autónoma de Occidente
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identifier_str_mv	Tabares, J. J., et. al. (2023). A Methodology to Estimation of Savings Potential at Thermoelectric Plants in Colombia Based on ISO 50001 Standard. International Journal of Energy Economics and Policy. 13(2). p.p 417-426. DOI:10.32479/ijeep.13975 DOI:10.32479/ijeep.13975 21464553 Universidad Autónoma de Occidente Respositorio Educativo Digital UAO
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dc.relation.citationendpage.spa.fl_str_mv	426
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dc.relation.citationstartpage.spa.fl_str_mv	417
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dc.relation.ispartofjournal.eng.fl_str_mv	International Journal of Energy Economics and Policy
dc.relation.references.none.fl_str_mv	Blanco, J.M., Peña, F. (2011), Incremento de la eficiencia en centrales termoeléctricas por aprovechamiento de los gases de la combustión. Información Tecnológica, 22(4), 15-22. Bonacina, F., Corsini, A., de Propris, L., Marchegiani, A., Mori, F. (2015), Industrial energy management systems in Italy: State of the art and perspective. Energy Procedia, 82, 562-569. Brereton, R.G. (2019), The use and misuse of p values and related concepts. Chemometrics and Intelligent Laboratory Systems, 195, 103884. Congreso de la República de Colombia. (2014), Ley 1715 de 2014-Gestor Normativo-Función Pública. Available from: https://www. funcionpublica.gov.co/eva/gestornormativo/norma.php?i=57353 [Last accessed on 2022 Sep 26]. Dall’O’, G., Ferrari, S., Bruni, E., Bramonti, L. (2020), Effective implementation of ISO 50001: A case study on energy management for heating load reduction for a social building stock in Northern Italy. Energy and Buildings, 219, 110029. Damon Matthews, H., Gillett, N.P., Stott, P.A., Zickfeld, K. (2009), The proportionality of global warming to cumulative carbon emissions. Nature, 459, 08047. Estrada Gasca, C.A. (2013), Transición energética, energías renovables y energía solar de potencia. Revista Mexicana de Física, 59(2), 75-84. Fichera, A., Volpe, R., Cutore, E. (2020), Energy performance measurement, monitoring and control for buildings of public organizations: Standardized practises compliant with the ISO 50001 and ISO 50006. Developments in the Built Environment, 4, 100024. ISO Tools Excellence. (2022), ISO 50001. Available from: https://www. isotools.org/normas/medio-ambiente/iso-50001 [Last accessed on 2022 Sep 26]. Kanneganti, H., Gopalakrishnan, B., Crowe, E., Al-Shebeeb, O., Yelamanchi, T., Nimbarte, A., Currie, K., Abolhassani, A. (2017), Specification of energy assessment methodologies to satisfy ISO 50001 energy management standard. Sustainable Energy Technologies and Assessments, 23, 121-135. Knowlson, C., Dean, A., Doherty, L., Fairhurst, C., Brealey, S., Torgerson, D.J. (2022), Recruitment patterns in multicentre randomised trials fit more closely to Price’s Law than the Pareto Principle: A review of trials funded and published by the United Kingdom Health Technology Assessment Programme. Contemporary Clinical Trials, 113, 106665. Medina, J.R.V., Chaves, J.D., Gallego, M.I., Gonzalez, F., Aguilar, D., Quispe, E.C. (2020), Estimation of the energy saving potentials in foundry industries based on ISO 50001S. IEEE Latin America Transactions, 18(12), 2155-2165. Ministerio de Ambiente y Desarrollo Sostenible. (2020), Actualización de la Contribución Determinada a Nivel Nacional de Colombia (NDC). Available from: https://www.minambiente.gov.co/wp-content/ uploads/2021/10/informe-actualizacion-contribucion-determinada- Colombia-ndc-2020.pdf Ministerio de Minas y Energía, & Unidad de Planeación Minero- Energética. (2019), Plan Energético Nacional 2020-2050. Colombia: Ministerio de Minas y Energía. Normas ISO. (2022), ISO 50001-Gestión de la energía: Norma UNE ISO 50001:2011. Available from: https://www.normas-iso.com/iso-50001 [Last accessed on 2022 Sep 26]. Pelser, W.A., Vosloo, J.C., Mathews, M.J. (2018), Results and prospects of applying an ISO 50001 based reporting system on a cement plant. Journal of Cleaner Production, 198, 642-653. Resolución 40807_2018. (2018), Testimony of Ministerio de Minas y Energía. Available from: https://www.gestornormativo.creg.gov.co/ gestor/entorno/docs/resolucion_minminas_40807_2018.htm Schleussner, C.F., Rogelj, J., Schaeffer, M., Lissner, T., Licker, R., Fischer, E.M., Knutti, R., Levermann, A., Frieler, K., Hare, W. (2016), Science and policy characteristics of the Paris Agreement temperature goal. Nature Climate Change, 6(9), 827-835. Thollander, P., Ottosson, M. (2010), Energy management practices in Swedish energy-intensive industries. Journal of Cleaner Production, 18(12), 1125-1133. Unidad de Planeación Minero-Energética. (2016), Calculadora de Emisiones. Available from: https://www.upme.gov.co/calculadora_ emisiones/aplicacion/calculadora.html [Last accessed on 2022 Sep 26]. Unidad de Planeación Minero-Energética. (2022), Balance Energético de Colombia. Available from: https://www.1.upme.gov.co/ DemandayEficiencia/Paginas/BECO-Consulta.aspx [Last accessed on 2022 Sep 26]. Unidad Nacional Para la Gestión del Riesgo de Desastres. (2016), Fenómeno del Niño-Análisis Compartativo 1997-1998 y 2014-2016. Available from: https://www.repositorio.gestiondelriesgo.gov. co/bitstream/handle/20.500.11762/20564/Fenomeno_nino-2016. pdf?sequence=3&isAllowed=y World Energy Council for Sustainable Energy. (2010), Energy Efficiency: A Recipe for Success-Executive Summary. Available from: https:// www.worldenergy.org [Last accessed on 2022 Sep 26]. XM. (2022), Históricos de Oferta y Generación de Electricidad. Available from: https://www.sinergox.xm.com.co/oferta/Paginas/Historicos/ Historicos.aspx?RootFolder=%2Foferta%2FHistricos%2FGenerac i%C3%B3n&Folder CTID=0x012000B3FC86CB37661147B52C AE93637C1249&View=%7B946210C0%2D4071%2D4173%2D 964C%2DED5BCCE4E66C%7D
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spelling	Tabares, Juan JoséValencia, MelissaChamorro, Jose E.Tibaquirá, Juan E.Quispe Oqueña, Enrique Cirovirtual::5683-1Vidal Medina, Juan Ricardovirtual::5684-12024-09-17T13:13:21Z2024-09-17T13:13:21Z2023-03Tabares, J. J., et. al. (2023). A Methodology to Estimation of Savings Potential at Thermoelectric Plants in Colombia Based on ISO 50001 Standard. International Journal of Energy Economics and Policy. 13(2). p.p 417-426. DOI:10.32479/ijeep.13975DOI:10.32479/ijeep.13975https://hdl.handle.net/10614/1582821464553Universidad Autónoma de OccidenteRespositorio Educativo Digital UAOhttps://red.uao.edu.co/The ISO 50001:2018 standard establishes a standardized set of concepts and practices for energy management of industrial assets and processes, providing criteria to establish policies, processes, procedures, and tasks related to energy management to meet established energy objectives. This article presents the application of these tools in thermal power generation systems in Colombia to analyze their energy performance, study posible saving potentials and propose strategies to improve their energy efficiency. As a result, a savings potential of 18568.4 GWh and 2008.7 GWh in 15 years was found for operation, maintenance, and production planning, respectively10 páginasapplication/pdfengMersin: EconJournalsTurkeyDerechos reservados - Mersin : EconJournals, 2023https://creativecommons.org/licenses/by-nc-nd/4.0/info:eu-repo/semantics/openAccessAtribución-NoComercial-SinDerivadas 4.0 Internacional (CC BY-NC-ND 4.0)http://purl.org/coar/access_right/c_abf2A Methodology to Estimation of Savings Potential at Thermoelectric Plants in Colombia Based on ISO 50001 StandardArtículo 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/publishedVersionhttp://purl.org/coar/version/c_970fb48d4fbd8a85426241713International Journal of Energy Economics and PolicyBlanco, J.M., Peña, F. (2011), Incremento de la eficiencia en centrales termoeléctricas por aprovechamiento de los gases de la combustión. Información Tecnológica, 22(4), 15-22. Bonacina, F., Corsini, A., de Propris, L., Marchegiani, A., Mori, F. (2015), Industrial energy management systems in Italy: State of the art and perspective. Energy Procedia, 82, 562-569. Brereton, R.G. (2019), The use and misuse of p values and related concepts. Chemometrics and Intelligent Laboratory Systems, 195, 103884. Congreso de la República de Colombia. (2014), Ley 1715 de 2014-Gestor Normativo-Función Pública. Available from: https://www. funcionpublica.gov.co/eva/gestornormativo/norma.php?i=57353 [Last accessed on 2022 Sep 26]. Dall’O’, G., Ferrari, S., Bruni, E., Bramonti, L. (2020), Effective implementation of ISO 50001: A case study on energy management for heating load reduction for a social building stock in Northern Italy. Energy and Buildings, 219, 110029. Damon Matthews, H., Gillett, N.P., Stott, P.A., Zickfeld, K. (2009), The proportionality of global warming to cumulative carbon emissions. Nature, 459, 08047. Estrada Gasca, C.A. (2013), Transición energética, energías renovables y energía solar de potencia. Revista Mexicana de Física, 59(2), 75-84. Fichera, A., Volpe, R., Cutore, E. (2020), Energy performance measurement, monitoring and control for buildings of public organizations: Standardized practises compliant with the ISO 50001 and ISO 50006. Developments in the Built Environment, 4, 100024. ISO Tools Excellence. (2022), ISO 50001. Available from: https://www. isotools.org/normas/medio-ambiente/iso-50001 [Last accessed on 2022 Sep 26]. Kanneganti, H., Gopalakrishnan, B., Crowe, E., Al-Shebeeb, O., Yelamanchi, T., Nimbarte, A., Currie, K., Abolhassani, A. (2017), Specification of energy assessment methodologies to satisfy ISO 50001 energy management standard. Sustainable Energy Technologies and Assessments, 23, 121-135. Knowlson, C., Dean, A., Doherty, L., Fairhurst, C., Brealey, S., Torgerson, D.J. (2022), Recruitment patterns in multicentre randomised trials fit more closely to Price’s Law than the Pareto Principle: A review of trials funded and published by the United Kingdom Health Technology Assessment Programme. Contemporary Clinical Trials, 113, 106665. Medina, J.R.V., Chaves, J.D., Gallego, M.I., Gonzalez, F., Aguilar, D., Quispe, E.C. (2020), Estimation of the energy saving potentials in foundry industries based on ISO 50001S. IEEE Latin America Transactions, 18(12), 2155-2165. Ministerio de Ambiente y Desarrollo Sostenible. (2020), Actualización de la Contribución Determinada a Nivel Nacional de Colombia (NDC). Available from: https://www.minambiente.gov.co/wp-content/ uploads/2021/10/informe-actualizacion-contribucion-determinada- Colombia-ndc-2020.pdf Ministerio de Minas y Energía, & Unidad de Planeación Minero- Energética. (2019), Plan Energético Nacional 2020-2050. Colombia: Ministerio de Minas y Energía. Normas ISO. (2022), ISO 50001-Gestión de la energía: Norma UNE ISO 50001:2011. Available from: https://www.normas-iso.com/iso-50001 [Last accessed on 2022 Sep 26]. Pelser, W.A., Vosloo, J.C., Mathews, M.J. (2018), Results and prospects of applying an ISO 50001 based reporting system on a cement plant. Journal of Cleaner Production, 198, 642-653. Resolución 40807_2018. (2018), Testimony of Ministerio de Minas y Energía. Available from: https://www.gestornormativo.creg.gov.co/ gestor/entorno/docs/resolucion_minminas_40807_2018.htm Schleussner, C.F., Rogelj, J., Schaeffer, M., Lissner, T., Licker, R., Fischer, E.M., Knutti, R., Levermann, A., Frieler, K., Hare, W. (2016), Science and policy characteristics of the Paris Agreement temperature goal. Nature Climate Change, 6(9), 827-835. Thollander, P., Ottosson, M. (2010), Energy management practices in Swedish energy-intensive industries. Journal of Cleaner Production, 18(12), 1125-1133. Unidad de Planeación Minero-Energética. (2016), Calculadora de Emisiones. Available from: https://www.upme.gov.co/calculadora_ emisiones/aplicacion/calculadora.html [Last accessed on 2022 Sep 26]. Unidad de Planeación Minero-Energética. (2022), Balance Energético de Colombia. Available from: https://www.1.upme.gov.co/ DemandayEficiencia/Paginas/BECO-Consulta.aspx [Last accessed on 2022 Sep 26]. Unidad Nacional Para la Gestión del Riesgo de Desastres. (2016), Fenómeno del Niño-Análisis Compartativo 1997-1998 y 2014-2016. Available from: https://www.repositorio.gestiondelriesgo.gov. co/bitstream/handle/20.500.11762/20564/Fenomeno_nino-2016. pdf?sequence=3&isAllowed=y World Energy Council for Sustainable Energy. (2010), Energy Efficiency: A Recipe for Success-Executive Summary. Available from: https:// www.worldenergy.org [Last accessed on 2022 Sep 26]. XM. (2022), Históricos de Oferta y Generación de Electricidad. 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A Methodology to Estimation of Savings Potential at Thermoelectric Plants in Colombia Based on ISO 50001 Standard

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