A 75 bus bars model to evaluate the steady state operation of a sub-transmission electrical power grid

This paper presents a 75 bus bars system interconnected with generating units, transmission lines, distribution grids and other elements seeking to model a sub-transmission grid. The survey has been focused on estimate the operating conditions of the transmission network during the steady state and...

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Autores:
Silva Ortega, Jorge I
Daza-Guzmán, J. D.
Candelo Becerra, John Edwin
Rueda-López, J. C.
Umaña Ibáñez, Samir
Salas-Navarro, Katherinne
Mercado Caruso, Nohora Nubia
Tipo de recurso:
Article of journal
Fecha de publicación:
2017
Institución:
Corporación Universidad de la Costa
Repositorio:
REDICUC - Repositorio CUC
Idioma:
por
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oai:repositorio.cuc.edu.co:11323/9020
Acceso en línea:
https://hdl.handle.net/11323/9020
https://repositorio.cuc.edu.co/
Palabra clave:
Polynomial Matrices
Eigenvalue Decomposition
Diagonalization
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openAccess
License
Attribution-NonCommercial 4.0 International
id RCUC2_ac024ca54b807019b01746b3085c6dbf
oai_identifier_str oai:repositorio.cuc.edu.co:11323/9020
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repository_id_str
dc.title.spa.fl_str_mv A 75 bus bars model to evaluate the steady state operation of a sub-transmission electrical power grid
title A 75 bus bars model to evaluate the steady state operation of a sub-transmission electrical power grid
spellingShingle A 75 bus bars model to evaluate the steady state operation of a sub-transmission electrical power grid
Polynomial Matrices
Eigenvalue Decomposition
Diagonalization
title_short A 75 bus bars model to evaluate the steady state operation of a sub-transmission electrical power grid
title_full A 75 bus bars model to evaluate the steady state operation of a sub-transmission electrical power grid
title_fullStr A 75 bus bars model to evaluate the steady state operation of a sub-transmission electrical power grid
title_full_unstemmed A 75 bus bars model to evaluate the steady state operation of a sub-transmission electrical power grid
title_sort A 75 bus bars model to evaluate the steady state operation of a sub-transmission electrical power grid
dc.creator.fl_str_mv Silva Ortega, Jorge I
Daza-Guzmán, J. D.
Candelo Becerra, John Edwin
Rueda-López, J. C.
Umaña Ibáñez, Samir
Salas-Navarro, Katherinne
Mercado Caruso, Nohora Nubia
dc.contributor.author.spa.fl_str_mv Silva Ortega, Jorge I
Daza-Guzmán, J. D.
Candelo Becerra, John Edwin
Rueda-López, J. C.
Umaña Ibáñez, Samir
Salas-Navarro, Katherinne
Mercado Caruso, Nohora Nubia
dc.subject.spa.fl_str_mv Polynomial Matrices
Eigenvalue Decomposition
Diagonalization
topic Polynomial Matrices
Eigenvalue Decomposition
Diagonalization
description This paper presents a 75 bus bars system interconnected with generating units, transmission lines, distribution grids and other elements seeking to model a sub-transmission grid. The survey has been focused on estimate the operating conditions of the transmission network during the steady state and transient using simulations tools. Results can be used to prevent, identify, and solve contingencies that affect the normal operation of the network in the short, medium and long term. They are also validated with real and updated information, demonstrating their reliability to evaluate power flow, short-circuits, reliability. Information can be used as reference by utilities, national operators in their usual activities of energy planning in the power grid. This applied survey contribute in validate operating ranges on forecasts of low, medium and high demand, control of active and reactive power; measure single and three phase levels of short-circuits in all buses; estimate the reliability of the power grid using the N-1 criteria; evaluate specific cases during steady state operation.
publishDate 2017
dc.date.issued.none.fl_str_mv 2017
dc.date.accessioned.none.fl_str_mv 2022-01-31T15:29:00Z
dc.date.available.none.fl_str_mv 2022-01-31T15:29:00Z
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dc.relation.references.spa.fl_str_mv Bai, H., & Miao, S. (2015). Hybrid flow betweenness approach for identification of vulnerable line in power system. IET in Generation, Transmission & Distribution, 12(9), 1324­1331. doi:10.1049/ietgtd.2014.1016
Balbis­Morejon, M. (2010). Caracterización Energética y Ahorro de Energía en Instituciones Educativas. Barranquilla: Educosta.
Buitrago Moyano, M., & Leon Gil, J. M. (2015). Efectos de la inversión extranjera directa sobre el crecimiento económico en Colombia: evidencia empírica 2000­2010. Apuntes del CENES, 34(59), 63­ 92.
Darko Šošić, I., & Nemanja, P. (2014). Features of Power Transfer Distribution Coefficients in power System Networks. Infoteh­Jahorina, 13, 86­90.
Das, J. C. (2011). Power system analysis: short­circuit load flow and harmonics. CRC Press.
Diaz Cruz, J. H., & Lozano Gonzalez, B. (2014). El desempeño económico y social de los departamentos colombianos en el año 2011. Contexto ­Universidad La gran Colombia, 3(1), 86 ­ 98.
Giannakis, G., Kekatos, V., Gatsis, N., Seung­Jun , K., Hao, Z., & Wollenberg, B. (2013). Monitoring and Optimization for Power Grids: A Signal Processing Perspective. IEEE in Signal Processing Magazine, 30(5), 107­128.
Giraldo Gomez, C. A. (2012). Análisis de Confiabilidad en Sistemas de Potencia Usando el Software ETAP. Cali: Editorial Academica Espanola.
Glover, J., & Sarma, M. (2003). Sistemas de potencia: análisis y diseño. Cengage Learning Editores.
Grainger, J. J., & Stevenson, W. D. (1996). Analisis de Sistemas de Potencia. Ciudad de Mexico: McGraw­Hill.
Grigoriadis, J. M.­K. (2010). Efficient Modeling and Control of Large­Scale Systems. Nueva York: Editors Javad Mohammadpour University of Houston.
Guidong, Z., Zhong, L., Bo, Z., & Wolfgang A., H. (2013). Understanding the cascading failures in Indian power grids with complex networks theory. Physica A: Statistical Mechanics and its Applications, 392(15), 3273­3280. doi://dx.doi.org/10.1016/j.physa.2013.03.003.
Holmgren, A. J. (2015). Using graph models to analyze the vulnerability of electric power networks. Risk Anal, 26(4), 955–969.
IEC 60909. (s.f.). The Calculation of Short­Circuit Currents in Three­Phase A.C. Systems. IEC.
IEEE. (2012). IEEE Std 1366 Guide for Electric Power Distribution Reliability Indices. Guia, IEEE STANDARDS ASSOCIATION, New York.
Ixtláhuatl Coronado, P. Z. (s.f.). FACTS: soluciones modernas para la industria eléctrica. Avance y Perspectiva: vol. 20.
JHNOS, Y. H. (2008). Flexible Ac Transmission Systems (FACTS) . LONDRES: EDITED IET Power and Energy Series Volume 30.
Kato, Y., Mukawa, N., & Okubo, S. (1987). A Motion Picture Coding Algorithm Using Adaptive DCT Encoding Based on Coefficient Power Distribution Classification. IEEE Journal on Selected Areas in Communications, 5(7), 1090­1099.
Keshtkar, H., Khushalani Solanki, S., & Solanki, J. (2014). Improving the Accuracy of Impedance Calculation for Distribution Power System. IEEE Transactions on in Power Delivery, 29(2), 570 ­ 579. doi:10.1109/TPWRD.2013.2276061
Montaña, J., & Silva, J. (2013). Estimation of the Lightning Parameters in the North Region of Colombia. Proceedings of the IEEE / XII SIPDA, 11­16. doi:10.1109/SIPDA.2013.6729221
Montaña, J., & Silva, J. (2014). High Frecuency Behavior of Grounding Systems Considering the Frequency Dependence of Soil Parameters. Proceedings of the 3rd. International Conference on Lightning Physics and Effects.
Montoya Quintanilla, A. L., & Fischer Wayne, D. (2003). La energía eléctrica en Baja California y el futuro de las renovables: una visión multidisciplinaria. California: UABC.
Paiva, P. C., Khodr, H. M., Dominguez­Navarro, J. A., & Yusta, J. M. (2005). Integral planning of primary­secondary distribution systems using mixed integer linear programming. IEEE Transactions on in Power Systems, 20(2), 1134 ­ 1143.
Parida, S. K., Singh, S. N., & Srivastava, S. C. (2008). Reactive power cost allocation by using a value­based approach. IET Generation, Transmission & Distribution, 3(9), 872 ­ 884.
Ramirez, C. (2003). Subestaciones de alta y extra alta tensión. Bogotá: Mejía Villegas SA.
Silva, J. (2012). Caracterización y estudio del modelo IEEE9 orientado hacia el análisis de estabilidad transitoria. INGECUC, 8(1), 173­190.
Silva, J. I., & Ospino, A. (2015). Set of Elements, Parameters and Considerations to get the successful inclusion of the Smart Grids in Colombian Power System. Revecitec, 5(2), 125­134.
Solanki, J., Hessam, K., & Khushalani Solanki, S. (2014). Improving the Accuracy of Impedance Calculation for Distribution Power System. IEEE Transaction on Power Delivery, 29(2), 570 ­ 580.
Starr, C. (1974). Research Planning for Electric Power. IEEE Transaction on Nuclear Science, 21(1), 14­17.
Unidad de Planeación Minero­Energética (UPME). (2014). Plan de expansión de referencia generación y transmisión 2014­2028. Bogota.
Vargas, M., Rondon, D., Herrera, J., Montana, J., Jimenez, D., Camargo, M., . . . Duarte, O. (2005). Grounding system modeling in EMTP/ATP based on its frequency response. IEEE Russia Power Tech,, 1(5), 27­30.
Yung, W., Wenyuan, L., & Jiping, L. (2010). Reliability Analysis of Wide­Area Measurement System. IEEE TRANSACTIONS ON POWER DELIVERY, 25(3), 1483­1491.
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spelling Silva Ortega, Jorge IDaza-Guzmán, J. D.Candelo Becerra, John EdwinRueda-López, J. C.Umaña Ibáñez, SamirSalas-Navarro, KatherinneMercado Caruso, Nohora Nubia2022-01-31T15:29:00Z2022-01-31T15:29:00Z2017https://hdl.handle.net/11323/9020Corporación Universidad de la CostaREDICUC - Repositorio CUChttps://repositorio.cuc.edu.co/This paper presents a 75 bus bars system interconnected with generating units, transmission lines, distribution grids and other elements seeking to model a sub-transmission grid. The survey has been focused on estimate the operating conditions of the transmission network during the steady state and transient using simulations tools. Results can be used to prevent, identify, and solve contingencies that affect the normal operation of the network in the short, medium and long term. They are also validated with real and updated information, demonstrating their reliability to evaluate power flow, short-circuits, reliability. Information can be used as reference by utilities, national operators in their usual activities of energy planning in the power grid. This applied survey contribute in validate operating ranges on forecasts of low, medium and high demand, control of active and reactive power; measure single and three phase levels of short-circuits in all buses; estimate the reliability of the power grid using the N-1 criteria; evaluate specific cases during steady state operation.Silva Ortega, Jorge I-will be generated-orcid-0000-0002-7813-0142-600Daza-Guzmán, J. D.Candelo Becerra, John Edwin-will be generated-orcid-0000-0002-9784-9494-600Rueda-López, J. C.Umaña Ibáñez, Samir-will be generated-orcid-0000-0001-9510-0685-600Salas-Navarro, Katherinne-will be generated-orcid-0000-0002-6290-3542-600Mercado Caruso, Nohora Nubia-will be generated-orcid-0000-0001-9261-8331-600application/pdfporCorporación Universidad de la CostaAttribution-NonCommercial 4.0 Internationalhttp://creativecommons.org/licenses/by-nc/4.0/info:eu-repo/semantics/openAccesshttp://purl.org/coar/access_right/c_abf2Espacioshttps://www.scopus.com/record/display.uri?eid=2-s2.0-85014362057&origin=inward&txGid=129e6d48a98e3bbd451975cbbd138535Polynomial MatricesEigenvalue DecompositionDiagonalizationA 75 bus bars model to evaluate the steady state operation of a sub-transmission electrical power gridArtículo 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/acceptedVersionBai, H., & Miao, S. (2015). Hybrid flow betweenness approach for identification of vulnerable line in power system. IET in Generation, Transmission & Distribution, 12(9), 1324­1331. doi:10.1049/ietgtd.2014.1016Balbis­Morejon, M. (2010). Caracterización Energética y Ahorro de Energía en Instituciones Educativas. Barranquilla: Educosta.Buitrago Moyano, M., & Leon Gil, J. M. (2015). Efectos de la inversión extranjera directa sobre el crecimiento económico en Colombia: evidencia empírica 2000­2010. Apuntes del CENES, 34(59), 63­ 92.Darko Šošić, I., & Nemanja, P. (2014). Features of Power Transfer Distribution Coefficients in power System Networks. Infoteh­Jahorina, 13, 86­90.Das, J. C. (2011). Power system analysis: short­circuit load flow and harmonics. CRC Press.Diaz Cruz, J. H., & Lozano Gonzalez, B. (2014). El desempeño económico y social de los departamentos colombianos en el año 2011. Contexto ­Universidad La gran Colombia, 3(1), 86 ­ 98.Giannakis, G., Kekatos, V., Gatsis, N., Seung­Jun , K., Hao, Z., & Wollenberg, B. (2013). Monitoring and Optimization for Power Grids: A Signal Processing Perspective. IEEE in Signal Processing Magazine, 30(5), 107­128.Giraldo Gomez, C. A. (2012). Análisis de Confiabilidad en Sistemas de Potencia Usando el Software ETAP. Cali: Editorial Academica Espanola.Glover, J., & Sarma, M. (2003). Sistemas de potencia: análisis y diseño. Cengage Learning Editores.Grainger, J. J., & Stevenson, W. D. (1996). Analisis de Sistemas de Potencia. Ciudad de Mexico: McGraw­Hill.Grigoriadis, J. M.­K. (2010). Efficient Modeling and Control of Large­Scale Systems. Nueva York: Editors Javad Mohammadpour University of Houston.Guidong, Z., Zhong, L., Bo, Z., & Wolfgang A., H. (2013). Understanding the cascading failures in Indian power grids with complex networks theory. Physica A: Statistical Mechanics and its Applications, 392(15), 3273­3280. doi://dx.doi.org/10.1016/j.physa.2013.03.003.Holmgren, A. J. (2015). Using graph models to analyze the vulnerability of electric power networks. Risk Anal, 26(4), 955–969.IEC 60909. (s.f.). The Calculation of Short­Circuit Currents in Three­Phase A.C. Systems. IEC.IEEE. (2012). IEEE Std 1366 Guide for Electric Power Distribution Reliability Indices. Guia, IEEE STANDARDS ASSOCIATION, New York.Ixtláhuatl Coronado, P. Z. (s.f.). FACTS: soluciones modernas para la industria eléctrica. Avance y Perspectiva: vol. 20.JHNOS, Y. H. (2008). Flexible Ac Transmission Systems (FACTS) . LONDRES: EDITED IET Power and Energy Series Volume 30.Kato, Y., Mukawa, N., & Okubo, S. (1987). A Motion Picture Coding Algorithm Using Adaptive DCT Encoding Based on Coefficient Power Distribution Classification. IEEE Journal on Selected Areas in Communications, 5(7), 1090­1099.Keshtkar, H., Khushalani Solanki, S., & Solanki, J. (2014). Improving the Accuracy of Impedance Calculation for Distribution Power System. IEEE Transactions on in Power Delivery, 29(2), 570 ­ 579. doi:10.1109/TPWRD.2013.2276061Montaña, J., & Silva, J. (2013). Estimation of the Lightning Parameters in the North Region of Colombia. Proceedings of the IEEE / XII SIPDA, 11­16. doi:10.1109/SIPDA.2013.6729221Montaña, J., & Silva, J. (2014). High Frecuency Behavior of Grounding Systems Considering the Frequency Dependence of Soil Parameters. Proceedings of the 3rd. International Conference on Lightning Physics and Effects.Montoya Quintanilla, A. L., & Fischer Wayne, D. (2003). La energía eléctrica en Baja California y el futuro de las renovables: una visión multidisciplinaria. California: UABC.Paiva, P. C., Khodr, H. M., Dominguez­Navarro, J. A., & Yusta, J. M. (2005). Integral planning of primary­secondary distribution systems using mixed integer linear programming. IEEE Transactions on in Power Systems, 20(2), 1134 ­ 1143.Parida, S. K., Singh, S. N., & Srivastava, S. C. (2008). Reactive power cost allocation by using a value­based approach. IET Generation, Transmission & Distribution, 3(9), 872 ­ 884.Ramirez, C. (2003). Subestaciones de alta y extra alta tensión. Bogotá: Mejía Villegas SA.Silva, J. (2012). Caracterización y estudio del modelo IEEE9 orientado hacia el análisis de estabilidad transitoria. INGECUC, 8(1), 173­190.Silva, J. I., & Ospino, A. (2015). Set of Elements, Parameters and Considerations to get the successful inclusion of the Smart Grids in Colombian Power System. Revecitec, 5(2), 125­134.Solanki, J., Hessam, K., & Khushalani Solanki, S. (2014). Improving the Accuracy of Impedance Calculation for Distribution Power System. IEEE Transaction on Power Delivery, 29(2), 570 ­ 580.Starr, C. (1974). Research Planning for Electric Power. IEEE Transaction on Nuclear Science, 21(1), 14­17.Unidad de Planeación Minero­Energética (UPME). (2014). Plan de expansión de referencia generación y transmisión 2014­2028. Bogota.Vargas, M., Rondon, D., Herrera, J., Montana, J., Jimenez, D., Camargo, M., . . . Duarte, O. (2005). Grounding system modeling in EMTP/ATP based on its frequency response. IEEE Russia Power Tech,, 1(5), 27­30.Yung, W., Wenyuan, L., & Jiping, L. (2010). Reliability Analysis of Wide­Area Measurement System. 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