Monitoring electromagnetic fields and safe operation levels in electrical power transmission lines

Electrical power systems and their elements such as power transformers, transmission lines, capacitors, reactors and other elements, during normal operation generates electromagnetic fields that changes according with design, equipment distribution, current and voltage operation levels. This paper d...

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Autores:
Cardenas Escorcia, Yulineth del Carmen
Valencia Ochoa, Guillermo Eliecer
Silva Ortega, Jorge Iván
Tipo de recurso:
Article of journal
Fecha de publicación:
2018
Institución:
Corporación Universidad de la Costa
Repositorio:
REDICUC - Repositorio CUC
Idioma:
eng
OAI Identifier:
oai:repositorio.cuc.edu.co:11323/1738
Acceso en línea:
https://hdl.handle.net/11323/1738
https://repositorio.cuc.edu.co/
Palabra clave:
electromagnetic field
safe operation levels
electrical power transmission and distribution lines
Non-Ionizing Radiation
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openAccess
License
Atribución – No comercial – Compartir igual
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oai_identifier_str oai:repositorio.cuc.edu.co:11323/1738
network_acronym_str RCUC2
network_name_str REDICUC - Repositorio CUC
repository_id_str
dc.title.eng.fl_str_mv Monitoring electromagnetic fields and safe operation levels in electrical power transmission lines
title Monitoring electromagnetic fields and safe operation levels in electrical power transmission lines
spellingShingle Monitoring electromagnetic fields and safe operation levels in electrical power transmission lines
electromagnetic field
safe operation levels
electrical power transmission and distribution lines
Non-Ionizing Radiation
title_short Monitoring electromagnetic fields and safe operation levels in electrical power transmission lines
title_full Monitoring electromagnetic fields and safe operation levels in electrical power transmission lines
title_fullStr Monitoring electromagnetic fields and safe operation levels in electrical power transmission lines
title_full_unstemmed Monitoring electromagnetic fields and safe operation levels in electrical power transmission lines
title_sort Monitoring electromagnetic fields and safe operation levels in electrical power transmission lines
dc.creator.fl_str_mv Cardenas Escorcia, Yulineth del Carmen
Valencia Ochoa, Guillermo Eliecer
Silva Ortega, Jorge Iván
dc.contributor.author.spa.fl_str_mv Cardenas Escorcia, Yulineth del Carmen
Valencia Ochoa, Guillermo Eliecer
dc.contributor.author.none.fl_str_mv Silva Ortega, Jorge Iván
dc.subject.eng.fl_str_mv electromagnetic field
safe operation levels
electrical power transmission and distribution lines
Non-Ionizing Radiation
topic electromagnetic field
safe operation levels
electrical power transmission and distribution lines
Non-Ionizing Radiation
description Electrical power systems and their elements such as power transformers, transmission lines, capacitors, reactors and other elements, during normal operation generates electromagnetic fields that changes according with design, equipment distribution, current and voltage operation levels. This paper describes the monitoring electromagnetic fields and safe operation levels in electrical power transmission and distribution lines during the last five years in power lines located in warm climate with high salinity, corrosion and pollution level. A literature review was considered during the study. This paper characterizes power lines in order to guarantee safe operation to occupational exposure and general public since planning process. Results will be used in order to characterize power lines and will be used as a tool for utilities with the aim to reduce legal penalties and promote social responsibility. Results also were contrasted with International Commission on Non-Ionizing Radiation Protection (ICNIRP) recommendations with the reference levels for occupational exposure to time-varying electric and magnetic fields. Results provide recommendations for electrical grid utilities also the study compare real values with simulated values in order to guarantee an acceptable approach according with ICNIRP and international standards recommendations
publishDate 2018
dc.date.accessioned.none.fl_str_mv 2018-11-23T14:15:29Z
dc.date.available.none.fl_str_mv 2018-11-23T14:15:29Z
dc.date.issued.none.fl_str_mv 2018
dc.type.spa.fl_str_mv Artículo de revista
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dc.type.content.spa.fl_str_mv Text
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dc.identifier.issn.spa.fl_str_mv 2283-9216
dc.identifier.uri.spa.fl_str_mv https://hdl.handle.net/11323/1738
dc.identifier.instname.spa.fl_str_mv Corporación Universidad de la Costa
dc.identifier.reponame.spa.fl_str_mv REDICUC - Repositorio CUC
dc.identifier.repourl.spa.fl_str_mv https://repositorio.cuc.edu.co/
identifier_str_mv 2283-9216
Corporación Universidad de la Costa
REDICUC - Repositorio CUC
url https://hdl.handle.net/11323/1738
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dc.language.iso.none.fl_str_mv eng
language eng
dc.relation.references.spa.fl_str_mv Electric Power Research Institute. (2005). EPRI AC Transmission Line Reference Book--200 kV and Above, Third Edition, 1–1074. Gajšek, P., Ravazzani, P., Grellier, J., Samaras, T., Bakos, J., & Thuróczy, G. (2016). Review of studies concerning electromagnetic field (EMF) exposure assessment in Europe: Low frequency fields (50 Hz–100 kHz). International Journal of Environmental Research and Public Health, 13(9), 1–14. http://doi.org/10.3390/ijerph13090875 ICNIRP. (1998). Guidelines for limiting exposure to time-varying electric, magnetic and electromagneic fields (up to 300 GHz). Health Physics, 75(4), 494–522. IEEE. IEEE 644-1994. Standard Procedures for Measurement of Power Frequency Electric and Magnetic Fields From AC Power Lines (1994). IEEE. IEEE C95.6-2002. Standard for Safety Levels with Respect to Human Exposure to Electromagnetic Fields, 0–3 kHz, Electronics 50 (2002). New York. http://doi.org/10.1109/MPER.1995.350411 Jiang, M., Chen, T., Zhao, Y., Wu, Q., Feng, B., Xiong, S., & Wang, B. (2017). Effects of high voltage pulsed electric field on antioxidant activity of tea polyphenols for yunnan pu’er tea. Chemical Engineering Transactions, 62, 319–324. http://doi.org/10.3303/CET1762210 Kesari, K. K., Siddiqui, M. H., Meena, R., Verma, H. N., & Kumar, S. (2013). Cell phone radiation exposure on brain and associated biological systems. Indian Journal of Experimental Biology, 51(3), 187–200. http://doi.org/10.1016/j.biopha.2007.12.004 McColl, N., Auvinen, A., Kesminiene, A., Espina, C., Erdmann, F., de Vries, E., … Schüz, J. (2015). European Code against Cancer 4th Edition: Ionising and non-ionising radiation and cancer. Cancer Epidemiology, 39, S93–S100. http://doi.org/10.1016/j.canep.2015.03.016 Ministerio De Minas Y Energía. Reglamento Técnico de Instalaciones Eléctricas (RETIE) (2013). Colombia. Ramos, G., Velósquez, P., Acevedo, P., Santis, A., Rincón, J., & López, A. (2017). Electromagnetic model for determining the speed of absorptive photonic in a solar collector in V (V-collector). Chemical Engineering Transactions, 57, 1609–1614. http://doi.org/10.3303/CET1757269 Sadiku, M. (2014). Elements of electromagnetics (6th ed.). New York: Oxford University Press. Silva-Ortega, J. ivan, Hernandez-Herrera, H., & Gomez-Sandoval, E. (2015). Evaluation and Modeling of the Variation of Electromagnetic Field on the Cross Section of a Transmission Line Using Finite Difference Method. Systematics, Cybernetics and Informatics, 13(3), 89–93. Suárez, D., Marín, O., & Salazar, V. (2017). Biomass Production And Morpho ‐ Phsysiological Effects On Sunflower Plants ( Helianthus Annuss L .) Under Induced Magnetic Fiels. Chemical Engineering Transactions, 57, 115–120. http://doi.org/10.3303/CET1757020 Terzi, M., Ozberk, B., Deniz, O. G., & Kaplan, S. (2016). The role of electromagnetic fields in neurological disorders. Journal of Chemical Neuroanatomy, 75, 77–84. http://doi.org/10.1016/j.jchemneu.2016.04.003 Tsaprouni, P., Skamnakis, Ν., Tzoumanika, C., Kalampaliki, E., Karastergios, E., Gialofas, A., … Karabetsos, E. (2018). Physica Medica Occupational exposure to electromagnetic fi elds . The situation in Greece, 49(May), 83–89.
dc.rights.spa.fl_str_mv Atribución – No comercial – Compartir igual
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spelling Cardenas Escorcia, Yulineth del CarmenValencia Ochoa, Guillermo EliecerSilva Ortega, Jorge Ivánvirtual::657-12018-11-23T14:15:29Z2018-11-23T14:15:29Z20182283-9216https://hdl.handle.net/11323/1738Corporación Universidad de la CostaREDICUC - Repositorio CUChttps://repositorio.cuc.edu.co/Electrical power systems and their elements such as power transformers, transmission lines, capacitors, reactors and other elements, during normal operation generates electromagnetic fields that changes according with design, equipment distribution, current and voltage operation levels. This paper describes the monitoring electromagnetic fields and safe operation levels in electrical power transmission and distribution lines during the last five years in power lines located in warm climate with high salinity, corrosion and pollution level. A literature review was considered during the study. This paper characterizes power lines in order to guarantee safe operation to occupational exposure and general public since planning process. Results will be used in order to characterize power lines and will be used as a tool for utilities with the aim to reduce legal penalties and promote social responsibility. Results also were contrasted with International Commission on Non-Ionizing Radiation Protection (ICNIRP) recommendations with the reference levels for occupational exposure to time-varying electric and magnetic fields. Results provide recommendations for electrical grid utilities also the study compare real values with simulated values in order to guarantee an acceptable approach according with ICNIRP and international standards recommendationsSilva Ortega, Jorge Ivan-0000-0002-7813-0142-600Cardenas Escorcia, Yulineth del Carmen-0000-0002-9841-701X-600Valencia Ochoa, Guillermo Eliecer-badc27cf-8d52-48c7-8cc8-5ffbe0292696-0engChemical Engineering TransactionsAtribución – No comercial – Compartir igualinfo:eu-repo/semantics/openAccesshttp://purl.org/coar/access_right/c_abf2electromagnetic fieldsafe operation levelselectrical power transmission and distribution linesNon-Ionizing RadiationMonitoring electromagnetic fields and safe operation levels in electrical power transmission linesArtículo 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/acceptedVersionElectric Power Research Institute. (2005). EPRI AC Transmission Line Reference Book--200 kV and Above, Third Edition, 1–1074. Gajšek, P., Ravazzani, P., Grellier, J., Samaras, T., Bakos, J., & Thuróczy, G. (2016). Review of studies concerning electromagnetic field (EMF) exposure assessment in Europe: Low frequency fields (50 Hz–100 kHz). International Journal of Environmental Research and Public Health, 13(9), 1–14. http://doi.org/10.3390/ijerph13090875 ICNIRP. (1998). Guidelines for limiting exposure to time-varying electric, magnetic and electromagneic fields (up to 300 GHz). Health Physics, 75(4), 494–522. IEEE. IEEE 644-1994. Standard Procedures for Measurement of Power Frequency Electric and Magnetic Fields From AC Power Lines (1994). IEEE. IEEE C95.6-2002. Standard for Safety Levels with Respect to Human Exposure to Electromagnetic Fields, 0–3 kHz, Electronics 50 (2002). New York. http://doi.org/10.1109/MPER.1995.350411 Jiang, M., Chen, T., Zhao, Y., Wu, Q., Feng, B., Xiong, S., & Wang, B. (2017). Effects of high voltage pulsed electric field on antioxidant activity of tea polyphenols for yunnan pu’er tea. Chemical Engineering Transactions, 62, 319–324. http://doi.org/10.3303/CET1762210 Kesari, K. K., Siddiqui, M. H., Meena, R., Verma, H. N., & Kumar, S. (2013). Cell phone radiation exposure on brain and associated biological systems. Indian Journal of Experimental Biology, 51(3), 187–200. http://doi.org/10.1016/j.biopha.2007.12.004 McColl, N., Auvinen, A., Kesminiene, A., Espina, C., Erdmann, F., de Vries, E., … Schüz, J. (2015). European Code against Cancer 4th Edition: Ionising and non-ionising radiation and cancer. Cancer Epidemiology, 39, S93–S100. http://doi.org/10.1016/j.canep.2015.03.016 Ministerio De Minas Y Energía. Reglamento Técnico de Instalaciones Eléctricas (RETIE) (2013). Colombia. Ramos, G., Velósquez, P., Acevedo, P., Santis, A., Rincón, J., & López, A. (2017). Electromagnetic model for determining the speed of absorptive photonic in a solar collector in V (V-collector). Chemical Engineering Transactions, 57, 1609–1614. http://doi.org/10.3303/CET1757269 Sadiku, M. (2014). Elements of electromagnetics (6th ed.). New York: Oxford University Press. Silva-Ortega, J. ivan, Hernandez-Herrera, H., & Gomez-Sandoval, E. (2015). Evaluation and Modeling of the Variation of Electromagnetic Field on the Cross Section of a Transmission Line Using Finite Difference Method. Systematics, Cybernetics and Informatics, 13(3), 89–93. Suárez, D., Marín, O., & Salazar, V. (2017). Biomass Production And Morpho ‐ Phsysiological Effects On Sunflower Plants ( Helianthus Annuss L .) Under Induced Magnetic Fiels. Chemical Engineering Transactions, 57, 115–120. http://doi.org/10.3303/CET1757020 Terzi, M., Ozberk, B., Deniz, O. G., & Kaplan, S. (2016). The role of electromagnetic fields in neurological disorders. Journal of Chemical Neuroanatomy, 75, 77–84. http://doi.org/10.1016/j.jchemneu.2016.04.003 Tsaprouni, P., Skamnakis, Ν., Tzoumanika, C., Kalampaliki, E., Karastergios, E., Gialofas, A., … Karabetsos, E. (2018). Physica Medica Occupational exposure to electromagnetic fi elds . 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