Citas bibligráficas
Rafael, M., (2021). Rediseño del sistema de protecciones de las redes aéreas de 13.8 kV del campo petrolero Lote X para la reducción de interrupciones eléctricas y de la producción diferida de crudo [Tesis, Universidad Nacional de Ingeniería]. http://hdl.handle.net/20.500.14076/22188
Rafael, M., Rediseño del sistema de protecciones de las redes aéreas de 13.8 kV del campo petrolero Lote X para la reducción de interrupciones eléctricas y de la producción diferida de crudo [Tesis]. PE: Universidad Nacional de Ingeniería; 2021. http://hdl.handle.net/20.500.14076/22188
@misc{renati/711752,
title = "Rediseño del sistema de protecciones de las redes aéreas de 13.8 kV del campo petrolero Lote X para la reducción de interrupciones eléctricas y de la producción diferida de crudo",
author = "Rafael Maynasa, Miguel Angel",
publisher = "Universidad Nacional de Ingeniería",
year = "2021"
}
This investigation has relation with the evaluation of 13.8kV electrical protection system from oil field Block X due to interruptions caused by short circuits, this has meant important oil production and revenue losses. The main objective of this research was to redesign the electrical protection system of network in 13.8 kV in order to minimize interruptions index and deferred oil production. Qualitative and quantitative approach techniques were applied as investigation methodology, also experimental design was used so I had to recover field information and medium voltage electrical failures records that occurred between 2010 and 2019. After problematic situation analysis, the addition of reclosers (without reclosing function) was proposed as additional protection elements for 13.8 kV networks. Through the ETAP simulation software, power flow calculations, short-circuit calculations and protection coordination analysis were executed, this allowed to validate the recloser as a protection element. The economic aspect was also validated with its respective risk analysis through the Monte Carlo simulation through @Risk software. Finally, it was concluded that the redesign of protections of the 13.8 kV networks allows to minimize the electrical interruptions of Block X, with the consequent advantages for obtaining higher production and sales.
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