Análisis del sistema de arranque en negro en la República Dominicana
Date
Subject
blackout
black-start
dispatch
maneuver
restoration
DIgSILENT
blackout
black-start
despacho
maniobra
restablecimiento
DIgSILENT
black-start
dispatch
maneuver
restoration
DIgSILENT
blackout
black-start
despacho
maniobra
restablecimiento
DIgSILENT
Language:
Journal Title
Journal ISSN
Volume Title
Publisher
Instituto Tecnológico de Santo Domingo (INTEC)
República Dominicana es un país con un sistema eléctrico vulnerable, por ello las fallas son recurrentes y las pérdidas parciales y totales del sistema son una consecuencia latente en las últimas décadas, siendo el tiempo de restablecimiento el factor de mayor importancia en estos eventos. Por otro lado, la República Dominicana se encuentra en la trayectoria de los huracanes, por lo que la red eléctrica del país se ve amenazada en la temporada ciclónica. Ante esta situación, este país no cuenta con un esquema que permita restablecer el sistema en caso de que algún fenómeno o evento natural ocasione una falla en el suministro eléctrico. En el presente documento se plantea un método de remuneración y un esquema para el restablecimiento del sistema de forma rápida y eficaz; esto se logra conociendo los puntos vulnerables del sistema, las generadoras con la capacidad de realizar el servicio de black-start y con la ayuda de herramientas de simulación para estimar el tiempo de respuesta del sistema. Para la realización de este programa se plantea la situación actual del sistema y se compara con países similares que tengan un sistema de restablecimiento óptimo, analizando las maniobras y variables tomadas en cuenta para su realización. Adicionalmente, se plantea el impacto de este algoritmo en los ámbitos económico, social, legal, técnico y ambiental evidenciando el antes y después del sistema eléctrico dominicano con la implementación de la propuesta, además de observarse los ahorros financieros que tendría el Sistema Eléctrico Nacional Interconectado (SENI) al implementar dicha metodología.
The Dominican Republic is a country with a vulnerable electrical system. Failures in this are recurrent and partial and total losses of the system have been a latent consequence in the last decades, being the time of restoration, the most important factor in these events. The Dominican Republic is in the path of hurricanes, so the country's electricity grid is threatened in hurricane season, given this situation, there is no scheme to restore the system when these phenomena cause a blackout in the country. In this document we propose a method of remuneration and a scheme for the restoration of the system quickly and efficiently. This is achieved by knowing the vulnerable points of the system, the generators with the ability to perform the black-start service and with the help of simulation tools to estimate the response time of the system. To carry out this program, the current situation of the system is considered and compared with similar countries that have an optimal restoration system analyzing the maneuvers and variables considered for their realization. In addition, the impact of this algorithm is raised in the economic, social, legal, technical and environmental areas, evidencing the before and after of the Dominican electricity system with the implementation of the proposal, in addition to observing the financial savings that the National Interconnected Electric System (SENI) would have when implementing this methodology.
The Dominican Republic is a country with a vulnerable electrical system. Failures in this are recurrent and partial and total losses of the system have been a latent consequence in the last decades, being the time of restoration, the most important factor in these events. The Dominican Republic is in the path of hurricanes, so the country's electricity grid is threatened in hurricane season, given this situation, there is no scheme to restore the system when these phenomena cause a blackout in the country. In this document we propose a method of remuneration and a scheme for the restoration of the system quickly and efficiently. This is achieved by knowing the vulnerable points of the system, the generators with the ability to perform the black-start service and with the help of simulation tools to estimate the response time of the system. To carry out this program, the current situation of the system is considered and compared with similar countries that have an optimal restoration system analyzing the maneuvers and variables considered for their realization. In addition, the impact of this algorithm is raised in the economic, social, legal, technical and environmental areas, evidencing the before and after of the Dominican electricity system with the implementation of the proposal, in addition to observing the financial savings that the National Interconnected Electric System (SENI) would have when implementing this methodology.
Description
Type
info:eu-repo/semantics/article
info:eu-repo/semantics/publishedVersion
info:eu-repo/semantics/publishedVersion
Source
Science, Engineering and Applications; Vol 2 No 2 (2019): Science, Engineering and Applications; 29-49
Ciencia, Ingenierías y Aplicaciones; Vol. 2 Núm. 2 (2019): Ciencia, Ingenierías y Aplicaciones; 29-49
2636-2171
2636-218X
10.22206/cyap.2019.v2i2
Ciencia, Ingenierías y Aplicaciones; Vol. 2 Núm. 2 (2019): Ciencia, Ingenierías y Aplicaciones; 29-49
2636-2171
2636-218X
10.22206/cyap.2019.v2i2