Bibliographic citations
Espezúa, P., (2022). Análisis energético de la implementación del servicio de regulación secundaria de frecuencia en el mercado de ajuste para la central hidroeléctrica cerro del Aguila [Trabajo de suficiencia profesional, Universidad Nacional de Ingeniería]. http://hdl.handle.net/20.500.14076/26678
Espezúa, P., Análisis energético de la implementación del servicio de regulación secundaria de frecuencia en el mercado de ajuste para la central hidroeléctrica cerro del Aguila [Trabajo de suficiencia profesional]. PE: Universidad Nacional de Ingeniería; 2022. http://hdl.handle.net/20.500.14076/26678
@misc{renati/712717,
title = "Análisis energético de la implementación del servicio de regulación secundaria de frecuencia en el mercado de ajuste para la central hidroeléctrica cerro del Aguila",
author = "Espezúa Gastelú, Percy Giancarlo",
publisher = "Universidad Nacional de Ingeniería",
year = "2022"
}
At various electricity markets worldwide there is called an ancillary Services that administers and manages those resources that provide security, reliability and quality to the operation of an electrical power system. In Peru, since 2014, the regulatory change began and the way in which the main complementary services in the Peruvian electricity system were administered, then in the 2016 and important step was taken due to the implementation by the COES of a new SCADA and the generation control system for secondary frequency regulation of the Peruvian electrical system. Finally in 2020 the last regulatory modification for the secondary service has been made. This constant evolution of complementary service market generates a series of opportunities for generating agents that require small investments in order to able to provide the secondary frequency regulation to the Peruvian electricity system. In this paper it is proposed to demonstrate that the operating income of a hydroelectric plant with daily regulation reservoir increases due to the implementation of the complementary service of secondary frequency regulation, this implementation solves the problem of diversifying the portfolio of income obtained by a Hydraulic power plant that only injects its energy into the SEIN since it would take advantage of the recognition of the opportunity cost for that energy not injected into the electrical system and the reserve availability assigned when the complementary service of secondary frequency regulation is provided, for this it will be demonstrated through the use of simulations in the current dispatch model that the SEIN uses, the benefit it would be obtained by recognizing the opportunity cost. As a result of these simulations and using current regulations, it will be possible to calculate the economic benefit of a plant with daily regulation reservoir that provides the secondary frequency regulation service.
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