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Hauptverfasser: Aravena, Valeria, Cordova, Samuel, Kairath, Maximiliano, Negrete-Pincetic, Matias
Format: Preprint
Veröffentlicht: 2025
Schlagworte:
Online-Zugang:https://arxiv.org/abs/2510.06422
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author Aravena, Valeria
Cordova, Samuel
Kairath, Maximiliano
Negrete-Pincetic, Matias
author_facet Aravena, Valeria
Cordova, Samuel
Kairath, Maximiliano
Negrete-Pincetic, Matias
contents The increasing participation of renewable energy sources in power systems has entailed a series of challenges resulting from the replacement of conventional synchronous machines with carbon-free Inverter-Based-Resources (IBRs). In this context, the present work contributes to the existing literature on Frequency-Constrained Unit Commitment (FCUC) models by studying the role of hydro-reservoirs in the ongoing decarbonization of power systems. For this purpose, a novel FCUC model is developed, which captures hydro-reservoir dynamics and their impact on frequency Nadir requirements through a data-driven approach. Moreover, the proposed FCUC model is used to simulate a series of future scenarios in the Chilean power system, and to understand the role that hydro-power units, thermal units, Grid-Forming (GFM) inverters, and Synchronous Condensers (SCs) will play in the future in terms of frequency regulation. Exhaustive simulations on the Chilean power system for years 2024 (current scenario) and 2035 (carbon-free scenario) illustrate the benefits of the proposed approach, which include: (i) significant cost-savings resulting from the using the proposed FCUC model relative to the industry standard, achieving operational cost reductions of up to 28% without compromising system security; and (ii) providing insights into the key role that hydro-reservoirs will play in the future. As a final analysis, the developed FCUC model is used to evaluate the financial benefits of incorporating SCs and GFM inverters to provide frequency regulation support to the grid in 2035. The results show that, while both technologies contribute to reducing the system's annual operational costs, GFM inverters significantly outperform SCs in terms of investment return.
format Preprint
id arxiv_https___arxiv_org_abs_2510_06422
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Understanding the Impact of Hydro-Reservoirs and Inverters on Frequency-Constrained Operation
Aravena, Valeria
Cordova, Samuel
Kairath, Maximiliano
Negrete-Pincetic, Matias
Optimization and Control
90C11 (Primary) 93A15 (Secondary)
The increasing participation of renewable energy sources in power systems has entailed a series of challenges resulting from the replacement of conventional synchronous machines with carbon-free Inverter-Based-Resources (IBRs). In this context, the present work contributes to the existing literature on Frequency-Constrained Unit Commitment (FCUC) models by studying the role of hydro-reservoirs in the ongoing decarbonization of power systems. For this purpose, a novel FCUC model is developed, which captures hydro-reservoir dynamics and their impact on frequency Nadir requirements through a data-driven approach. Moreover, the proposed FCUC model is used to simulate a series of future scenarios in the Chilean power system, and to understand the role that hydro-power units, thermal units, Grid-Forming (GFM) inverters, and Synchronous Condensers (SCs) will play in the future in terms of frequency regulation. Exhaustive simulations on the Chilean power system for years 2024 (current scenario) and 2035 (carbon-free scenario) illustrate the benefits of the proposed approach, which include: (i) significant cost-savings resulting from the using the proposed FCUC model relative to the industry standard, achieving operational cost reductions of up to 28% without compromising system security; and (ii) providing insights into the key role that hydro-reservoirs will play in the future. As a final analysis, the developed FCUC model is used to evaluate the financial benefits of incorporating SCs and GFM inverters to provide frequency regulation support to the grid in 2035. The results show that, while both technologies contribute to reducing the system's annual operational costs, GFM inverters significantly outperform SCs in terms of investment return.
title Understanding the Impact of Hydro-Reservoirs and Inverters on Frequency-Constrained Operation
topic Optimization and Control
90C11 (Primary) 93A15 (Secondary)
url https://arxiv.org/abs/2510.06422