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Información del artículo

Unit commitment with analytical under-frequency load-shedding constraints for island power systems

M. Rajabdorri, A. Rouco, L. Sigrist, E. Lobato

IEEE Access Vol. 12, pp. 72337 - 72344

Resumen:

This paper presents a novel corrective frequency-constrained unit commitment (C-FCUC) for island power systems implementing analytical constraints on underfrequency load shedding (UFLS). Since UFLS is inevitable for sufficiently large disturbances, it can be argued that less spinning reserve could be held back since UFLS takes place nonetheless. Congruently, the reserve criterion should consider UFLS likely to occur under disturbances. The C-FCUC can be converted into a preventive frequency-constrained unitcommitment (P-FCUC) or a standard security-constrained unit commitment. Thus, the C-FCUC is a generalization. The proposed formulation is successfully applied to two representative Spanish island power systems of La Palma and La Gomera. Results confirm that the proposed model can reduce generation costs while reducing the expected amount of UFLS.


Resumen divulgativo:

Este artículo presenta un nuevo compromiso de unidad con restricciones de frecuencia correctiva (C-FCUC) para sistemas eléctricos insulares, incorporando restricciones de shedding de carga por subfrecuencia (UFLS). Propone un modelo generalizado y demuestra reducciones de costos en sistemas isleños españoles.

 


Palabras Clave: Island power system, frequency stability, unit commitment, under frequency load shedding


Índice de impacto JCR y cuartil WoS: 3,900 - Q2 (2022)

Referencia DOI: DOI icon https://doi.org/10.1109/ACCESS.2024.3401854

Publicado en papel: 2024.

Publicado on-line: Mayo 2024.



Cita:
M. Rajabdorri, A. Rouco, L. Sigrist, E. Lobato, Unit commitment with analytical under-frequency load-shedding constraints for island power systems. IEEE Access. Vol. 12, pp. 72337 - 72344, 2024. [Online: Mayo 2024]


    Líneas de investigación:
  • Estabilidad: estabilidad de gran perturbación, ajuste de protecciones de deslastre de cargas por frecuencia, control de la excitación, estabilidad de pequeña perturbación, ajuste de estabilizadores del sistema de potencia, identificación de modelos de reguladores