Resumen:
Moving towards clean energy generation seems essential. To do so, renewable energy penetration is growing in the power systems. Although energy sources such as wind and solar are clean, they are not available consistently. Using energy storage will help to tackle variability. Liquid air energy storage is gaining attention among different energy storage technologies, as it is a promising option for grid-scale energy storage. This paper presents a detailed mixed integer linear model of liquid air energy storage to be used in scheduling and planning problems. A comprehensive cycle diagram of different processes of liquid air energy storage is presented, and a model has been developed accordingly. Simulations of the proposed model are carried out for the power system of Tenerife island and compared with the basic models. Basic models overlook specific characteristics of liquid air energy storage systems, such as charging and discharging start energy. Results confirm that the use of simple models will lead to misleading conclusions and overestimate the economic benefits of liquid air energy storage.
Resumen divulgativo:
El almacenamiento de energía en aire líquido (LAES) está ganando atención entre las diferentes tecnologías de almacenamiento de energía, ya que es una opción prometedora para el almacenamiento de energía a escala de red. Este trabajo presenta un modelo lineal entero mixto detallado del LAES para ser utilizado en problemas de programación y planificación.
Palabras Clave: LAES; energy storage; renewable generation; unit commitment problem
Índice de impacto JCR y cuartil WoS: 3,200 - Q3 (2022)
Referencia DOI:
https://doi.org/10.3390/en15196958
Publicado en papel: Octubre 2022.
Publicado on-line: Septiembre 2022.
Cita:
M. Rajabdorri, L. Sigrist, E. Lobato, Liquid air energy storage model for scheduling purposes in island power systems. Energies. Vol. 15, nº. 19, pp. 6958-1 - 6958-13, Octubre 2022. [Online: Septiembre 2022]
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