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http://hdl.handle.net/10553/128474
Título: | Reduced desalination carbon footprint on islands with weak electricity grids. The case of Gran Canaria | Autores/as: | Cabrera Santana, Pedro Jesús Carta González, José Antonio Matos Sánchez, Carlos Rosales Asensio, Enrique Henrik Lund |
Clasificación UNESCO: | 332205 Fuentes no convencionales de energía 3313 Tecnología e ingeniería mecánicas 3306 Ingeniería y tecnología eléctricas 330806 Regeneración del agua |
Palabras clave: | On-grid wind desalination Off-grid wind desalination Zero-carbon footprint Reverse osmosis Desalination, et al. |
Fecha de publicación: | 2024 | Proyectos: | Investigación e innovación hacia la Excelencia en Eficiencia tecnológica, uso de Energías renovables, tecnologías Emergentes y Economía circular en la DESalación | Publicación seriada: | Applied Energy | Resumen: | The aim of this paper is to present options to make low-carbon footprint large-scale desalination a reality on arid islands with weak electrical grids. Through these options, the goal is to reconfigure on-grid wind energy/ desalination systems for large- and medium-scale water production. In this context, it is proposed to use lithium- ion batteries for stationary energy storage together with management strategies aimed at avoiding the wind energy/desalination systems having to consume energy from the conventional grid they are connected to. The control strategy is based on ensuring that the power provided by the wind farm and batteries remains in synchrony with the power demand of the desalination plant throughout the system’s useful life. The interannual variation of wind energy is considered when sizing the renewable energy system and processes for its estimation are proposed. The case study is centred on the Canary Archipelago, a region that is especially vulnerable to the impacts of climate change, but which enjoys exceptional characteristics for the exploitation of wind energy. The results obtained show the optimal wind farm and energy storage system capacities of the analysed configurations. The approach presented allows a low-carbon operational footprint. If the control strategy were to be put into practice today, the current grid restrictions and a life cycle assessment of the system carried out in a societal context that continues to be fossil fuel dependent indicate a potential reduction of 77.4% of the footprint. However, the remaining 22.6% could be eliminated in the future when the manufacturing processes of wind turbines, batteries and desalination plants receive the benefits of carbon-neutral societies. | URI: | http://hdl.handle.net/10553/128474 | ISSN: | 0306-2619 | DOI: | 10.1016/j.apenergy.2023.122564 | Fuente: | Applied Energy [ISSN 0306-2619], v. 358, 122564, (Marzo 2024) |
Colección: | Artículos |
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