Título
Techno-economic assessment of far-offshore hydrogen-carrying energy vectors off the Iberian PeninsulaOtras instituciones
University College CorkIkerbasque
Versión
Version publicada
Derechos
© 2023 The AuthorsAcceso
Acceso abiertoVersión del editor
https://doi.org/10.1016/j.enconman.2023.117915Publicado en
Energy Conversion and Management Vol. 300. N. art. 117915, 2024Editor
ElsevierPalabras clave
Artículo
Green hydrogen
H2-carrying energy vectors
Far-offshore ... [+]
Green hydrogen
H2-carrying energy vectors
Far-offshore ... [+]
Artículo
Green hydrogen
H2-carrying energy vectors
Far-offshore
Floating offshore wind farms
Techno-economics
Levelised cost of energy [-]
Green hydrogen
H2-carrying energy vectors
Far-offshore
Floating offshore wind farms
Techno-economics
Levelised cost of energy [-]
Resumen
Green hydrogen (H2) generation in far-offshore locations is being proposed as an alternative for the decarbonisation of the current fossil fuel-based energy system. However, due to the limited experie ... [+]
Green hydrogen (H2) generation in far-offshore locations is being proposed as an alternative for the decarbonisation of the current fossil fuel-based energy system. However, due to the limited experience and low level of maturity of the technology, an accurate and comprehensive assessment of their technical and economic feasibility is crucial. To this aim, the present paper suggests a holistic numerical model for the techno-economic assessment of diverse H2-carrying energy vectors, such as gaseous (GH2) and liquid H2 (LH2), and ammonia (NH3), in far-offshore wind farms. The model includes all the relevant stages, from energy generation, to conversion, transportation, and storage. Hence, the model enables the assessment of broad offshore areas for site selection, sensitivity analyses to identify the most relevant aspects, and optimisation procedures to identify the most suitable H2-carrying energy vector. The consistency of the model is first verified against the literature and then applied to regions off the Iberian Peninsula and Balearic Islands. Results show that, compared to bathymetry or distance to port, wind resource availability is the most crucial factor to ensure the economic feasibility of the projects. Additionally, for any given site, the full electric alternative turns out to be lower than any H2-based energy vector. Among the studied H2-carrying energy vectors, GH2 is the least expensive one and nearly competitive with electricity, as LH2 and NH3 show between two- to three- times greater expenses. [-]
Financiador
Gobierno de EspañaGobierno Vasco
Gobierno Vasco
Diputación Foral de Gipuzkoa
Programa
Proyectos Estratégicos Orientados a la Transición Ecológica y a la Transición Digital. Convocatoria 2021Elkartek 2023
Ikertalde Convocatoria 2022-2025
Programa de apoyo a la Red guipuzcoana de Ciencia, Tecnología e Innovación. Convocatoria 2022
Número
TED2021-132767A-I00KK-2023-00051
IT1505-22
2022-CIEN-000052-01
URI de la ayuda
Sin informaciónSin información
Sin información
Sin información
Proyecto
Desarrollo de Plataforma de Co-Simulación para la Evaluación de Generación de Hidrógeno Verde en Alta Mar (FARH2GEN)EKOHEGAZ
Mecánica de fluidos
Hozte teknologia multifasiko eraginkorren garapenerako beharrezko propietateen karakterizazio eta modelizazio numerikoa mugikortasun elektriko jasangarrirantz (HOZTIKOR)
Colecciones
- Artículos - Ingeniería [684]
El ítem tiene asociados los siguientes ficheros de licencia: