Hydrodynamic analysis of marine floating photovoltaics under the influence of seabed topography and coastlines

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Li, Huajun and Jiang, Qiujue and Zhang, Deqing and Du, Junfeng and Yuan, Zhi-Ming and Chang, Anteng (2024) Hydrodynamic analysis of marine floating photovoltaics under the influence of seabed topography and coastlines. Ocean Engineering, 314 (Pt. 2). 119708. ISSN 0029-8018 (https://doi.org/10.1016/j.oceaneng.2024.119708)

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Abstract

Marine floating photovoltaics (MFPV) systems emerge as a promising frontier in the development of offshore clean energy, with their primary applications being in nearshore shallow waters. In these areas, the shallow depths, intricate seabed topographies and rugged shorelines profoundly affect wave propagation and transformation processes, leading to highly inhomogeneous wave conditions and thereby rendering traditional hydrodynamic theories based on assumptions of open seas inadequate. This study employs a hybrid Boussinesq-Panel Method (HBPM) to incorporate the effects of topography on wave dynamics into hydrodynamic calculations, striking a balance between computational accuracy and efficiency. A series of validation cases demonstrate the accuracy and necessity of the HBPM in shallow water environments. Computational results from typical bay scenarios reveal that variations in water depth and coastline reflections create multidirectional, non-uniform wave fields, which lead to complex force and motion characteristics of the structure. To ensure structural integrity, it is recommended to select installation sites located away from the breakwater entrance and close to the breakwater itself.

ORCID iDs

Li, Huajun, Jiang, Qiujue, Zhang, Deqing, Du, Junfeng, Yuan, Zhi-Ming ORCID logoORCID: https://orcid.org/0000-0001-9908-1813 and Chang, Anteng;
CORE (COnnecting REpositories)