Fluid-structure interaction based optimisation in tidal turbines: A perspective review

•A perspective review of FSI based optimisation in Tidal Turbines is presented.•Low-order aerodynamic models such as Actuator Disk Model, BEM and Vortex models are also discussed.•Both Computational Fluid Dynamics and Structural Analysis based modeling approaches are evaluated.•FSI-based optimisatio...

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Bibliographic Details
Published in:Journal of ocean engineering and science 2022-10, Vol.7 (5), p.449-461
Main Authors: Kulkarni, Siddharth Suhas, Wang, Lin, Golsby, Nicholas, Lander, Martin
Format: Article
Language:English
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Summary:•A perspective review of FSI based optimisation in Tidal Turbines is presented.•Low-order aerodynamic models such as Actuator Disk Model, BEM and Vortex models are also discussed.•Both Computational Fluid Dynamics and Structural Analysis based modeling approaches are evaluated.•FSI-based optimisations of tidal turbine airfoils and tidal turbines are also highlighted. Occurrences such as the global climate change have presented critical challenges to humanity and necessitated studies into how greenhouse gas emissions can be minimized. One practical solution is the generation of power from renewable and sustainable sources; hence, tidal current energy which, however, also gives rise to the concept of fluid-structure interaction (FSI). The pressure and fluid flow aspects affect the structural deformations and the structural deformations in turn affect pressure and flow. This paper presents a perspective review of FSI based optimisation in tidal turbines with a focus on low-order aerodynamic, computational fluid dynamics (CFD) and structural modeling. It was acknowledged that, to aid humanity amidst the issue of using renewable or non-renewable sources of energy, practical solutions such as generating renewable energy from sustainable sources are effective. Tidal current energy was found to be one of the most reliable solutions but further studies regarding its practicality was advised.
ISSN:2468-0133
2468-0133
DOI:10.1016/j.joes.2021.09.017