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Paper detail

Wave induced thrust on a submerged hydrofoil: pitch stiffness effects

Submerged flapping foils can convert wave energy directly into thrust, which could be potentially utilised for green marine propulsion. This study analyses the wave-induced flapping hydrofoil propulsion using an in-house developed, new computational fluid dynamics (CFD) framework. The numerical model was initially validated against a few benchmarked problems and then used for the numerical investigation of wave-induced flapping hydrofoil propulsion. The transition between drag and thrust can be observed from the vortex flow pattern. The pitch stiffness and other physical parameter were non-dimensionalised for the first time. The optimal wave conditions and the optimal pitch stiffness are given for the future green marine system design.

preprint2022arXivOpen access
Jingru XingDimitris StagonasPhil HartChengchun ZhangJianhui YangLiang Yang
physics.flu-dyn
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Jingru XingDimitris StagonasPhil HartChengchun ZhangJianhui YangLiang Yang

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