Hydrodynamics of Biomimetic Marine Propulsion and Trends in Computational Simulations
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Hydrodynamics of Biomimetic Marine Propulsion and Trends in Computational SimulationsFecha
2020-06Cita bibliográfica
Lamas, M.I.; Rodriguez, C.G. Hydrodynamics of Biomimetic Marine Propulsion and Trends in Computational Simulations. J. Mar. Sci. Eng. 2020, 8, 479. https://doi.org/10.3390/jmse8070479
Resumen
[Abstract] The aim of the present paper is to provide the state of the works in the field of hydrodynamics and computational simulations to analyze biomimetic marine propulsors. Over the last years, many researchers postulated that some fish movements are more efficient and maneuverable than traditional rotary propellers, and the most relevant marine propulsors which mimic fishes are shown in the present work. Taking into account the complexity and cost of some experimental setups, numerical models offer an efficient, cheap, and fast alternative tool to analyze biomimetic marine propulsors. Besides, numerical models provide information that cannot be obtained using experimental techniques. Since the literature about trends in computational simulations is still scarce, this paper also recalls the hydrodynamics of the swimming modes occurring in fish and summarizes the more relevant lines of investigation of computational models.
Palabras clave
Buques - Propulsión
Ahorro de energía
Propulsión marina
Buques - Hidrodinámica
Simulación por ordenador
Marine propulsion
Biomimetics
CFD
Fish
Ahorro de energía
Propulsión marina
Buques - Hidrodinámica
Simulación por ordenador
Marine propulsion
Biomimetics
CFD
Fish
Versión del editor
Derechos
Atribución 4.0 Internacional
ISSN
2077-1312