Abstract
Existing research on the pufferfish species (Torquigener Albomaculosus) has shown that its nest structure has a certain impact on flow velocity. This study aims to investigate the nest-building behavior by using different materials. A 3D model will be created based on nest geometry, and 2D simulations will be conducted by using computational fluid dynamics (CFD). Furthermore, the study examines the nest’s fluid dynamics characteristics in its original state, with varied materials and heights. Results demonstrate that the nest reduces flow velocity, adapts to external flow conditions, and enhances shear strength with rough materials. Additionally, nest height affects internal circulation area and pressure. This unique structure protects the spawning area, improves oxygen transport, and strengthens the nest. The study further expands biomimetic engineering applications and suggests future interdisciplinary research directions.
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