Marine debris (MD) poses a significant threat to global coastal ecosystems around the world, necessitating effective strategies for its collection and removal. As a new type of fixed collection device, the duck-mouth type marine debris collection device (MDCD) consists primarily of two components: a central collection system and floating fences which are positioned at a certain angle and open towards the outer bay located on both sides of it. This paper aims to establish a coupling drift model based on hydrodynamic model to study the performance of duck-mouth type MDCD, verify its effectiveness. Before simulation, the model was fully validated. The results demonstrate that wind has the greatest influence on MD movement, as the direction of the wind directly determines the movement direction of the debris. It was observed that only under onshore wind conditions did the MD move towards the bay when the duck-mouth type MDCD can effectively collect MD, which moves along the barrier net towards the central trash bin and eventually be fully collected.
Keywords: Collection device; Drift model; Hydrodynamics; Marine debris; Numerical simulation.
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