![]() We study an array of partially-submerged flexible structures that are subjected to the action of a surface wave field, investigating in particular the role of spacing between the elements of the array on the ability of our system to absorb energy from the flow. In this paper we focus on the mechanisms involved in these fluid-elasticity interactions, as an efficient energy harvesting system, using an experimental canopy model in a wave tank. These flexible structures absorb the fluid-borne energy of an incoming fluid by deforming mechanically. Aquatic plants are known to protect coastlines and riverbeds from erosion by damping waves and fluid flow.
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