单个海草叶片替代物施加的流场和尾迹结构特性

IF 4.6 Q2 ENVIRONMENTAL SCIENCES Journal of ecohydraulics Pub Date : 2021-07-02 DOI:10.1080/24705357.2021.1938253
M. Taphorn, Raúl Villanueva, Maike Paul, Jan Visscher, Torsten Schlurmann
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引用次数: 6

摘要

摘要海草替代物通常用于模拟海草在水流作用下的行为及其对流场的影响。这种相互作用高度依赖于所选择的替代物的力学和几何特性,为了设计人工草甸,需要理解这种相互作用。用物理模拟的方法研究了单代物在单向流场中的相互作用。由具有不同弯曲刚度、浮力和几何形状的塑料材料制成的替代品暴露在不同的流速下。利用立体粒子图像测速技术(PIV)测量了模拟体附近和尾迹的瞬时速度场。所有被雇用的替身都通过改变姿势来破坏流场并与流场相互作用。推导出了代用品的抗弯刚度、浮力和特征直径与流速衰减比所施加的差异之间的经验关系。此外,接近的流速和替代物后面的距离影响估计的衰减。人造海草造成的旋涡脱落频率低于无限刚性圆柱形结构确定的频率。在设计人工海草草甸时,需要考虑其弹性模量、浮力和横截面尺寸三个主要表征特性。我们的发现促进了人们对柔性材料流固相互作用的认识,有助于推进人工海草草甸的合理设计。
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Flow field and wake structure characteristics imposed by single seagrass blade surrogates
Abstract Seagrass surrogates are commonly used to mimic the behaviour of seagrasses exposed to currents and their effects on flow fields. The interaction is highly dependent on the chosen mechanic and geometric properties of the surrogates and needs to be understood in order to design artificial meadows. The interaction of single surrogates in unidirectional flow fields is studied by means of physical modelling. Surrogates made of plastic materials with different flexural rigidities, buoyancies and geometries are exposed to varying flow velocities. The instantaneous velocity fields in the vicinity and wake of the surrogates are measured by stereoscopic Particle Image Velocimetry (PIV). All employed surrogates disrupt and interact with the flow field by changing their posture. An empirical relation is derived between the flexural rigidity, buoyancy and characteristic diameter of the surrogates and the imposed differences in the attenuation ratio of flow velocities. Further, the approaching flow velocity and distance behind the surrogate influence the estimated attenuation. The vortex shedding frequency imposed by artificial seagrass is lower than frequencies determined for infinite, rigid cylindrical structures. Three main characterizing properties: the modulus of elasticity, buoyancy and cross-sectional dimensions need to be taken into account for design of artificial seagrass meadows. Our findings advance knowledge of fluid-structure interactions of flexible materials and help to progress proper design of artificial seagrass meadows.
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