远距离沙丘相互作用的平衡距离

IF 2.8 2区 地球科学 Q2 GEOGRAPHY, PHYSICAL
Jean Vérité, Clément Narteau, Olivier Rozier, Jeanne Alkalla, Laurie Barrier, Sylvain Courrech du Pont
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引用次数: 0

摘要

摘要沙丘地形引起的水流扰动会影响局部的沉积物迁移,但也会在长距离上影响下游相邻孤立沙丘的动态变化。为了在消除沙丘间横向流动成分、碰撞和质量交换的最佳条件下工作,我们在此使用二维数值模型研究了这些长程相互作用。根据初始间距的不同,沙丘要么相互吸引,要么相互排斥,最终趋于稳定的间距。这种平衡距离随水流强度的增加而减小,随水流重新定向的周期和沙丘大小的增加而增大。它主要受反向沙丘形状及其产生的湍流尾流结构的控制,湍流尾流不断调节下游沙丘上的平均切应力。在多向风机制下,这些长程流动扰动为具有不可侵蚀沙丘间区域的沙丘场提供了另一种波长选择机制。在这些沙丘区域内,平均剪应力的估计值可用于评估相邻沙丘之间的相对迁移率和吸引/排斥状态。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Equilibrium distance from long-range dune interactions
Abstract. Flow perturbations induced by dune topography affect sediment transport locally, but can also be felt over long distances altering the dynamics of isolated neighbouring dunes downstream. In order to work under optimal conditions that eliminate transverse flow components, collisions and mass exchange between dunes, we study here these long-range interactions using a 2D numerical model where two equal-sized dunes lying on a non-erodible bed are exposed to a symmetric reversing flow. Depending on the initial spacing, dunes either attract or repel each other, to eventually converge towards a steady-state spacing. This equilibrium distance decreases with flow strength and increases with period of flow reorientation and dune size. It is mainly controlled by the reversing dune shape and the structure of the turbulent wake it generates, which continuously modulates the mean shear stress on the downstream dune. Under multi-directional wind regimes, these long-range flow perturbations offer an alternative mechanism for wavelength selection in dune fields with non-erodible interdune areas. Within these dune fields, estimates of mean shear stress could be used to assess the relative migration rate and the state of attraction/repulsion between neighbouring dunes.
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来源期刊
Earth Surface Dynamics
Earth Surface Dynamics GEOGRAPHY, PHYSICALGEOSCIENCES, MULTIDISCI-GEOSCIENCES, MULTIDISCIPLINARY
CiteScore
5.40
自引率
5.90%
发文量
56
审稿时长
20 weeks
期刊介绍: Earth Surface Dynamics (ESurf) is an international scientific journal dedicated to the publication and discussion of high-quality research on the physical, chemical, and biological processes shaping Earth''s surface and their interactions on all scales.
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