Engineering Applications of Computational Fluid Mechanics (Dec 2024)
Three-dimensional flow structure in a confluence-bifurcation unit
Abstract
Enhanced understanding of flow structure in braided rivers is essential for river regulation, flood control, and infrastructure safety across the river. It has been revealed that the basic morphological element of braided rivers is confluence-bifurcation units. However, flow structure in these units has so far remained poorly understood with previous studies having focused mainly on single confluences/bifurcations. Here, the flow structure in a laboratory-scale confluence-bifurcation unit is numerically investigated based on the FLOW-3D® software platform. Two discharges are considered, with the central bars submerged or exposed respectively when the discharge is high or low. The results show that flow convergence and divergence in the confluence-bifurcation unit are relatively weak when the central bars are submerged. Based on comparisons with a single confluence/bifurcation, it is found that the effects of the upstream central bar on the flow structure in the confluence-bifurcation unit reign over those of the downstream central bar. Concurrently, the high-velocity zone in the confluence-bifurcation unit is less concentrated than that in a single confluence while being more concentrated than that observed in a single bifurcation. The present work unravels the flow structure in a confluence-bifurcation unit and provides a unique basis for further investigating morphodynamics in braided rivers.Highlights 3D flow structure in a confluence-bifurcation unit (CBU) is numerically investigated.Flow convergence/divergence in CBU is relatively weak when central bars are submerged.Effects of the upstream central bar on CBU flow reign over those of the downstream central bar.The high-velocity zone is less/more concentrated in the CBU than in a single confluence/bifurcation when the central bars are exposed.
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