Abstract
Bedload grains in consecutive meandering bends either move longitudinally or across the channel centerline. This study traces and quantifies the grains’ movement in two laboratorial sine-generated channels, i.e., one with deflection angle θ0 = 30° and the other 110°. The grains originally paved along the channels are uniform in size with D = 1 mm and are dyed in various colors, according to their initial location. The experiments recorded the changes in the flow patterns, bed deformation, and the gain-loss distribution of the colored grains in the pool-bar complexes. We observed the formation of two types of erosion zones during the process of the bed deformation, i.e., Zone 1 in the foreside of the point bars and Zone 2 near the concave bank downstream of the bend apexes. Most grains eroded from Zone 1 are observed moving longitudinally as opposed to crossing the channel centerline. Contrastingly, the dominant moving direction of the grains eroded from Zone 2 changes from the longitudinal direction to the transversal one as the bed topography evolves. Besides, most building material of the point bars comes from the upstream bends, although low- and highly curved channels behave differently.
Highlights
Point bars and scouring pools are typical geometric characteristics of meanders, whose formation is strongly related to longitudinal and transverse sediment transport
Zone 2 is in agreement with what was observed by Termini [18], when she performed an order-of-magnitude analysis of the momentum equation terms with data collected in a meandering laboratory flume having similar general bed topography and same planimetric configuration as the 110◦ flume used in the present work
Bed grains were dyed with four different colors and paved along two consecutive bends in order to quantitively trace the same- and opposite-side sediment transport
Summary
Point bars and scouring pools are typical geometric characteristics of meanders, whose formation is strongly related to longitudinal and transverse sediment transport. Transverse bedload transport refers to the “crossing-centerline” sediment movement in consecutive meandering bends. Otherwise, it is longitudinal transport [1]. It is longitudinal transport [1] Observation in both field and laboratories has evidenced that the curved channels often orientate the bedload with significant deviation from the general flow direction [2,3,4], and the transport rates are neither homogenous nor isotropic [5]. Leopold [6] emphasized the role of the secondary circulation and argued that the transverse bedload transport could be significant even in straight channels, resulting in alternating bars and in meanders’ initiation. Wang et al [10] tested the bedload transport in a sine-generated flume with the deflection angle at the inflection section θ0
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