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RESEARCH PRODUCT
Experiments on Longitudinal and Transverse Bedload Transport in Sine-Generated Meandering Channels
Zhenhui ZhuShiyan ZhangLi HeDong ChenDonatella Terminisubject
Technology010504 meteorology & atmospheric sciencesQH301-705.5QC1-9990207 environmental engineeringGeometry02 engineering and technologyDeformation (meteorology)01 natural sciencesSettore ICAR/01 - IdraulicaDeflection angleGeneral Materials SciencePoint (geometry)SineBiology (General)020701 environmental engineeringInstrumentationQD1-9990105 earth and related environmental sciencesBed loadFluid Flow and Transfer Processesmeandering channelsBedloadProcess Chemistry and TechnologyTPhysicsmeandering bendGeneral Engineeringbedload transportpredictionexperimentsEngineering (General). Civil engineering (General)Computer Science ApplicationsTransverse planeChemistryErosionTA1-2040GeologyCommunication channeldescription
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.
| year | journal | country | edition | language |
|---|---|---|---|---|
| 2021-07-16 | Applied Sciences |