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Physical Modeling of Beveled-Face Stepped Chute

Sherry L. Hunt, Kem C. Kadavy, Tony L. Wahl, Dana W. Moses

2022Water11 citationsDOIOpen Access PDF

Abstract

New construction practices for roller compacted concrete (RCC) overlays and stepped chutes are changing the step geometry from a traditional square-edge, vertical face to a 45° beveled face. A large-scale 3(H):1(V) (i.e., θ = 18.4°) stepped chute model was tested with a 45° beveled face step with a height (h) of 152 mm. Results were compared to data on square-edge, vertical face steps previously obtained. The distance to the inception point of free-surface aeration normalized by the surface roughness was reduced approximately 25% for the same Froude number defined in terms of roughness height. An existing inception point relationship for vertical face steps was adjusted with a best fit correction factor to predict the free-surface inception point for this chute slope and beveled face angle. Relative flow depths, mean air concentration, and energy loss data showed similar general trends for vertical face and beveled face steps, but the depths and air concentrations for beveled face steps were slightly higher for equal values of relative free-surface inception point, Li/L, and relative step height (e.g., h/dc). Energy loss at the free-surface inception point ranged from approximately 20 to 40% of total head for both step types. Additional research is needed to determine the generalized effects of the bevel angle and the chute slope on flow properties. This research is expected to be used by field engineers for the design of stepped chutes with beveled face steps.

Topics & Concepts

BevelGeometryFroude numberSurface finishEnhanced Data Rates for GSM EvolutionFace (sociological concept)Point (geometry)Surface roughnessGeologyMaterials scienceFlow (mathematics)MechanicsEngineering drawingMathematicsEngineeringMechanical engineeringPhysicsComposite materialSociologyTelecommunicationsSocial scienceHydraulic flow and structuresHydrology and Sediment Transport ProcessesUrban Stormwater Management Solutions
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