6533b86dfe1ef96bd12c9f18
RESEARCH PRODUCT
Diffusive Modeling of Aggradation and Degradation in Artificial Channels
Costanza AricòTullio Tucciarellisubject
Inertial frame of referenceSpacetimeMechanical EngineeringFunction (mathematics)MechanicsSettore ICAR/01 - IdraulicaOpen-channel flowFlow (mathematics)JumpGeotechnical engineeringDiffusion (business)sediment transport shallow waters solid load unsteady flow numerical models local scourSediment transportWater Science and TechnologyCivil and Structural EngineeringMathematicsdescription
The unsteady flow and solid transport simulation problem in artificial channels is solved using a three-equation model, coupled with a local erosion law. The three equations are the water mass and momentum balance equations, as well as the total solid load balance equation. It is shown that even during severe hydrological events inertial terms can be neglected in the momentum equation without any substantial change in the solution sought. Empirical equilibrium formulas were used to estimate the solid load as a function of the flow variables. Local erosion, due to the scour generated at the jump between two channels connected at different bottom elevations, was estimated adapting a literature formulation. The double order approximation time and space marching scheme, previously proposed for the solution of the unsteady flow problem in the fixed-bed case, is applied to the solution of the new system. The model was validated with both literature and new laboratory experimental data. No parameter calibration was used to fit the computed results to the experimental ones.
| year | journal | country | edition | language |
|---|---|---|---|---|
| 2008-08-01 | Journal of Hydraulic Engineering |