Litcius/Paper detail

Effects of vegetation density on flow, mass exchange and sediment transport in lateral cavities

Luiz Eduardo Domingos de Oliveira, Taís Yamasaki, Johannes Gérson Janzen, Carlo Gualtieri

2024Journal of Hydrology15 citationsDOIOpen Access PDF

Abstract

Large-Eddy Simulations (LES) were used to investigate the hydrodynamics and mass transfer between the flow in the main channel and a vegetated lateral cavity. Fourteen vegetation densities (0 to 10.65 %) were tested, revealing two distinct hydrodynamic patterns. For cavities with low vegetation density (a < 3.99 %), one primary gyre in contact with the interface between main channel and cavity with high velocity was formed; the thickness of the mixing layer grew longitudinally along the interface, and regions with high vorticity and turbulence kinetic energy appeared at the interface and inside the cavity. For cavities with high vegetation density (a > 3.99 %), two gyres in contact with the interface with low velocity were formed, the thickness of the mixing layer did not grow, and the vorticity and turbulence kinetic energy were low inside the cavity. The mass transport presented the same threshold value as the hydrodynamics (a = 3.99 %). For cavities with low vegetation density, a fast mass transfer occurred through the interface between the main channel and cavity and inside the cavity, while the opposite was observed for cavities with high vegetation density. Finally, the modelled hydrodynamics was used to infer possible sediment deposition patterns and flow resistance.

Topics & Concepts

Ocean gyreTurbulence kinetic energyTurbulenceVorticityKinetic energyGeologyMechanicsVegetation (pathology)Flow (mathematics)Mixing (physics)Mass transferVortexMaterials sciencePhysicsClassical mechanicsBiologyFisheryMedicinePathologySubtropicsQuantum mechanicsHydrology and Sediment Transport ProcessesHydraulic flow and structuresSoil erosion and sediment transport