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Review and Comparison of Numerical Simulations of Secondary Flow in River Confluences

Rawaa Shaheed, Xiaohui Yan, Abdolmajid Mohammadian

2021Water22 citationsDOIOpen Access PDF

Abstract

River confluences are a common feature in natural water resources. The flow characteristics in confluences are complicated, especially at junction areas between tributaries and the main river. One of the typical characteristics of confluences is secondary flow, which plays an important role in mixing, velocity, sediment transport, and pollutant dispersion. In addition to the experimental and field studies that have been conducted in this area, the development of computational fluid dynamics has allowed researchers in this field to use different numerical models to simulate turbulence properties in rivers, especially secondary flows. Nowadays, the hydrodynamics of flows in confluences are widely simulated by using three-dimensional models in order to fully capture the flow structures, as the flow characteristics are considered to be turbulent and three-dimensional at river junctions. Several numerical models have been recommended for this purpose, and various turbulence models have been used to simulate the flows at confluences. To assess the accuracy of turbulence models, flows have been predicted by applying different turbulence models in the numerical model and the results have been compared with other data, such as field, laboratory, and experimental data. The purpose behind these investigations was to find the suitable model for each case of turbulent flow and for different types of confluences. In this study, the performances of turbulence models for confluences are reviewed for different numerical simulation strategies.

Topics & Concepts

TurbulenceTributaryFlow (mathematics)K-epsilon turbulence modelGeologyComputer simulationTurbulence modelingHydrology (agriculture)MechanicsEnvironmental scienceMeteorologyGeotechnical engineeringPhysicsGeographyCartographyHydrology and Sediment Transport ProcessesHydraulic flow and structuresHydrology and Watershed Management Studies