Author(s): B. Johns; R. L. Soulsby; Jiuxing Xing

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Abstract: A numerical model is used to simulate free surface shallow water flow over bottom topographical features. The model, in which turbulence closure is achieved at the level of the turbulence energy equation, allows for the inclusion of both the hydrostatic and hydrodynamic contributions to the pressure field and, accordingly, is successful in reproducing flow separation on the downstream side of an asymmetrical sandwave structure. Experiments are described in which the geometrical and flow parameters are chosen so as to correspond to recently reported flume and field observational studies. The experimental flume studies represent a particularly detailed and well-conducted determination of mean and turbulent flow properties in highly controlled laboratory conditions. Good overall agreement is found between the model and experimental evaluations of the mean fluid velocity, the turbulence energy, the kinematical shear stress and the extent of the flow separation zone. The second application of the model involves a comparison with a recently acquired field data set based on observations made in the Taw Estuary, Devon, England. In addition to measuring the dynamical properties of the flow, a determination was also made of suspended sediment concentrations. With appropriate modification to the model, evaluations of concentration profiles are also compared with those obtained in the field observations. The overall agreement is again of an encouraging quality thus lending support to the application of the numerical model in different coastal environments.

DOI: https://doi.org/10.1080/00221689309498846

Year: 1993