Seema, PaulJesper, OppelstrupThunvik, RogerMango Magero, JohnDdumba Walakira, DavidCvetkovic, Vladimir2023-05-082023-05-082019Paul, S., Oppelstrup, J., Thunvik, R., Magero, J. M., Ddumba Walakira, D., & Cvetkovic, V. (2019). Bathymetry development and flow analyses using two-dimensional numerical modeling approach for Lake Victoria. Fluids, 4(4), 182. doi:10.3390/fluids404018210.3390/fluids4040182https://nru.uncst.go.ug/handle/123456789/8654This study explored two-dimensional (2D) numerical hydrodynamic model simulations of Lake Victoria. Several methods were developed in Matlab to build the lake topography. Old depth soundings taken in smaller parts of the lake were combined with more recent extensive data to produce a smooth topographical model. The lake free surface numerical model in the COMSOL Multiphysics (CM) software was implemented using bathymetry and vertically integrated 2D shallow water equations. Validated by measurements of mean lake water level, the model predicted very low mean flow speeds and was thus close to being linear and time invariant, allowing long-time simulations with low-pass filtered inflow data. An outflow boundary condition allowed an accurate simulation to achieve the lake’s steady state level. The numerical accuracy of the linear measurement of lake water level was excellent.enMethods of lake bathymetryShallow water equationsLake hydrodynamicsNumerical accuracySteady-state analysisWater-level validationArticle