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Efficient Implicit Finite-Element Hydrodynamic Model for Dam and Levee Breach |
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| Authors: | Gaurav Savant Charlie Berger Tate O. McAlpin Jennifer N. Tate |
| Affiliation: | 1Research Water Resources Engineer, Dynamic Solutions LLC and Onsite Contractor, Engineer Research and Development Center, U.S. Army Corps of Engineers, Vicksburg, MS 39180 (corresponding author). E-mail: gaurav.savant@usace.army.mil 2Research Hydraulic Engineer, Engineer Research and Development Center, U.S. Army Corps of Engineers, Vicksburg, MS 39180. E-mail: charlie.berger@usace.army.mil 3Research Physicist, Engineer Research and Development Center, U.S. Army Corps of Engineers, Vicksburg, MS 39180. E-mail: tate.o.mcalpin@usace.army.mil 4Research Hydraulic Engineer, Engineer Research and Development Center, U.S. Army Corps of Engineers, Vicksburg, MS 39180. E-mail: jennifer.n.tate@usace.army.mil |
| Abstract: | This technical paper presents the development and application of a pseudo-transient continuation (PTC)– inspired flow model for the simulation of dam and levee failure. The unstructured, implicit, Petrov-Galerkin finite-element model relies on computed residuals to automatically adjust the time-step size. The implicit time integration, together with the automatic time-step size selection through PTC, makes the model computationally efficient. The model is verified and applied to several analytic and real-world test cases that exercise model behavior and accuracy for several critical, transcritical, and subcritical flows. The result is an efficient and accurate prediction of both the speed and depth of shock waves as the dam-break flow passes over initially dry and wet land. |
| Keywords: | Finite element method Dam failures Levees Hydraulics Hydrodynamics Structural failures |