Venuleo, SaraPokrajac, DubravkaTokyay, TaliaConstantinescu, GeorgeSchleiss, Anton J.Franca, Mário J.2024-06-262024-06-262021-03-121943-79000733-9429https://doi.org/10.1061/(ASCE)HY.1943-7900.0001868https://irf.fhnw.ch/handle/11654/46177Rigorously derived shallow water equations (SWEs) are applied to results of large eddy simulation (LES) of a continuously fed gravity current in order to assess (1) sensitivity of current depth results to its definition; (2) coefficients in depth-averaged continuity and momentum equation due to the nonuniformity of density and velocity profiles; and (3) sensitivity of entrainment coefficient to definition of current depth. It is shown that using different definitions of the current depth may produce significantly different numerical results. The coefficients due to nonuniformity in the continuity equation are very close to unity, whereas the coefficients in the momentum flux and the pressure term in the momentum equation are different from unity by a margin that is very sensitive to the definition of current depth. The entrainment coefficient is more sensitive to the selected parameterization than to the definition of the current depth.enShallow water equationsLarge eddy simulation624 - Ingenieurbau und UmwelttechnikParameterization and results of SWE for gravity currents are sensitive to the definition of depth01A - Beitrag in wissenschaftlicher Zeitschrift04021016