TítuloWash off and sediment transport experiments in a full scale urban drainage physical model

The method extends the positive definite non-oscillatory finite element algorithm (NFEM) capabilities to predict sediment transport, multiphase flow, and evolution of the

In this way, the quantization of the Kuramoto model is straightforward and includes its classical counterpart as a limiting case: The quantum version incorporates quantum

The main contributions of the thesis are divided on four aspects: (1) long-term experiments of mobile robot 2D and 3D position tracking in real urban pedestrian scenarios within a

Microalgae strains, Botryococcus braunii and Chlorella vulgaris were cultured in urban wastewater as monoalgal cultures and together in co-cultures; the same experiments were

A catchment model for river basins and a hydrodynamic model were combined in order to simulate the spreading of the turbidity plume produced by sediment discharges from the

F I G U R E 2 Time scales of the migration frequency and resting duration of sediments at which they impact different physiological processes, ecological dynamics and

However, two empirical methods (Kozeny-Carman and Sauerbrei) yielded the K values closer to our observed results (in situ), and within the K limits given by previous

AutoMOST seeks to go beyond by devel- oping technologies that enable automated “dual mode” driving under real traffic conditions, interacting safely with the dynamic urban