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CUDAM Department of Civil and Environmental Engineering University of Trento Zaragoza, Nov 3 th -5 th 2004 IMPACT Investigation of Extreme Flood Processes.

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Presentation on theme: "CUDAM Department of Civil and Environmental Engineering University of Trento Zaragoza, Nov 3 th -5 th 2004 IMPACT Investigation of Extreme Flood Processes."— Presentation transcript:

1 CUDAM Department of Civil and Environmental Engineering University of Trento Zaragoza, Nov 3 th -5 th 2004 IMPACT Investigation of Extreme Flood Processes & Uncertainty Composition of the numerical group: L. Fraccarollo M. Giuliani G. Rosatti

2 => The simulation starts at the dyke => Fulling coupling hydro-morphodynamics => We represent the real section and interpolate in between => Finite-volume conservative scheme (Fraccarollo et. al. 2003) 1D mathematical and numerical approach

3 1D mathematical model A wet area, u average velocity, b s width at surface, z b average bottom-elevation, c average concentration, c b bottom oncentration,  w water density,  s sediment density, I 1 first order of the wetted cross section with respect to the free surface; I 2 spatial derivative of the first moment I 1, R h hydraulic radius,  bottom shear-stress,  c Coriolis compensation coefficient.

4 Starting assumptions for the 1D modelling There is no account for the bedrock profile (future work)

5 Data section input BED and ROCK

6 Results

7 Rock outcrop

8 Results Rock out Section Strano che non affiori la roccia

9 Results section

10 Results Rock outcrop Trento

11 Volume

12 => The simulation includes the upstream lake => Fulling coupling hydro-morphodynamics (following 1D) => Rectangular computational cells => Finite volume extension of the 1D conservative scheme 2D mathematical and numerical approach

13 Two-phase mixture: water sediments ( u,v ) ( u p,v p ) Definition of the angle-phase displacements :  Grain trajectory 

14 Mathematical model with the angle-phase displacements Mass balance: solid liquid+solid Momentum balance: liquid+solid y - direction liquid+solid x - direction

15 Some details on Ha!Ha! simulations => The breach has not been represented => The q input is inserted far-away from the dyke, with no momentum => Initial conditions: downstream of the dyke there is no water => No informations about sediments

16 Hints to preliminary results

17 Problems: => Sediment fluxes have to corrected in our Riemann approximate solver => Boundary are saw-edged represented => Bank erosions and angle-phase displacements have to be included yet

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