A computational method for wave propagation simulation in open channel networks
Mustafa M. Aral, Yi Zhang, Shi Jin, Georgia Institute of Technology. Multimedia Environmental Simulations Laboratory
Multimedia Environmental Simulations Laboratory, School of Civil and Environmental Engineering, Georgia Institute of Technology, 1996 - Science - 112 pages
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The relaxation scheme and its application
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2-shock applicable bed slope boundary condition Branch l(or channel junctions Chaudhry Choi and Molinas Civil and Environmental computer storage connected conservation law conservative form depth profile differential equations discontinuity discretization downstream channel dt dx eigenvalue entropy condition Environmental Engineering Environmental Simulations Laboratory Exact solution example finite difference flow simulation Froude number Gate location genuinely nonlinear Georgia Institute governing equations head loss Hugoniot Locus hydrograph implicit scheme Institute of Technology interpolation Jin and Xin junction solutions Liggett matrix method of characteristic Multimedia Environmental Simulations network system nonconservation form profile in branch proposed algorithm rarefaction wave relaxation system Riemann problem Saint Venant equations School of Civil shallow water equations Shi Jin shock wave propagation shown in Figure Simulation in Open simulation in open-channel simultaneous solution algorithm spatial subscript suplA unsteady flow upstream boundary upstream channels Velocity and depth wave celerity wave in branch wave propagation problem Yi Zhang