2008
DOI: 10.1016/j.cam.2007.02.003
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Relaxation approximation to bed-load sediment transport

Abstract: In this work we propose and apply a numerical method based on finite volume relaxation approximation for computing the bed-load sediment transport in shallow water flows, in one and two space dimensions. The water flow is modeled by the well-known nonlinear shallow water equations which are coupled with a bed updating equation. Using a relaxation approximation, the nonlinear set of equations (and for two different formulations) is transformed to a semilinear diagonalizable problem with linear characteristic va… Show more

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Cited by 28 publications
(32 citation statements)
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“…It is evident that the symmetry of the bed propagation is not deteriorated by the multiple mesh adaptations. Moreover, we remark that the computed results are in good agreement with alternative simulations using structured meshes [6,12]. Next, the results obtained for the test case with A = 1 are presented in Figure 10 for the quasisteady approach at three different times t = 50, 300, and 600 s corresponding to the time required by the sediment to reach the downstream boundary.…”
supporting
confidence: 64%
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“…It is evident that the symmetry of the bed propagation is not deteriorated by the multiple mesh adaptations. Moreover, we remark that the computed results are in good agreement with alternative simulations using structured meshes [6,12]. Next, the results obtained for the test case with A = 1 are presented in Figure 10 for the quasisteady approach at three different times t = 50, 300, and 600 s corresponding to the time required by the sediment to reach the downstream boundary.…”
supporting
confidence: 64%
“…For purposes of verifying our finite volume scheme, we use a simplified test example of the evolution of an initially hump-shaped bed in a squared channel studied in [6,5,12] among others.…”
Section: Channel Flow On Moving Bedmentioning
confidence: 99%
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“…These results demonstrate the ability of the adaptive SRNHS scheme to capture traveling discontinuities without generating nonphysical oscillations. In addition, the comparison with similar numerical results available in the literature [11,13,7] on the same test case is also satisfactory.…”
Section: One-dimensional Resultssupporting
confidence: 57%
“…Comparative studies of both 1‐step and splitting approaches, sometimes called coupled and uncoupled approaches, have been performed in the last decade by several authors. () They mostly conclude to the bad behavior of the splitting approach and then give rise to several works where the authors investigate 1‐step approaches() by extending finite volume solvers developed in the early 2000's for the classical SW system to the SWExner system. We would like to emphasize that, in fact, they only conclude to the bad behavior of 1 possible way to perform the splitting approach, not of the splitting approach itself.…”
Section: Introductionmentioning
confidence: 99%