Depth Averaged Modelling of Turbulent Shallow Water Flow with Wet-Dry Fronts

Cea, Luís; Puertas, Jerónimo; Vázquez-Cendón, M. Elena

doi:10.1007/s11831-007-9009-3

Cited by 105 publications

(90 citation statements)

References 93 publications

(193 reference statements)

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“…The model shows great success in representing a wide range of complicated sediment transport and fluvial processes, such as presented in the studies of Cao et al [16], Wu and Wang [17,18], Xia et al [19], and Cao and Pender [20]. For the employed SWEs model to simulate the turbulence abutment bed scouring, the sediment transport continuity-concentration (SCC) model was used by adapting the non-capacity concept used in Cao et al [16] and Cao and Pender [20]; whereas the flow turbulence was simulated by a standard 2D k- model used in Younus and Chaudhry [21] and Cea et al [22]. The full model of this study was constructed by the fully coupled concept, and it was based on the finite volume (FV) method.…”

Section: Introductionmentioning

confidence: 99%

Efficient numerical computation and experimental study of temporally long equilibrium scour development around abutment

Lim

2013

Environ Fluid Mech

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For the abutment bed scour to reach its equilibrium state, a long flow time is needed. Hence, the employment of usual strategy of simulating such scouring event using the 3D numerical model is very time consuming and less practical. In order to develop an applicable model to consider temporally long abutment scouring process, this study modifies the common approach of 2D shallow water equations (SWEs) model to account for the sediment transport and turbulence, and provides a realistic approach to simulate the long scouring process to reach the full scour equilibrium. Due to the high demand of the 2D SWEs numerical scheme performance to simulate the abutment bed scouring, a recently proposed surface gradient upwind method (SGUM) was also used to improve the simulation of the numerical source terms. The abutment scour experiments of this study were conducted using the facility of Hydraulics Laboratory at Nanyang Technological University, Singapore to compare with the presented 2D SGUM-SWEs model.

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Section: Introductionmentioning

confidence: 99%

Efficient numerical computation and experimental study of temporally long equilibrium scour development around abutment

Lim

2013

Environ Fluid Mech

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“…This Godunov type scheme is especially suitable for simulating dam-break flows, which often involve flow discontinuities and changes in flow regime. Several RANS type turbulence models are implemented in the model Iber [48]. In this case, the k-ε model from Rastogi and Rodi [49] was chosen.…”

Section: Hydraulic Model Descriptionmentioning

confidence: 99%

Two-Dimensional Dam-Break Flood Analysis in Data-Scarce Regions: The Case Study of Chipembe Dam, Mozambique

Álvarez

Puertas

Peña

et al. 2017

Water

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This paper presents the results of a modeling study of the hypothetical dam break of Chipembe dam in Mozambique. The modeling approach is based on the software Iber, a freely available dam break and two-dimensional finite volume shallow water model. The shuttle radar topography mission (SRTM) online digital elevation model (DEM) is used as main source of topographic data. Two different DEMs are considered as input for the hydraulic model: a DEM based on the original SRTM data and a hydrologically-conditioned DEM. A sensitivity analysis on the Manning roughness coefficient is performed. The results demonstrate the relevant impact of the DEM used on the predicted flood wave propagation, and a lower influence of the roughness value. The low cost modeling approach proposed in this paper can be an attractive option for modeling exceptional flood caused by dam break, when limited data and resources are available, as in the presented case. The resulting flood-inundation and hazard maps will enable the Regional Water Management Administration of Mozambique (ARA) to develop early warning systems.

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“…En esta situación la frontera del dominio se debe mover adecuadamente, para incluir todas las celdas que están en el frente de seco mojado. Un tratamiento adecuado del movimiento de estas fronteras es necesario para obtener resultados precisos y que conserven la masa (Brufau et al, 2000;Castro et al, 2005;Cea et al, 2007).…”

Section: Frentes De Seco Mojadounclassified

Simulación numérica de inundaciones en Villahermosa México usando el código IBER

2016

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Depth Averaged Modelling of Turbulent Shallow Water Flow with Wet-Dry Fronts

Cited by 105 publications

References 93 publications

Efficient numerical computation and experimental study of temporally long equilibrium scour development around abutment

Efficient numerical computation and experimental study of temporally long equilibrium scour development around abutment

Two-Dimensional Dam-Break Flood Analysis in Data-Scarce Regions: The Case Study of Chipembe Dam, Mozambique

Simulación numérica de inundaciones en Villahermosa México usando el código IBER

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