Yves Zech scite author profile

Floodplains with urban areas have significant effects on inundation flows. Large-scale modelling of such zones thus requires a special treatment to involve those effects. This paper presents a shallow-water model with porosity to account for the reduction in storage and in the exchange sections due to presence of buildings and other structures on the floodplains. The introduction of the porosity in the shallow-water equations modifies the expressions for the fluxes and source terms. Furthermore, it implies the addition of a specific source term. The equations are solved by means of a finite-volume scheme with a modified HLLC Riemann solver and upwind treatment of the source terms. The possibilities of the proposed approach are demonstrated by an application to a large-scale experiment that was part of the European IMPACT project, which represents the severe flooding of the Italian Toce valley. This demonstrates the key advantage of the method, as it allows an accurate representation of the flow without detailed meshing of the urbanized area. RÉSUMÉLes zones urbanisées présentes dans les plaines d'inondation des rivières peuvent avoir des conséquences importantes sur l'écoulement lors de crues. Une modélisation à grande échelle de ces zones implique donc un traitement adapté afin de reproduire leurs effets. Cet article présente un modèle utilisant des équations de Saint-Venant modifiées, prenant en compte la porosité des zones urbanisées afin de représenter la réduction de capacité de stockage et de passage induite par la présence des bâtiments et autres structures dans la plaine d'inondation. L'introduction de la porosité dans les équations de Saint-Venant implique une modification des expressions des flux et des termes sources. De plus, elle requiert l'adjonction d'un terme source supplémentaire. Ces équations modifiées sont résolues par un schéma de volumes finis avec un solveur de Riemann de type HLLC et un traitement décentré amont des termes sources. Les possibilités de cette nouvelle approche sont démontrées par une application à un cas test expérimental à grande échelle issu du projet européen IMPACT. Ce cas test consiste en une inondation sévère de la vallée italienne du Toce. Cet exemple illustre l'avantage clé de la méthode proposée, à savoir une représentation précise de l'écoulement sans devoir recourir à un maillage détaillé de la zone urbanisée.

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Voronoï imaging methods for the measurement of granular flows

Capart¹,

Young

Zech

2002

Experiments in Fluids

154

100

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A set of digital imaging methods derived from the Voronoõ È diagram is proposed and tested on various liquid±granular ¯ow applications. The methods include a novel pattern-based particle-tracking algorithm, as well as estimators of the three-dimensional granular concentration from two-dimensional images. The proposed algorithms are able to resolve individual grain motions even for rapid shear ¯ows involving dense, ¯uctuating granular ensembles. Full automation is achieved, allowing the derivation of accurate statistics from large sets of individual measurements, as well as the construction of complete sets of grain trajectories. Results are presented for different applications: homogeneous ¯uidization, steady uniform debris ¯ow, and unsteady debris surges.

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Steady-flow experiments in urban areas and anisotropic porosity model

Velickovic

Zech²,

Frazao³

2016

Journal of Hydraulic Research

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Numerical and experimental water transients in sewer pipes

Capart

Sillen

Zech

1997

Journal of Hydraulic Research

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Yves Zech

Small-scale laboratory dam-break waves on movable beds

Two-dimensional shallow-water model with porosity for urban flood modelling

Voronoï imaging methods for the measurement of granular flows

Steady-flow experiments in urban areas and anisotropic porosity model

Numerical and experimental water transients in sewer pipes

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