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Flow in Compound Channel with Abrupt Floodplain Contraction |
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| Authors: | S. Proust N. Rivière D. Bousmar A. Paquier Y. Zech R. Morel |
| Affiliation: | 1Researcher, Hydrology-Hydraulics Unit, Cemagref Lyon, Quai Chauveau, 3bis, CP 220-69336 Lyon Cedex 09, France. E-mail: proust@lyon.cemagref.fr 2Assistant Professor, LMFA, INSA de Lyon, Av. Einstein, 20, 69621 Villeurbanne Cedex, France. E-mail: riviere@insa-lyon.fr 3Research Engineer, Laboratory of Hydraulic Research (D.213), Ministère Wallon de l’Equipement et des Transports, Rue de l’Abattoir, 164, 6200 Chatelet, Belgium; formerly, Postdoctoral Researcher, Fond National de la Recherche Scientifique, Belgium. E-mail: dbousmar@met.wallonie.be 4Researcher, Hydrology-Hydraulics Unit, Cemagref Lyon, Quai Chauveau, 3bis, CP 220-69336 Lyon Cedex 09, France. E-mail: paquier@lyon.cemagref.fr 5Professor, Dept. of Civil and Environmental Engineering, Hydraulics Unit, Univ. Catholique de Louvain, Place du Levant, 1, 1348 Louvain-la-Neuve, Belgium. E-mail: zech@gce.ucl.ac.be 6Professor, LMFA, INSA de Lyon, Av. Einstein, 20, 69621 Villeurbanne Cedex, France. E-mail: robert.morel@insa-lyon.fr |
| Abstract: | Flooding rivers usually present transition reaches where the floodplain width can significantly vary. The present study focuses on an abrupt floodplain contraction (mean angle 22°) in order to determine whether one-dimensional (1D) models, developed for straight and slightly converging geometry, are equally valid for such a geometry. Experiments on a contraction model were carried out in an asymmetric compound channel flume. Severe mass and momentum transfers from the floodplain towards the main channel were observed, giving rise to a noteworthy transverse slope of the water surface and different head loss gradients in the two subsections. Three 1D models and one 2D simulation were compared to experimental measurements. Each 1D model incorporates a specific approach for the modeling of the momentum exchange at the interface boundary between the main channel and the floodplain. The increase of the lateral mass transfer generates moderate errors on the water level values but significant errors on the discharge distribution. Erroneous results arise because of incorrect estimations of both momentum exchange due to lateral mass transfers and boundary conditions which are imposed by the tested 1D models. |
| Keywords: | Open channels Nonuniform flow Floods Experimental data Numerical models Mass transfer Contraction |