Experimental and numerical study of flood in a river-network-floodplain set-up

This paper describes the experiments carried out on flood hydrodynamics in a river-network-floodplain set-up for validating numerical models. Fluvial floods in the set-up are generated due to overbank flow. The flood extent is extracted by processing overlapping images of the flooded set-up. The ste...

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Veröffentlicht in:	Journal of hydraulic research 2020-11, Vol.58 (6), p.938-956
Hauptverfasser:	Mali, Vijay Kisan, Kuiry, Soumendra Nath
Format:	Artikel
Sprache:	eng
Schlagworte:	Algorithms Benchmarking datasets Computational fluid dynamics Datasets Doppler sonar Drying Equilibrium flow flood modelling Floodplains Floods Fluid flow Fluid mechanics Hydrodynamics Hydrologic data laboratory studies large scale particle image velocimetry (LSPIV) Mathematical models Numerical models Particle image velocimetry River networks river-network-floodplain system Surface velocity Wetting
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creator	Mali, Vijay Kisan Kuiry, Soumendra Nath
description	This paper describes the experiments carried out on flood hydrodynamics in a river-network-floodplain set-up for validating numerical models. Fluvial floods in the set-up are generated due to overbank flow. The flood extent is extracted by processing overlapping images of the flooded set-up. The steady-state flow depths and velocities are measured by a point gauge and acoustic Doppler velocimeter (ADV), respectively. The surface velocities are estimated using large scale particle image velocimetry (LSPIV). The details of these measurements, flood hydrodynamics and datasets collected in the experiments are presented and analysed. Two numerical models of varying complexities are applied to reproduce the experimental events. The comparisons of numerical and experimental results on the different aspects of floods highlight the importance of the observed datasets. The complete flood datasets may be used to calibrate flow models, evaluate drying-wetting and model coupling algorithms. The datasets are freely available for academic purpose.
doi_str_mv	10.1080/00221686.2019.1698471
format	Article
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Fluvial floods in the set-up are generated due to overbank flow. The flood extent is extracted by processing overlapping images of the flooded set-up. The steady-state flow depths and velocities are measured by a point gauge and acoustic Doppler velocimeter (ADV), respectively. The surface velocities are estimated using large scale particle image velocimetry (LSPIV). The details of these measurements, flood hydrodynamics and datasets collected in the experiments are presented and analysed. Two numerical models of varying complexities are applied to reproduce the experimental events. The comparisons of numerical and experimental results on the different aspects of floods highlight the importance of the observed datasets. The complete flood datasets may be used to calibrate flow models, evaluate drying-wetting and model coupling algorithms. 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Fluvial floods in the set-up are generated due to overbank flow. The flood extent is extracted by processing overlapping images of the flooded set-up. The steady-state flow depths and velocities are measured by a point gauge and acoustic Doppler velocimeter (ADV), respectively. The surface velocities are estimated using large scale particle image velocimetry (LSPIV). The details of these measurements, flood hydrodynamics and datasets collected in the experiments are presented and analysed. Two numerical models of varying complexities are applied to reproduce the experimental events. The comparisons of numerical and experimental results on the different aspects of floods highlight the importance of the observed datasets. The complete flood datasets may be used to calibrate flow models, evaluate drying-wetting and model coupling algorithms. 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subjects	Algorithms Benchmarking datasets Computational fluid dynamics Datasets Doppler sonar Drying Equilibrium flow flood modelling Floodplains Floods Fluid flow Fluid mechanics Hydrodynamics Hydrologic data laboratory studies large scale particle image velocimetry (LSPIV) Mathematical models Numerical models Particle image velocimetry River networks river-network-floodplain system Surface velocity Wetting
title	Experimental and numerical study of flood in a river-network-floodplain set-up
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