Analyse hydrologique de la crue-éclair catastrophique du 15 juin 2010 dans la région de Draguignan (VAR, France)

Payrastre, Olivier; Gaumé, Éric; Javelle, Pierre; Janet, Bruno; Fourmigue, P.; Lefort, Philippe; Martin, A.; Boudevillain, Brice; Brunet, P; Delrieu, Guy; Marchi, Lorenzo; Aubert, Yoann; Dautrey, Elisabeth; Durand, Laurence; Lang, Michel; Boissier, Laurent; Douvinet, Johnny; Martin, Claude; d'HyMeX, l'équipe « enquêtes post-événements »

doi:10.1051/lhb/2019057

Cited by 5 publications

(5 citation statements)

References 23 publications

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“…The estimated flows are of the same order of magnitude as those observed during other French REX in the Mediterranean region: around Draguignan in the Var in 2010 [5, 14], on the Côte d'Azur around Mandelieu in 2015 [13], and around Abidjan in 2013 [15] and Grand Bassam in 2012 [16]. They remain significantly lower than those estimated during the Gard floods in 2002, at least for basins larger than a few km 2 , or around Lodève in 2015 for nonkarst basins [17].…”

Section: Resultssupporting

confidence: 55%

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Floods of 18 and 19 November 2016 in Batouri (East Cameroon): Interpretation of the Hydro-Meteorological Parameters and Historical Context of the Post-Event Survey Episode

Kalédjé

Ngoupayou

Takounjou

et al. 2019

The Scientific World Journal

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During the night of November 18 to 19, 2016, many stormy cells are not very mobile organized on the east of the southern plateau of Cameroon and dumped up to 260 mm of rain in 4 hours. Occurring on a relatively saturated soil, these rains caused strong floods of Kadey and Doumé. The floods were particularly damaging in the city of Batouri, where a subdivision was submerged by the Boumbé (tributary of the Sangha) with water heights in the houses reaching 1.75 m, despite the presence of a dam allowing clipping floods upstream of the basin. In this article, we present the results of the analysis of the postevent survey generated on this event with flow rates estimated on 15 sections of ungauged subbasins. These flows are then compared with those obtained from other recent postevent survey and those estimated by various regional estimations. The inventory of heavy rains around Batouri during the period 1970-2016 has led to the revision of current development standards in the region, which seem to underestimate rainfall and infrequent flows.

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Section: Resultssupporting

confidence: 55%

“…The flows of the other sections were estimated from the Manning formula. The calculation method is detailed in other lessons learned from rivers in Europe and West Africa [5, 12, 13]. The 2016 flood surveys and spreadsheets are available in the Ministry of Scientific Research and Innovation database through the Hydrological Research Centre.…”

Section: Resultsmentioning

confidence: 99%

Floods of 18 and 19 November 2016 in Batouri (East Cameroon): Interpretation of the Hydro-Meteorological Parameters and Historical Context of the Post-Event Survey Episode

Kalédjé

Ngoupayou

Takounjou

et al. 2019

The Scientific World Journal

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“…Peak discharges were estimated at about 450 m 3 .s −1 on the Nartuby tributary river (222 km 2 ), 480 m 3 .s −1 on the Florieye river (89 km 2 ), and 2500 m 3 .s −1 on the downstream part of the Argens river (Payrastre et al, 2019). The length of the river network selected for the hydraulic simulations is 585 km.…”

Section: Flood Events Selectedmentioning

confidence: 99%

Performance of automated flood inundation mapping methods in a context of flash floods: a comparison of three methods based either on the Height Above Nearest Drainage (HAND) concept, or on 1D/2D shallow water equations

Hocini

Payrastre

Bourgin

et al. 2020

Preprint

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Abstract. Flash floods observed in headwater catchments often cause catastrophic material and human damage worldwide. Considering the large number of small watercourses possibly affected, the use of automated methods for flood inundation mapping at a regional scale can be of great help for the identification of threatened areas and the prediction of potential impacts of these floods. An application of three mapping methods of increasing level of complexity (HAND/MS, caRtino 1D, and Floodos 2D) is presented herein. These methods are used to estimate the flooded areas of three major flash floods observed during the last ten years in South-Eastern France: the 15th of June 2010 flood on the Argens river and its tributaries (585 km of river reaches), the 3rd of October 2015 flood on small coastal rivers of the French Riviera (131 km of river reaches) and the 15th of October 2018 floods on the Aude river and its tributaries (561 km of river reaches). The common features of the three mapping approaches are their high level of automation, their application based on a high-resolution (5 m) DTM, and their reasonable computation times. Hydraulic simulations are run in steady-state regime, based on peak discharges estimated using a rainfall-runoff model preliminary adjusted for each event. The simulation results are compared with the reported flood extent maps and the high water level marks. A clear grading of the tested methods is revealed, illustrating some limits of the HAND/MS approach and an overall better performance of hydraulic models solving the shallow water equations. With these methods, the inundated areas are overall well retrieved, and the errors on water levels remain mostly below 80 cm for the 2D Floodos approach. The most important remaining errors are related to limits of the digital elevation model such as the lack of bathymetric information, uncertainties on embankment elevation and to possible bridge blockages not accounted for in the models.

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“…Ces études, couplant analyse météorologique, hydrologique et hydraulique, permettent, en combinant mesures sur le terrain et modélisation, d'évaluer les débits de pointe ayant transité sur des tronçons jaugés et non-jaugés. Différentes crues marquantes des dernières années ont ainsi été analysées : crues de l'Aude de novembre 1999 par , crues du Gard et du Vidourle de septembre 2002 par Gaume et Bouvier (2004) et Delrieu et al (2005), crue de juin 2010 dans la région de Draguignan par Payrastre et al (2019), crue d'octobre 2014 à Montpellier par Brunet et al (2018), crue de septembre 2015 dans l'Hérault par Brunet et Bouvier (2017), crue de l'Aude en octobre 2018 par Lebouc et al (2019) et Hocini et al (2021), etc. La compilation de l'ensemble des données produites lors de ces REX a permis, durant la dernière décennie, de constituer des bases de données des débits de pointe observés/estimés sur de petits bassins versants méditerranéens (Amponsah et al, 2018 ;Gaume et al, 2009 ;Marchi et al, 2010) et de les relier aux caractéristiques des bassins et à celles des épisodes météorologiques générateurs (e.g.…”

Section: Introductionunclassified

Inondations sur la Côte d’Azur : bilan hydro-météorologique des épisodes de 2015 et 2019

Brigode

Vigoureux

Delestre

et al. 2021

LHB

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e Voir section remerciements pour la liste complète RESUME L'objectif de cet article est de présenter un bilan hydro-météorologique des trois dernières crues majeures observées sur les petits bassins côtiers de la Côte d'Azur (3 octobre 2015, 23 novembre 2019 et 1er décembre 2019). L'analyse conjointe de données issues de pluviomètres et de différents produits de lames d'eau (PANTHERE, ANTILOPE et RAINPOL) montre que les deux épisodes du 3 octobre 2015 et du 1er décembre 2019 sont caractérisés par des intensités très importantes, avec des cumuls localement supérieurs à 100 mm en moins de 3 heures, alors que l'épisode de novembre 2019 a été moins intense et plus uniformément réparti sur l'ensemble du territoire. Les débits de pointe estimés sont du même ordre de grandeur pour les épisodes de 2015 et de décembre 2019, soit entre 10 et 20 m3/s/km² pour les têtes de bassins versants, et autour de 5 m3/s/km² pour l'aval. Ces crues s'avèrent comparables aux autres crues majeures observées ces dernières années à l'échelle européenne, sans pour autant être celles ayant produit les débits spécifiques les plus importants. Ce bilan hydro-météorologique montre la valeur ajoutée d'organisation de retours d'expérience post-crue afin d'estimer les précipitations et débits susceptibles d'être observés dans ces régions sujettes aux crues éclairs.

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Analyse hydrologique de la crue-éclair catastrophique du 15 juin 2010 dans la région de Draguignan (VAR, France)

Cited by 5 publications

References 23 publications

Floods of 18 and 19 November 2016 in Batouri (East Cameroon): Interpretation of the Hydro-Meteorological Parameters and Historical Context of the Post-Event Survey Episode

Floods of 18 and 19 November 2016 in Batouri (East Cameroon): Interpretation of the Hydro-Meteorological Parameters and Historical Context of the Post-Event Survey Episode

Performance of automated flood inundation mapping methods in a context of flash floods: a comparison of three methods based either on the Height Above Nearest Drainage (HAND) concept, or on 1D/2D shallow water equations

Inondations sur la Côte d’Azur : bilan hydro-météorologique des épisodes de 2015 et 2019

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