LARHYSS JOURNAL 1112-3680 / 2521-9782

The main objective of this study is the simulation of the floods in urban zone by applying a calculation code solving the two-dimensional Saint Venant equations. These equations form a set of three coupled equations, not linear and hyperbolic which are solved by an explicit finite volume scheme. The flow in the urban environment is very complex, so the use of a 2D code has several advantages, since it allows describing of crossroads in topography and to know the area of the submerged zone. In our study, we used the Rubar20 code to simulate the inundations of the floods of the N'Dfali Oued which crosses the zone of study located in full city center of Bejaia (Algeria). The obtained results are compared with the different collected data.

ABDERREZZAK, K.E.K., PAQUIER, A., MIGNOT, E. (2009). Modelling flash flood propagation in urban areas using a two-dimensional numerical model. Natural Hazards, Vol. 50, pp. 433-460.

ANCEY, C. (2009). Hydraulique à surface libre. Phénomènes de propagation : ondes et ruptures de barrage. Bases mathématiques, outils de simulations, applications. Notes de cours, École Polytechnique Fédérale de Lausanne, Suisse, 250 p.

ARAUD, Q., CHAMPREDONDE, R. (2007). Modélisation des Equations de Saint-Venant. Revue d’hydrodynamique de l’environnement. INP, ENSEEIHT, 26 p.

BEHLOULI, L. (2008). Crues et inondations en Algérie. Présentation "ANRH" Ministère des Ressources en Eau (MRE), 43 p.

BENSLIMANE, M. (2012). Simulation of the flood risk in urban zone via the Rubar20 code of calculation. Magister Thesis, Bejaia University, Algeria, 131 p.

BROEKX, S., SMETS, S., LIEKENS, I., BULCKAEN, D., DE NOCKER, L. (2011). Designing a long-term flood risk management plan for the Scheldt estuary using a risk-based approach. Natural Hazards, Vol. 57, pp. 245-266.

CEMAGREF (2011). Software Rubar20, note of employment (use). Waters Department, Unity of Research Hydrology-Hydraulics, Grouping of Lyon, France, 61 p.

HAIDER, S. (2001). Contribution to the modeling of flooding in urban areas -dimensional approach by the Saint Venant equations-. Master Memory in Civil Engineering, Cemagref, INSA Lyon, France, 180 p.

HARTNETT, M., NASH, S. (2017). High-resolution flood modeling of urban areas using MSN_Flood. Water Science and Engineering, Vol. 10, Issue 3, pp. 175-183.

HERVOUET, J.-M., SAMIE R., MOREAU B. (2000). Modelling urban areas in dam-break flood wave numerical simulations. RESC-DAM workshop, Seinajoki, Finland, 12 p.

PAQUIER, A. (1995). Modelling and simulation of wave propagation dam break. PhD. Thesis, Saint Etienne University, France, 193 p.

PARK, K., LEE, M.H. (2019). The development and application of the urban flood risk assessment model for reflecting upon urban planning elements. Water, Vol. 11, 920, doi:10.3390/w11050920

XIA, J., FALCONER, R.A., LIN, B., TAN, T. (2011). Modelling of flash flood risk in urban areas. Proceedings of the Institution of Civil Engineers-Water Management, Vol. 164, Issue 6, pp. 267-282.