LARHYSS JOURNAL 1112-3680 / 2521-9782

In this paper, we have tested four rainfall-runoff models on daily time scale that we have picked out amongst more than ten models the most used in hydrology. These models were applied on four basins situated in North of Algeria, that are characterized by an arid climate and different hydrologic regime. The aim of this work is to choose a best rainfall-runoff model that we can use for simulation and prediction runoff. The comparative analysis between these models is based on numerical criterions like Nash-Sutcliffe criterion and has been geared towards the capacity of models to reproduce flood events and base flow. The results of simulation confirm that the GR4J model has given the best performances and is regarded as the most robust for semi-arid regions and fluctuant hydrological regime.

AMBROISE B. (1999). La dynamique du cycle de l'eau dans un bassin versant: processus, facteurs, modèles, Editions HGA, Bucarest, Hongrie, 200 p.

BENKACI T. (2006). Modélisation pluie-débit mensuelle et journalière par les modèles conceptuels et les systèmes neuroflous, Thèse de Doctorat en hydrologie, Ecole Nationale supérieure d’Agronomie, Alger, Algérie, 200 p.

BEVEN K. (2012). Rainfall-runoff modelling, The Primer, Second Edition, John Wiley & Sons, New Jersey, Etas Unis, 488 p.

CROKE B. W., JAKEMAN A. J. (2004). A catchment moisture deficit module for the IHACRES rainfall-runoff model, Environmental Modelling and Software, Issues 19, pp. 1-5.

DUAN Q., SOROOSHIAN S., GUPTA V.K. (1993). Shuffled complex evolution approach for effective and efficient global minimization, Journal of Optimization theory and applications, Vol. 76 Issues 3, pp. 501–521.

EDIJATNO, NASCIMENTO O., YANG X. MAKHLOUF Z., MICHEL C. (1999). GR3J : A daily watershed model with three parameters, Hydrological Sciences Journal, Issues 2, pp. 263-278.

FRANCHINI M., GALEATI G., BERRA S. (1998). Global optimisation techniques for the calibration of conceptual rainfall-runoff models, Hydrological Sciences Journal, 43(3), pp. 443-458.

GOSWAMI M., O’KONNOR K. (2010). A “monster” that made the SMAR conceptual model “right for the wrong reasons”, Hydrological Sciences Journal, Vol.55 Issues 6, pp. 913–927.

JAKEMAN A.J., LITTLEWOOD I.G.,WHITEHEAD P.G. (1990). Computation of the instantaneous unit hydrograph and identifiable component flows with application to two small upland catchments, Journal of Hydrology, Vol.117, pp. 275-300.

LIANG G.C. (1992). A note on the revised SMAR model. Workshop Memorandum, Dept. of Engineering Hydrology, National University College of Ireland, Galway (Unpublished).

MAKHLOUF Z. (1994). Compléments sur le modèle pluie-débit GR4J et essai d’estimation de ses paramètres, Thèse de Doctorat en hydrologie, Université Paris XI Orsay, France, 426 p.

MATHEVET T. (2005). Quels modèles pluie-débit globaux au pas de temps horaire ? Développements empiriques et comparaison de modèle sur un large échantillon de bassins versants, Thèse de Doctorat en hydrologie, ENGREF, Paris, France, 460 p.

Mc INTYRE N., AL QURASHI A. (2009). Performances of ten rainfall-runoff models applied to arid catchment in Oman, Environmental Modelling and Software, Vol.24, pp. 726-738.

NASH J., SUTCLIFFE J.V. (1970). River flow forecasting through conceptual models. Part I -A discussion of principles, Journal of Hydrology, Vol.27, Issues 3, pp. 282-290.

O’CONNELL P.E., NASH J.E., FARRELL J.P. (1970). River Flow forecasting through conceptual models. Part 2. The Brosna catchment at Ferbane, Journal of Hydrology, Vol.10, pp. 317-329.

PAQUET E. (2004). Évolution du modèle hydrologique MORDOR: modélisation du stock nival à différentes altitudes, La Houille Blanche, Vol.2, pp. 75–82.

PERRIN C. (2000). Vers une amélioration d’un modèle global pluie-débit au travers d’une approche comparative, Thèse de Doctorat en hydrologie, Institut National Polytechnique de Grenoble, France, 530 p.

PERRIN C., MICHEL C., ANDREASSIAN V. (2003). Improvement of a parsimonious model for streamflow simulation, Journal of Hydrology, Vol.279, pp. 275-289.

PILGRIM D.H., CHAPMAN T.G., DORAN D.G. (1988). Problems of rainfall–runoff modelling in arid and semiarid regions, Hydrological Sciences Journal, Vol. 33, Issues 4, pp. 379–400.

PUSHPALATHA R. (2013). Simulation et prévision des étiages sur des bassins versants français : approche fondée sur la modélisation hydrologique, Thèse de Doctorat en hydrologie, IRSTEA Anthony, France, 230 p.

RAKEM Y. (1999). Analyse critique et reformulation mathématique d’un modèle pluie-débit empirique (GR4J), Thèse de Doctorat, Ecole Nationale des Ponts et Chaussées, France, 267 p.

ROCHE R., MIQUEL J., GAUME E. (2012). Hydrologie quantitative. Processus, modèles et aide à la décision. Springer Editions, 530 p.

YANG X., MICHEL C. (2000). Flood forecasting with a watershed model: a new method of parameter updating, Hydrological Sciences Journal, Vol.45, pp. 537-546.