A new closure approach involving a common parameter has been incorporated into a 1D fully coupled model of mobile-bed alluvial hydraulics.The objective is to simplify the methodology of 1D river routing models and to improve their accuracy.The common parameter,called control factor m, introduces the concept of Rossiter modes in alluvial hydraulics and represents the interactions between the flow,the sediment transport and the bed morphology.The feasibility of the new closure approach has been established by reproducing numerically the 2002 silt flushing experiment conducted on the Lower Yellow River(LYR) downstream the Xiaolangdi reservoir.From the comparison between the experimental data and the numerical results,a time evolution of the control factor m reproducing the characteristics of the flow has been extracted.This time evolution agrees with analysis conducted previously on other datasets and with data measured during the flush.The results obtained with this time evolution for the hydraulics,the sediment transport and bed adaptation are encouraging but still need improvements and further feeding from complementary experimental data. A new closure approach involving a common parameter has been incorporated into a 1D fully coupled model of mobile-bed alluvial hydraulics. The objective is to simplify the methodology of 1D river routing models and to improve their accuracy. The common parameter, called control factor m , introduces the concept of Rossiter modes in alluvial hydraulics and represents the interactions between the flow, the sediment transport and the bed morphology. The feasibility of the new closure approach has been established by reproducing numerically the 2002 silt flushing experiment conducted on the Lower Yellow River. (LYR) downstream the Xiaolangdi reservoir. From the comparison between the experimental data and the numerical results, a time evolution of the control factor m reproducing the characteristics of the flow has been extracted. This time evolution agrees with analysis of previously previously other datasets and with data measured during the flush.The results obtained with this time evolution for th e hydraulics, the sediment transport and bed adaptation are encouraging but still need improvements and further feeding from complementary experimental data.