Based on the similarity principles,a 1∶ 7 scale physical model was established to study the behavior of molten steel flow and inclusion removal in a 145 t Rheinsahl-Heraeus( RH) degasser.On the basis of the quantitative measurements of the circulation flow rate and inclusion removal under various lifting gas flow rates,the effect of circulation flow rate on inclusion removal was investigated in the RH degasser.The inclusion removal rate shows the trend of first increase and then decrease twice with increasing the circulation flow rate when the circulation flow rates are smaller than 104.7 L/min.Whereas,the inclusion removal rate increases again with the further increase in circulation flow rate when the circulation flow rate is larger than 104.7 L/min.At lower circulation flow rates,inclusions are mainly removed by Stokes flotation to the slag/steel interface after inclusions are transferred near the slag/steel interface by the circulation flow.At higher circulation flow rates,the collision and aggregation of inclusions improves the inclusion removal efficiency.With the further increase in the circulation flow rate,inclusions are mainly removed by following the turbulent fluctuation( turbulent diffusion)to the slag/steel interface after inclusions are transferred near the slag/steel interface by the circulation flow. Based on the similarity principles, a 1: 7 scale physical model was established to study the behavior of molten steel flow and inclusion removal in a 145 t Rheinsahl-Heraeus (RH) degasser. On the basis of the quantitative measurements of the circulation rate and inclusion removal under various lifting gas flow rates, the effect of circulation rate on inclusion inclusion was investigated in the RH degasser. The inclusion removal rate shows the trend of first increase and then decrease twice with increasing the flow rate when the flow rates are smaller than 104.7 L / min.Whereas, the inclusion removal rate increases again with the further increase in in circulation rate when the circulation rate is larger than 104.7 L / min.At lower circulation flow rates, inclusions are mainly removed by Stokes flotation to the slag / steel interface after inclusions are transferred near the slag / steel interface by the flow rate. A higher flow rate rates, the co llision and aggregation of inclusions improves the inclusion removal efficiency .With the further increase in the circulation rate, inclusions are mainly removed by following the turbulent fluctuation (turbulent diffusion) to the slag / steel interface after inclusions are transferred near the slag / steel interface by the flow