Abstract: The thrust coefficient of different hydrofoil impellers was experimentally studied and simulated with CFD. Results showed that the thrust coefficient of four-broad-blade hydrofoil A is the largest，and that of three-narrow-blade hydrofoil D is the smallest. The simulation results are in good agreement with experiment. Compared with other axial impellers，four-broad-blade hydrofoil A produces a fully developed circulation. The maximum axial velocity of four-broad-blade hydrofoil A is the biggest in these impellers at the vertical line of blade tip. The maximum axial velocity of four-broad-blade hydrofoil A gradually declines with the increase of r/R，and moves toward the bottom of the tank. Experimental results in water system indicated that the mass transfer coefficient（kLa）of four-broad-blade hydrofoil A-Rushton turbine（HF-A -RT）is 9.6% higher than that of Rushton turbine-Rushton turbine（RT-RT）when gas aerated rate is 1.1 vvm and the power consumption per volume（P/V）is not less than 1.5 kW/m3.