화학공학소재연구정보센터
Chemical Engineering Research & Design, Vol.74, No.4, 417-423, 1996
Gas-Liquid Mixing Studies - A Comparison of Rushton Turbines with Some Modern Impellers
Based on the literature, a comparison of the Rushton turbine with other impellers, many of them modern commercial developments, is made. This comparison shows that there are many impellers available, some radial and some axial, which eliminate many of the weaknesses associated with the Rushton though some weaknesses remain or others are introduced. Based on this analysis, a new axial flow hydrofoil impeller, the APV-B2, has been designed and some preliminary results are also reported here. It has a low ungassed power number so that a relatively low torque is required to drive it when using it with a large impeller-to-tank diameter ratio. This large diameter also enables greater volumes of gas to be handled without flooding at similar energy dissipation rates. In the downward pumping mode, torque fluctuations found with such a mode of operation are less than with other axial flow hydrofoils, and in the upward pumping mode they are essentially eliminated. This latter mode, as with pitched blade turbines, is also extremely effective at gas dispersion and at a specific ungassed power input of 1 kW m-(3), a typical industrial value, the power reduction on gassing is negligible.