Power Required for Upper Impeller in Gas-Liquid Vessels Agitated by Dual Turbines with Various Designs.

Mochizuki Masafumi, Takei Noboru, Sato Tomonori, Tada Hiroki, Sato Kazumi, Akehata Takashi

doi:10.1252/kakoronbunshu.23.342

The power required for the upper impeller of a dual disk turbine was measured in a 0.30 m diameter aerated vessel. The gas flow rate passing through the upper impeller was estimated with the relation between power consumption and flow rate of sparged-gas. The following results were obtained.<BR>1) The measured power of upper impellers in the loading regime was correlated with an average absolute deviation of 4.5% by the expression (P_g/P₀) _U=1-kN_A where (P_g/P₀)_U is aerated/unaerated power ratio required for an upper impeller, N_A is gas flow number and coefficient k depends on the Froude number, vessel diameter d_T, impeller diameter d, and impeller spacing. It was successfully correlated not only for dual turbines with combination of the same diameter, but also with combinations of different diameter.<BR>2) The ratio of gas flow rate passing through the upper impeller to lower impeller, Q_{g, U}/Q_{g, L}, in-creased with the diameter, spacing and rotation speed of the impeller. Q_{g, U}/Q_{g, L} were 1/4-1/3 for d/d_T =1/3, 1/3-3/4 for d/d_T= 5/12 and 1/2-4/5 for d/d_T= 1/2.

Power Required for Upper Impeller in Gas-Liquid Vessels Agitated by Dual Turbines with Various Designs.

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Power Required for Upper Impeller in Gas-Liquid Vessels Agitated by Dual Turbines with Various Designs.

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