Agitation requirements for complete solid suspension in an unbaffled agitated vessel with an unsteady forward-reverse rotating impeller

BACKGROUND: To develop a new type of solid-liquid apparatus, we have proposed the application of an agitation system with an impeller whose rotation alternates direction unsteadily, i.e., a forward-reverse rotating impeller. For an unbaffled agitated vessel fitted with this system, the suspension of solid particles in a liquid was studied using a disk turbine impeller with six flat blades. RESULTS: The effects of the solid-liquid conditions and geometrical conditions of the apparatus on the minimum rotation rate and the corresponding impeller power consumption were evaluated experimentally for a completely suspended solid. The power consumption for a just suspended solid with this type of vessel was comparable with that for a baffled vessel with a unidirectionally rotating impeller, taking the liquid flow along the vessel bottom into consideration. CONCLUSION: Empirical relationships to predict the parameters of agitation requirements were found. A comparative investigation demonstrated the usefulness of the forward-reverse rotation mode of the impeller for off-bottom suspension of solid particles. (c) 2007 Society of Chemical Industry.