Reducing Agitator Costs By Minimizing Propeller Losses And Applying Correct Scaling Parameters (69fef318-2e15-40aa-86a8-50806b5d2e4c)

Any type of agitation within a confined vessel is primarily concerned with two parameters: a level of agitation describing the homogeneity of the constituents (whether it be suspension or mixing), and the energy efficiency with which this level of agitation is accomplished. The following is an attempt to present a solution to the problem of adequately defining and optimizing these properties. A discussion is included of the application of good design practices to the determination of a mechanically efficient shape to the blade elements of the propeller. These practices, excluding several appropriate modifications, have been known, but not well understood, in aircraft fluid mechanics for a number of years. Having optimized the direct impartation of energy to the medium being agitated, attention is turned to one of the more perplexing phenomena of multi-phase systems - definition and prediction of agitation levels. The result of recent study and testing is a method of scaling that the authors believe provides a lucid understanding of governing physical parameters within the agitator itself, allowing one to scale up and down with confidence.