The AMIRA P266 Improving Thickener Technology' series of projects has sought to provide a firm scientific basis for feedwell and thickener design, a requirement as pressures on water usage in the minerals industry increase. While advanced computational fluid dynamics modelling of feedwell processes has generated the most obvious and successful applications to improving the performance of operating units, such outcomes have drawn heavily on parallel studies into flocculation fundamentals. Central to this has been the development of a linear pipe reactor system that allows the kinetics of flocculated aggregate growth and rupture to be measured for thickener feeds under turbulent pipe flow conditions. This ensures much greater control of the intensity and duration of applied shear than is possible with conventional flocculation test procedures, offering insights into flocculation processes that would be otherwise hidden in time-averaged measurements._x000D_
FORMAL CITATION:Fawell, P D, Owen, A T, Grabsch, A F, Benn, F A, Labbett, D M and Swift, J D, 2009. Factors affecting flocculation within gravity thickeners, in Proceedings Water in Mining 2009, pp 71-76 (The Australasian Institute of Mining and Metallurgy: Melbourne).