The flotation mechanism plays a key role in the flotation process. It is used to provide the contact between solid particles and bubbles and also the energy for these particles and bubbles to attach. The mechanism must therefore provide sufficient mixing to keep the solids in suspension so that they can be transported into the froth and recovered to the concentrate. The design of the mechanism is critical and over the past decade Outotec has developed and optimised a new mechanism design to improve metallurgical and energy performance. The FloatForce mechanism consists of a rotor and stator arrangement and has been specifically designed to provide sustained mixing at higher air flows and lower power inputs.Over 500 FloatForce mechanisms have been installed in existing and new operations. This paper outlines the technological aspects of the FloatForce mechanism and provides metallurgical, operational and energy performance results from a number of flotation circuits in which these have been installed._x000D_
FORMAL CITATION:Coleman, R and Rinne, A, 2011. Flotation mechanism design for improved metallurgical and energy performance, in Proceedings MetPlant 2011, pp 405-418 (The Australasian Institute of Mining and Metallurgy: Melbourne).