1.Grinding to liberate the mineral particles
2.Reagent conditioning to achieve hydrophobic surface charges on the desired particles
3.Collection and upward transport by bubbles in an intimate contact with air or nitrogen
4.Formation of a stable froth on the surface of the flotation cell
5.Separation of the mineral laden froth from the bath (flotation cell)
Simple flotation circuit for mineral concentration. Numbered triangles show direction of stream flow, Various flotation reagents are added to a mixture of ore and water (called pulp) in a conditioning tank. The flow rate and tank size are designed to give the minerals enough time to be activated. The conditioner pulp [1] is fed to a bank of rougher cells which remove most of the desired minerals as a concentrate. The rougher pulp [2] passes to a bank of scavenger cells where additional reagents may be added. The scavenger cell froth [3] is usually returned to the rougher cells for additional treatment, but in some cases may be sent to special cleaner cells. The scavenger pulp is usually barren enough to be discarded as tails. More complex flotation circuits have several sets of cleaner and re-cleaner cells, and intermediate re-grinding of pulp or concentrate.