| CPC B03D 1/1406 (2013.01) [B03D 1/1456 (2013.01); B03D 1/16 (2013.01); B03D 1/24 (2013.01)] | 39 Claims |
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1. A flotation line for treating mineral ore particles suspended in slurry, comprising a rougher part with at least one rougher flotation cell for the separation of slurry into underflow and overflow with the help of flotation gas, the overflow from the at least one rougher flotation cell arranged to flow directly into a cleaner flotation line; and a scavenger part with at least two scavenger flotation cells for the separation of slurry into underflow and overflow with the help of flotation gas, wherein
the overflow from the at least two scavenger flotation cells is arranged to flow back into the at least one rougher flotation cell of the rougher part of the flotation line, or into a regrinding step and then into the cleaner flotation line;
the underflow of each preceding flotation cell of the flotation line is directed to a subsequent flotation cell of the flotation line as infeed until a last flotation cell of the flotation line, the last flotation cell being a last scavenger flotation cell of the at least two scavenger flotation cells the underflow of which is directed out of the line as tailings,
at least 75% of the flotation cells in the flotation line comprise a mechanical agitator comprising a rotor, a stator, and a system for introducing the flotation gas into the flotation cell;
the flotation cells of the flotation line are connected in series and arranged in fluid communication; and
wherein at least one of the flotation cells comprising the mechanical agitator comprises a microbubble generator for introducing microbubbles into the slurry, and that the underflow from a previous flotation cell is arranged to be led into the subsequent flotation cell by gravity, and
the microbubble generator is arranged to receive slurry from a bottom of a flotation cell via an outlet located in a side wall at the lowest part of the flotation cell, and to return the slurry comprising microbubbles back into the flotation cell via at least one return inlet arranged above, in the vertical direction of the flotation cell, the outlet.
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