Flotation arrangement

The invention claimed is: 1. A flotation arrangement for treating mineral ore particles suspended in slurry, comprising flotation cells for the separation of slurry into underflow and overflow wherein the separation is performed with the help of flotation gas, and wherein the arrangement comprises a primary flotation line, wherein underflow of each preceding flotation cell of the primary flotation line is directed to a subsequent flotation cell of the primary flotation line as infeed until a last flotation cell of the primary flotation line, the primary flotation line comprising: a rougher part with at least two rougher primary flotation cells connected in series and arranged in fluid communication, the at least two rougher primary flotation cells comprising a first rougher primary flotation cell and a further rougher primary flotation cell downstream from the first rougher primary flotation cell, overflow from the first rougher primary flotation cell arranged to flow directly into a first rougher cleaner flotation cell arranged in fluid communication with the first rougher primary flotation cell and to receive primary overflow from the first rougher primary flotation cell for the recovery of a first concentrate; and a scavenger part with at least two scavenger primary flotation cells connected in series and arranged in fluid communication, overflow from the at least two scavenger primary flotation cells arranged to flow into a regrinding step and then into a scavenger cleaner flotation line; wherein underflow from the first rougher cleaner flotation cell is arranged to be combined into: overflow from any rougher primary flotation cell downstream from the first rougher primary flotation cell; or combined overflows from any rougher primary flotation cells downstream from the first rougher primary flotation cell; or overflow from an additional rougher cleaner flotation cell arranged to receive primary overflow from any at least one rougher primary flotation cell downstream from the first rougher primary flotation cell. 2. The flotation arrangement according to claim 1 , wherein primary overflow of the further rougher primary flotation cell is arranged to flow into a second rougher cleaner flotation cell arranged in fluid communication with the further rougher primary flotation cell and to receive primary overflow from the further rougher primary flotation cell for the recovery of a second concentrate. 3. The flotation arrangement according to claim 2 , wherein underflow from the second rougher cleaner flotation cell is arranged to be combined: into overflow from any rougher primary flotation cell downstream from the further rougher primary flotation cell; or into combined overflows from any rougher primary flotation cells downstream from the further rougher primary flotation cell; or into overflow from the additional rougher cleaner flotation cell arranged to receive primary overflow from any one or more rougher primary flotation cells downstream from the further rougher primary flotation cell. 4. The flotation arrangement according to claim 1 , wherein the first rougher cleaner flotation cell is arranged to receive primary overflow from the first rougher primary flotation cell, and the additional rougher cleaner flotation cell is arranged to receive primary overflow from any at least two rougher primary flotation cells downstream from the first rougher primary flotation cell. 5. The flotation arrangement according to claim 1 , wherein the first rougher cleaner flotation cell is arranged in direct fluid communication with the first rougher primary flotation cell. 6. The flotation arrangement according to claim 1 , wherein the first rougher cleaner flotation cell is arranged to receive primary overflow from 1 or 2 rougher primary flotation cells other than the first rougher primary flotation cell. 7. The flotation arrangement according to claim 1 , wherein the rougher cleaner flotation cell is arranged to receive primary overflow from at most one rougher primary flotation cell other than the first rougher primary flotation cell. 8. The flotation arrangement according to claim 7 , wherein the rougher cleaner flotation cell is arranged to receive primary overflow from no rougher primary flotation cell other than the first rougher primary flotation cell. 9. The flotation arrangement according to claim 2 , wherein the second rougher cleaner flotation cell is arranged to receive primary overflow from any at least one rougher primary flotation cell other than the further rougher primary flotation cell. 10. The flotation arrangement according to claim 2 , wherein the first rougher cleaner flotation cell has a volume larger than that of the second rougher cleaner flotation cell. 11. The flotation arrangement according to claim 2 , wherein the second rougher cleaner flotation cell has a volume larger than that of the first rougher cleaner flotation cell. 12. The flotation arrangement according to claim 1 , wherein the first rougher primary flotation cell has a volume of at least 150 m3. 13. The flotation arrangement according to claim 1 , wherein the first rougher cleaner flotation cell has a volume in a range from 100 m3 to 2000 m3. 14. The flotation arrangement according to claim 2 , wherein the second rougher cleaner flotation cell has a volume in a range from 100 m3 to 2000 m3. 15. The flotation arrangement according to claim 1 , wherein flow of slurry between any two flotation cells in fluid connection is driven by gravity. 16. The flotation arrangement according to claim 15 , wherein flow of slurry between the first rougher primary flotation cell and the further rougher primary flotation cell is driven by gravity. 17. The flotation arrangement according to claim 15 , wherein flow of slurry between any rougher primary flotation cell and the first rougher cleaner flotation cell is driven by gravity. 18. The flotation arrangement according to claim 17 , wherein flow of slurry between the first rougher primary flotation cell and the first rougher cleaner flotation cell is driven by gravity. 19. The flotation arrangement according to claim 2 , wherein flow of slurry between the further rougher primary flotation cell and the second rougher cleaner flotation cell is driven by gravity. 20. The flotation arrangement according to claim 1 , wherein primary overflow from at least one of the at least two scavenger primary flotation cells is arranged to flow directly into the regrinding step. 21. The flotation arrangement according to claim 20 , wherein the overflow from the at least two scavenger flotation cells is arranged to flow directly into the regrinding step. 22. The flotation arrangement according to claim 2 , wherein combined overflows from the first and the second rougher cleaner flotation cell is arranged to flow into a further processing step. 23. The flotation arrangement according to claim 1 , wherein the at least two scavenger primary flotation cells comprises a last scavenger primary flotation cell, underflow from the last scavenger primary flotation cell being arranged to flow into a further processing step or to leave the flotation arrangement as tailings. 24. The flotation arrangement according to claim 22 , wherein the further processing step comprises at least one step selected from: a grinding step, a conditioning step, and a flotation step. 25. The flotation arrangement according to claim 1 , wherein the flotation ar