Centrifugal pump

The invention claimed is: 1. A centrifugal pump for conveying a gaseous fiber pulp suspension, comprising: a pump housing; a rotatable shaft ( 21 ) in the pump housing and defining a rotation axis; an impeller ( 12 ) in the pump housing, wherein the impeller has a base plate rigidly connected to the shaft and the base plate has front and rear sides; at least one opening ( 15 ) from the front side to the rear side of the base plate; a plurality of ribs ( 16 ) on the rear side of the base plate; a separator unit ( 17 ) in the pump housing, confronting the ribs ( 16 ) on the rear side of the base plate, said separator unit including, a separator housing ( 25 ), having a wall with a front side confronting the ribs ( 16 ) which are on the rear side of the base plate, said wall including a stator plate ( 18 ) with stationary ribs ( 19 ); an imperforate disc ( 22 ) firmly connected completely around and rotatable with the shaft, said disc ( 22 ) having a front side facing the stator plate ( 18 ); a gas collecting chamber ( 31 ) having a gas discharge pipe ( 28 ); and a gas flow path from the disc ( 22 ), to the gas collecting chamber ( 31 ). 2. The pump of claim 1 , wherein the stator plate ( 18 ) has a front side and a rear side, the front side of the stator plate ( 18 ) has a smooth surface ( 20 ) and the ribs ( 19 ) on the stator plate ( 18 ) are on the rear side of the stator plate. 3. The pump of claim 2 , wherein the disc ( 22 ) that rotates with the shaft ( 21 ) has front and rear sides, the front side has a smooth surface ( 23 ) and the rear side carries radially outwardly extending ribs ( 24 ). 4. The pump of claim 3 , wherein the separator housing ( 25 ) includes an opening ( 27 ) for delivering flushing fluid to the ribs ( 24 ) on the rear side of the disc ( 22 ) that rotates with the shaft ( 21 ). 5. The pump of claim 1 , wherein the disc ( 22 ) that rotates with the shaft ( 21 ) has ribs ( 24 ). 6. The pump of claim 1 , wherein the disc ( 22 ) that rotates with the shaft ( 21 ) has front and rear sides, the front side has a smooth surface ( 23 ) and the rear side carries radially outwardly extending ribs ( 24 ). 7. The pump of claim 6 , wherein the separator housing ( 25 ) includes an opening ( 27 ) for delivering flushing fluid to the ribs ( 24 ) on the rear side of the disc ( 22 ) that rotates with the shaft ( 21 ). 8. The pump of claim 1 , wherein a fluidizer ( 13 ) is provided in front of the impeller ( 12 ). 9. The pump of claim 1 , wherein the imperforate disc has a closed surface without any openings. 10. A centrifugal pump for conveying a gaseous fiber pulp suspension, comprising: a rotatable shaft ( 21 ) defining a rotation axis; an impeller ( 12 ) having a base plate rigidly connected to the shaft and the base plate having front and rear sides, and a plurality of blades at the front side of the base plate and extending radially outward along the base plate; at least one opening ( 15 ) from the front to the rear side of the base plate; a plurality of radially outwardly extending ribs ( 16 ) on the rear side of the base plate; a separator unit ( 17 ) confronting the ribs ( 16 ) on the rear side of the base plate, said separator unit including; a stationary separator housing ( 25 ), having a wall with a front side confronting the ribs ( 16 ) on the rear side of the base plate, said wall including a stator plate ( 18 ) having a front side and a rear side, with radially outwardly extending stationary ribs ( 19 ) on said rear side; a hub ( 30 ) connected to the shaft for co-rotation therewith and including an imperforate disc ( 22 ) firmly connected completely around and extending radially from the hub, said disc ( 22 ) having a front side confronting the ribs ( 19 ) on the stator plate ( 18 ); a gas collecting chamber ( 31 ) located axially rearward of the disc ( 22 ) and having a gas discharge pipe ( 28 ); and a gas flow path from the front of the disc ( 22 ), along a radially outer portion of the disc ( 22 ) to the gas collecting chamber ( 31 ). 11. The pump of claim 10 , wherein the disc ( 22 ) has a rear side and a plurality of radially extending ribs ( 24 ) are connected to the rear side of the disc. 12. The pump of claim 11 , wherein the separator housing includes an opening ( 27 ) for delivering flushing fluid to said ribs ( 24 ) at the rear side of said disc ( 22 ). 13. The pump of claim 11 , wherein an annular chamber ( 29 ) is provided between the hub ( 30 ) and the stator plate ( 18 ), leading to the front side of the disc ( 22 ); the disc has a radially outer edge and a gap ( 26 ) is provided between the radially outer edge of said disc ( 22 ) and the separator housing ( 25 ); an annular opening ( 32 ) is provided between the hub ( 30 ) and the separator housing, rearward of the ribs ( 24 ) at the rear side of said disc ( 22 ); whereby a fluid flow path is defined from the impleller ( 12 )through said at least one opening ( 15 )to said rids ( 16 )on the base plate; from said ribs ( 16 )on the base plate through said annular chamber ( 29 ) to said gap ( 26 ); and from said gap along said ribs ( 24 ) on the rear side of said disc ( 22 ) and through said annular opening ( 32 ) to said gas collecting chamber ( 31 ). 14. The pump of claim 13 where the impeller ( 12 ) is in a pump housing and the separator unit ( 17 ) is also in the pump housing. 15. The pump of claim 13 , wherein the imperforate disc has a closed surface without any openings. 16. The pump of claim 15 , whereby the gas that flows to said gas collection chamber ( 31 ) passes radially along the front side of the disc ( 22 ) to the radially outer edge of the disk ( 22 ), through said gap ( 26 ), then radially inward along the rear side of said disc ( 22 ) to the gas collecting chamber ( 31 ). 17. The pump of claim 16 , wherein any pulp present at the rear side of the disc ( 22 ) is conveyed through the gap ( 26 ) in revere flow relative to the gas, to the front side of the disc ( 22 ) and to said annular chamber ( 29 ) whereupon said pulp is introduced to the ribs ( 16 ) at the rear of the base plate. 18. The pump of claim 10 , wherein the front side of the disc ( 22 ) has a smooth surface ( 23 ). 19. The pump of claim 10 , wherein a fluidizer ( 13 ) is provided in front of the impeller ( 12 ). 20. The pump of claim 19 , wherein the fluidizer is a rotor connected to the pump shaft. 21. The pump of claim 10 , wherein the imperforate disc has a closed surface without any openings.