Gas turbine diffuser blowing method and corresponding diffuser

The invention claimed is: 1. A method of blowing air in a compression stage diffuser of a compressor of a gas turbine, the diffuser including two end plates enclosing a blade and an air flow from a leading edge to a trailing edge of the blade, the method comprising: coupling a blowing of air into an air passage, the air passage being upstream of the diffuser, via a blowing cavity at the leading edge with a withdrawal of air at a downstream portion of the air passage, the coupling including blowing the withdrawn air into the air passage from upstream to downstream, the blowing being oriented so that the withdrawn air flows along at least one of the blade and the end plates; and withdrawing the air from the air passage by suction into an intake opening, the intake opening being closer to the trailing edge than to the leading edge, and the withdrawn air is blown out via the blowing cavity in the leading edge of the blade to produce the coupling, so that a pressure of the air that is withdrawn is substantially higher than a pressure of air flowing in a region of the withdrawal, wherein the blade includes an upper surface corresponding to one of a pressure side or a suction side of the blade and a lower surface corresponding to the other of the pressure side or the suction side of the blade, the upper and lower surfaces extending longitudinally and substantially parallel to a mean surface of the blade, the leading edge and the trailing edge connecting the upper surface and the lower surface of the blade. 2. The method of blowing according to claim 1 , wherein the air is withdrawn either downstream of the diffuser, in a grille of the stage of the compressor, or in the diffuser, or near to the trailing edge of the blade. 3. The method of blowing according to claim 1 , wherein the withdrawal of air is performed on at least one of the lower and upper surfaces of the blade, and the blowing is on the blades. 4. The method of blowing according to claim 1 , wherein the withdrawal is performed on at least one of a hub and casing end plates of the diffuser, and the blowing is on the end plates. 5. The method of blowing according to claim 1 , wherein the withdrawal is performed on the blades and the blowing is on the end plates. 6. The method of blowing according to claim 1 , wherein the withdrawal is performed on the end plates and the blowing is on the blades. 7. The method according to claim 1 , wherein the trailing edge of the blade is free of any opening. 8. The method according to claim 1 , wherein the air passage extends along the blade between the blowing cavity and the intake opening. 9. A diffuser of a compressor of the centrifugal or mixed type of a gas turbine, comprising: two end plates enclosing a plurality of circumferential blades, each of the blades including an upper surface corresponding to one of a pressure side or a suction side of the blade and a lower surface corresponding to the other of the pressure side or the suction side of the blade, the upper and lower surfaces extending longitudinally and substantially parallel to a mean surface of the blade, a leading edge and a trailing edge connecting the upper surface and the lower surface, wherein a blowing cavity is provided in at least one of the blades and one of the end plates, the blowing cavity blows air into an air passage from upstream to downstream and is situated in a leading edge zone, wherein an intake opening is formed along at least one of the blades and on an internal face of the end plate, the intake opening being closer to the trailing edge than to the leading edge, and wherein air withdrawn from the air passage by suction into the intake opening is blown out via the blowing cavity to produce a coupling. 10. A diffuser of a compressor according to claim 9 , wherein the blowing cavity is formed in at least one of the lower and upper surfaces of the blades and opens towards the intake opening. 11. A diffuser of a compressor according to claim 9 , wherein the blowing cavity and intake opening are formed by at least one of cavities and slots. 12. A diffuser of a compressor according to claim 11 , wherein the blowing cavity and the intake opening have a central axis inclined with respect to normal to the face onto which the blowing cavity and the intake opening open, with an angle substantially between 0 and ±90°. 13. A diffuser of a compressor according to claim 11 , wherein the blowing cavity and the intake opening are positioned along at least one of the upper and lower surfaces of the blades, with a groove connecting the blowing cavity and the intake opening.