Air fuel premixer for low emissions gas turbine combustor

The invention claimed is: 1. A system for premixing fuel and air prior to combustion in a gas turbine engine, comprising: a mixing duct having a circular cross-section defined by a wall; a centerbody fuel injector located along a central axis of the mixing duct and extending substantially the full length of said mixing duct, an outer annular swirler located adjacent an upstream end of the mixing duct and including a plurality of circumferentially spaced vanes oriented so as to swirl air flowing therethrough in a first swirl direction; an inner annular swirler located adjacent of the mixing duct upstream end and including a plurality of circumferentially spaced vanes oriented so as to swirl air flowing therethrough in a second swirl direction opposite of the first swirl direction; a hub separating said inner and outer annular swirlers to permit independent rotation of an air stream therethrough; and a plurality of hollow paths located radially outward around the centerbody fuel injector and at a radially inward side of the inner annular swirler; wherein the plurality of hollow paths are configured to allow a flow of sweeping air over a surface of the centerbody fuel injector, wherein the plurality of hollow paths comprise a plurality of holes disposed in the vanes of the inner annular swirler. 2. The system of claim 1 , further comprising a fuel supply in flow communication with the centerbody fuel injector. 3. The system of claim 1 , wherein the plurality of hollow paths are formed by a plurality of straight vanes disposed between the inner annular swirler and the centerbody fuel injector. 4. The system of claim 1 , wherein the plurality of holes are disposed on an inner radial portion of the vanes of the inner annular swirler. 5. The system of claim 1 , wherein the mixing duct allows uniform mixing of a high pressure air from a compressor flowing through the inner and outer annular swirlers with a fuel from the centerbody fuel injector. 6. The system of claim 1 , wherein the centerbody fuel injector comprises a plurality of orifices therein to inject fuel into said mixing duct. 7. The system of claim 6 , wherein each of the plurality of orifices comprises an injection angle that is aligned with an inner swirl vane angle of the inner annular swirler for enabling fuel penetration into a shearing layer of flows of air from the inner and outer annular swirlers. 8. A method for premixing fuel and air prior to combustion in a gas turbine engine, the method comprising: directing a first flow of compressed air into a mixing duct in a first swirl direction from an outer annular swirler located adjacent an upstream end of the mixing duct; directing a second flow of compressed air into the mixing duct in a second swirl direction opposite the first swirl direction from an inner annular swirler located adjacent an upstream end of the mixing duct: injecting fuel into the mixing duct from a centerbody fuel injector located along a central axis of the mixing duct; and passing a flow of sweeping air over the surface of the centerbody fuel injector into the mixing duct from a plurality of hollow paths located radially outward around the centerbody fuel injector and at a radially inward side of the inner annular swirler for preventing formation of recirculation zone around the centerbody fuel injector, wherein the plurality of hollow paths comprise a plurality of holes disposed in the vanes of the inner annular swirler. 9. The method of claim 8 , further comprising injecting fuel into the mixing duct from a plurality of orifices disposed in the centerbody fuel injector. 10. The method of claim 9 , wherein each of the plurality of orifices comprises an injection angle that is aligned with an inner swirl vane angle of the inner annular swirler for enabling fuel penetration into a shearing layer of flows of air from the inner and outer annular swirlers. 11. The method of claim 8 , wherein the plurality of hollow paths are formed by a plurality of straight vanes disposed between the inner annular swirler and the centerbody fuel injector. 12. The method of claim 8 , wherein the plurality of holes are disposed on an inner radial portion of the vanes of the inner annular swirler. 13. A gas turbine comprising: an air fuel premixer comprising: a mixing duct having a circular cross-section defined by a wall; a centerbody fuel injector located along a central axis of the mixing duct and extending substantially the full length of said mixing duct, an outer annular swirler located adjacent an upstream end of the mixing duct and including a plurality of circumferentially spaced vanes oriented so as to swirl air flowing therethrough in a first swirl direction; an inner annular swirler located adjacent of the mixing duct upstream end and including a plurality of circumferentially spaced vanes oriented so as to swirl air flowing therethrough in a second swirl direction opposite of the first swirl direction; a hub separating said inner and outer annular swirlers to permit independent rotation of an air stream therethrough; and a plurality of hollow paths located radially outward around the centerbody fuel injector and at a radially inward side of the inner annular swirler; wherein the plurality of hollow paths are configured to allow a flow of sweeping air over the surface of the centerbody fuel injector, wherein the plurality of hollow paths comprise a plurality of holes disposed in the vanes of the inner annular swirler. 14. The gas turbine of claim 13 , wherein the plurality of hollow paths are formed by a plurality of straight vanes disposed between the inner annular swirler and the centerbody fuel injector. 15. The gas turbine of claim 13 , wherein the plurality of holes are disposed on an inner radial portion of the vanes of the inner annular swirler.