Service routing configuration for a gas turbine engine diffuser system

The invention claimed is: 1. A radial diffuser for directing a flow of compressed air with a radial component to a diffused annular flow having an axial component, the radial diffuser comprising: a housing including an air inlet and an air outlet, and defining a radial section extending at least substantially radially outward from the air inlet to a transition between the air inlet and air outlet, an axial section extending at least substantially axially from the transition to the air outlet, the transition including a bend extending between the radial section and the axial section; and a plurality of diffuser vanes coupled to the housing and extending through the radial section, the plurality of diffuser vanes defining a plurality of diffusion flow passages through the radial section, a deswirl cascade having a plurality of deswirl vanes and coupled to the housing after the bend in the transition, wherein the plurality of deswirl vanes are arranged in a first row of deswirl vanes and a second row of deswirl vanes and a plurality of spaces devoid of deswirl vanes is formed in the first row of deswirl vanes, and a plurality of vane extensions are disposed after the radial section, extending through the bend with each one of the plurality of vane extensions extending into one of the plurality spaces, wherein at least a portion of the vane extensions include a service passage extending therethrough, each service passage being configured to allow a service conduit to extend therethrough. 2. The radial diffuser of claim 1 , wherein each of the plurality of vane extensions is further configured to deswirl the diffused air. 3. The radial diffuser of claim 1 , further comprising: at least one service conduit extending through the service passage. 4. The radial diffuser of claim 1 , wherein each of the plurality of vane extensions provides a structural tie with at least one external structure. 5. A gas turbine engine, comprising: an engine housing; a compressor, a combustor, and a turbine all mounted in flow series within the housing, the compressor including at least: a compressor housing; an impeller rotationally mounted within the compressor housing and having a leading edge and a trailing edge, the impeller operable, upon rotation thereof, to discharge a flow of air having a velocity magnitude and a pressure magnitude from the trailing edge; and a radial diffuser for directing a flow of compressed air with a radial component to a diffused annular flow having an axial component, the radial diffuser comprising: a housing including an air inlet and an air outlet, and defining a radial section extending at least substantially radially outward from the air inlet to a transition between the air inlet and air outlet, an axial section extending at least substantially axially from the transition to the air outlet, the transition including a bend and extending between the radial section and the axial section; and a plurality of diffuser vanes coupled to the housing and extending through the radial section, the plurality of diffuser vanes defining a plurality of diffusion flow passages through the radial section, a deswirl cascade having a plurality of deswirl vanes and coupled to the housing after the bend in the transition, wherein the plurality of deswirl vanes are arranged in a first row of deswirl vanes and a second row of deswirl vanes and a plurality of spaces devoid of deswirl vanes is formed in the first row of deswirl vanes, and a plurality of vane extensions are disposed after the radial section, extending through the bend with each one of the plurality of vane extensions extending into one of the plurality spaces, wherein at least a portion of the vane extensions include a service passage extending therethrough, each service passage being configured to allow a service conduit to extend therethrough. 6. The gas turbine engine of claim 5 , wherein each of the plurality of vane extensions is further configured to deswirl the diffused air. 7. The gas turbine engine of claim 5 , further comprising at least one service conduit extending through the service passage. 8. The gas turbine engine of claim 5 , wherein each of the plurality of vane extensions provide a structural tie with at least one external structure. 9. The gas turbine engine of claim 8 , wherein the structural tie defines at least one load path from a mid-sump housing to the compressor housing. 10. A compressor system comprising a compressor housing; an impeller rotationally mounted within the compressor housing and having a leading edge and a trailing edge, the impeller operable, upon rotation thereof, to discharge a flow of air having a velocity magnitude and a pressure magnitude from the trailing edge; and a radial diffuser for directing a flow of compressed air with a radial component to a diffused annular flow having an axial component, the radial diffuser comprising: a housing including an air inlet and an air outlet, and defining a radial section extending at least substantially radially outward from the air inlet to a transition between the air inlet and air outlet, an axial section extending at least substantially axially from the transition to the air outlet, the transition including a bend and extending between the radial section and the axial section; and a plurality of diffuser vanes coupled to the housing and extending through the radial section, the plurality of diffuser vanes defining a plurality of diffusion flow passages through the radial section, a deswirl cascade having a plurality of deswirl vanes and coupled to the housing after the bend in the transition, wherein the plurality of deswirl vanes are arranged in a first row of deswirl vanes and a second row of deswirl vanes and a plurality of spaces devoid of deswirl vanes is formed in the first row of deswirl vanes, and a plurality of vane extensions are disposed after the radial section, extending through the bend with each one of the plurality of vane extensions extending into one of the plurality spaces, wherein at least a portion of the vane extensions include a service passage extending therethrough, each service passage being configured to allow a service conduit to extend therethrough. 11. The compressor system of claim 10 , wherein each of the plurality of vane extensions is further configured to deswirl the diffused air. 12. The compressor system of claim 10 , further comprising at least one service conduit extending through the service passage. 13. The compressor system of claim 10 , wherein each of the plurality of vane extensions provides a structural tie with at least one external structure. 14. The gas turbine engine of claim 13 , wherein the structural tie defines at least one load path from a mid-sump housing to the compressor housing.