A compressor impeller for an Auxiliary Power Unit (APU) includes a hub including a plurality of splitter blades interposed between a plurality of main blades. Each of the plurality of splitter blades and the plurality of main blades include a first surface and a second surface. The first surface and
A compressor impeller for an Auxiliary Power Unit (APU) includes a hub including a plurality of splitter blades interposed between a plurality of main blades. Each of the plurality of splitter blades and the plurality of main blades include a first surface and a second surface. The first surface and the second surface of the plurality of splitter blades are defined as a set of X-coordinates, Y-coordinates and Z-coordinates set out in Table S-1 and S-2 scaled by a desired factor. The X-coordinate being in an axial direction, the Y-coordinate being in a first radial direction and the Z-coordinate being in a second radial direction transverse to the first radial direction. Each of the plurality of splitter blades includes a contour between the tip and the leading edge. An auxiliary power unit and method are also disclosed.
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1. A compressor impeller for an Auxiliary Power Unit (APU) comprising: a hub including a plurality of splitter blades interposed between a plurality of main blades, wherein each of the plurality of splitter blades and the plurality of main blades include a first surface and a second surface, the fir
1. A compressor impeller for an Auxiliary Power Unit (APU) comprising: a hub including a plurality of splitter blades interposed between a plurality of main blades, wherein each of the plurality of splitter blades and the plurality of main blades include a first surface and a second surface, the first surface and the second surface of the plurality of splitter blades are defined as a set of X-coordinates, Y-coordinates and Z-coordinates set out in Table S-1 and S-2 scaled by a desired factor, the X-coordinate being in an axial direction, the Y-coordinate being in a first radial direction and the Z-coordinate being in a second radial direction transverse to the first radial direction, wherein each of the plurality of splitter blades includes a contour between a tip and a leading edge. 2. The compressor impeller as recited in claim 1, wherein a first surface and a second surface of the plurality of main blades are defined as a set of X-coordinates, Y-coordinates and Z-coordinates set out in Table M-1 and M-2 scaled by a desired factor, the X-coordinate being in an axial direction, the Y-coordinate being in a first radial direction and the Z-coordinate being in a second radial direction transverse to the first radial direction. 3. A compressor impeller for an Auxiliary Power Unit (APU) comprising: a hub including a plurality of splitter blades interposed between a plurality of main blades, wherein each of the plurality of splitter blades and the plurality of main blades include a first surface and a second surface, the first surface and the second surface of the plurality of splitter blades are defined as a set of X-coordinates, Y-coordinates and Z-coordinates set out in Table S-1 and S-2 scaled by a desired factor, the X-coordinate being in an axial direction, the Y-coordinate being in a first radial direction and the Z-coordinate being in a second radial direction transverse to the first radial direction, wherein each of the plurality of splitter blades includes a contour between a tip and a leading edge;wherein a first surface and a second surface of the plurality of main blades are defined as a set of X-coordinates, Y-coordinates and Z-coordinates set out in Table M-1 and M-2 scaled by a desired factor, the X-coordinate being in an axial direction, the Y-coordinate being in a first radial direction and the Z-coordinate being in a second radial direction transverse to the first radial direction; and,wherein the first surface and the second surface defined by corresponding Tables M-1, M-2, S1 and S2 are adjusted by a manufacturing tolerance. 4. The compressor impeller as recited in claim 1, wherein the contour comprises a surface disposed at angle less than about 90 degrees relative to a leading edge of one or more of the plurality of splitter blades and the plurality of main blades that intersects the leading edge and the tip. 5. The compressor impeller as recited in claim 4, wherein the angle is between about 35 degrees and about 65 degrees relative to the leading edge. 6. The compressor impeller as recited in claim 1, wherein the hub comprises a front surface from which the plurality of splitter and plurality of main blades extends, wherein the front surface is defined as a set of X-coordinates and Rh-coordinates set out in Table H1, wherein X-coordinates extend axially and the Rh-coordinate extend radially. 7. The compressor impeller as recited in claim 1, wherein the hub comprises a back side surface defined as a set of X-coordinates and Rb-coordinates set out in Table H2, wherein the X-coordinates extend axially and the Rb-coordinates extend radially. 8. An auxiliary power unit comprising; a compressor section including an impeller, the impeller including a plurality of splitter blades interposed between a plurality of main blades, wherein each of the plurality of splitter blades includes a suction side and a pressure side, wherein the suction side and the pressure side are defined by a set of X-coordinates, Y-coordinates and Z-coordinates defined according to a corresponding one of Table S1 and Table S2 scaled by a desired factor, the X-coordinate being in an axial direction, the Y-coordinate being in a first radial direction and the Z-coordinate being in a second radial direction transverse to the first radial direction wherein each of the plurality of splitter blades includes a contour between a tip and a leading edge. 9. The auxiliary power unit as recited in claim 8, wherein a suction side and a pressure side of the plurality of main blades are defined as a set of X-coordinates, Y-coordinates and Z-coordinates set out in Table M-1 and M-2 scaled by a desired factor, the X-coordinate being in an axial direction, the Y-coordinate being in a first radial direction and the Z-coordinate being in a second radial direction transverse to the first radial direction. 10. An auxiliary power unit comprising; a compressor section including an impeller, the impeller including a plurality of splitter blades interposed between a plurality of main blades, wherein each of the plurality of splitter blades includes a suction side and a pressure side, wherein the suction side and the pressure side are defined by a set of X-coordinates, Y-coordinates and Z-coordinates defined according to a corresponding one of Table S1 and Table S2 scaled by a desired factor, the X-coordinate being in an axial direction, the Y-coordinate being in a first radial direction and the Z-coordinate being in a second radial direction transverse to the first radial direction wherein each of the plurality of splitter blades includes a contour between a tip and a leading edge;wherein a suction side and a pressure side of the plurality of main blades are defined as a set of X-coordinates, Y-coordinates and Z-coordinates set out in Table M-1 and M-2 scaled by a desired factor, the X-coordinate being in an axial direction, the Y-coordinate being in a first radial direction and the Z-coordinate being in a second radial direction transverse to the first radial direction; andwherein the suction side and the pressure side defined by corresponding Tables M-1, M-2, S1 and S2 are adjusted by a manufacturing tolerance. 11. The auxiliary power unit as recited in claim 8, wherein the contour comprises a surface disposed at angle less than about 90 degrees relative to the leading edge that intersects the leading edge and the tip. 12. The auxiliary power unit as recited in claim 11, wherein the angle of the contour is between about 35 degrees and about 65 degrees relative to the leading edge. 13. The auxiliary power unit as recited in claim 8, wherein the impeller includes a hub and the hub comprises a front surface from which the plurality of splitter and plurality of main blades extends, wherein the front surface is defined as a set of X-coordinates and Rh-coordinates set out in Table H1, wherein X-coordinates extend axially and the Rh-coordinate extend radially. 14. The auxiliary power unit as recited in claim 8, wherein the impeller includes a hub and the hub comprises a back face defined as a set of X-coordinates and Rb-coordinates set out in Table H2, wherein the X-coordinates extend axially and the Rb-coordinates extend radially. 15. The auxiliary power unit as recited in claim 8, including a combustor section and a turbine section coupled to the compressor section through a main shaft, wherein the combustor section is configured to mix compressed air from the compressor section with fuel and to ignite the fuel air mixture to generate a high-speed exhaust gas flow that expands through the turbine section to drive the compressor section. 16. A method of manufacturing a compressor wheel for an auxiliary power unit, the method including: forming an compressor wheel to include a plurality of splitter blades interposed between a plurality of main blades, wherein each of the plurality of splitter blades include a root, a tip, a leading edge, a suction side and a pressure side, wherein the suction side and the pressure side are defined by a set of X-coordinates, Y-coordinates and Z-coordinates defined according to a corresponding one of Table S1 and Table S2 scaled by a desired factor, the X-coordinate being in an axial direction, the Y-coordinate being in a first radial direction and the Z-coordinate being in a second radial direction transverse to the first radial direction wherein each of the plurality of splitter blades includes a contour between the tip and the leading edge. 17. The method as recited in claim 16, further including configuring the compressor wheel such that a suction side and a pressure side of the plurality of main blades are defined as a set of X-coordinates, Y-coordinates and Z-coordinates set out in Table M-1 and M-2 scaled by a desired factor, the X-coordinate being in an axial direction, the Y-coordinate being in a first radial direction and the Z-coordinate being in a second radial direction transverse to the first radial direction. 18. The method as recited in claim 16, further including configuring the contour as a surface disposed at angle between about 35 degrees and about 65 degrees relative to the leading edge that intersects the leading edge and the tip.
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