Moisture removal system for electric compressor device

What is claimed is: 1. A compressor device comprising: a housing; a rotating group with a shaft and a compressor wheel supported on the shaft, the compressor wheel including a back face; a bearing that supports the rotating group within the housing for rotation about an axis; a spacer of the rotating group that is disposed on the shaft longitudinally along the axis between the back face of the compressor wheel and the bearing, the spacer abutting the compressor wheel and the bearing to maintain spacing along the axis between the compressor wheel and the bearing, the spacer received within a wall of the housing; and a moisture removal system configured to receive and remove moisture included within a fluid flow from the back face of the compressor wheel to an area between the spacer and the wall of the housing, the moisture removal system including a channel cooperatively defined by the spacer and the wall of the housing, the channel extending about the axis. 2. The compressor device of claim 1 , further comprising an electric motor; and wherein the wall of the housing separates the back face of the compressor wheel from the electric motor. 3. The compressor device of claim 1 , wherein the channel extends arcuately about the axis. 4. The compressor device of claim 3 , wherein the channel extends annularly about the axis. 5. The compressor device of claim 4 , wherein the channel has a radial cross-section that remains substantially continuous as the channel extends about the axis. 6. The compressor device of claim 5 , wherein the radial-cross section is U-shaped. 7. The compressor device of claim 3 , further comprising a drain line extending through the wall of the housing, the drain line fluidly connected to the channel. 8. The compressor device of claim 1 , wherein the spacer includes a groove on an outer radial area thereof and that cooperates with an inner radial surface of the wall to define the channel. 9. The compressor device of claim 8 , further comprising a first seal ring and a second seal ring that are attached to the spacer and that are disposed on opposite sides of the groove with respect to the axis. 10. The compressor device of claim 1 , wherein the wall includes a groove on an inner radial area thereof and that cooperates with an outer radial surface of the spacer to define the channel. 11. The compressor device of claim 10 , further comprising a first seal ring and a second seal ring that are attached to the spacer and that are disposed on opposite sides of the groove with respect to the axis. 12. The compressor device of claim 11 , wherein the spacer includes a first part and a second part, the first seal ring is attached to the first part, and the second seal ring is attached to the second part. 13. The compressor device of claim 1 , wherein the bearing is a rolling element bearing with an inner race that is attached to the shaft, the spacer disposed on the shaft and abutting the inner race to maintain spacing along the axis between the compressor wheel and the inner race of the bearing. 14. A method of manufacturing a compressor device comprising: providing a rotating group with a shaft and a compressor wheel supported on the shaft, the compressor wheel including a back face; supporting, with a bearing, the rotating group within a housing for rotation about an axis; disposing a spacer of the rotating group on the shaft longitudinally along the axis between the back face of the compressor wheel and the bearing, the spacer abutting the compressor wheel and the bearing to maintain spacing along the axis between the compressor wheel and the bearing, the spacer received within a wall of the housing; and defining at least part of a moisture removal system that is configured to receive and remove moisture included within a fluid flow from the back face of the compressor wheel to an area between the spacer and the wall of the housing, the moisture removal system including a channel cooperatively defined by the spacer and the wall of the housing, the channel extending about the axis. 15. The method of claim 14 , further comprising housing an electric motor within the housing; wherein supporting the rotating group within the housing includes separating the back face of the compressor wheel from the electric motor with the wall. 16. The method of claim 14 , wherein the channel extends arcuately about the axis. 17. The method of claim 16 , further comprising providing a drain line that extends through the wall of the housing, the drain line fluidly connected to the moisture channel. 18. The method of claim 14 , wherein the spacer includes a groove on an outer radial area thereof that cooperates with an inner radial surface of the wall to define the channel. 19. The method of claim 14 , wherein the wall includes a groove on an inner radial area thereof that cooperates with an outer radial surface of the spacer to define the channel. 20. A fluid system configured to compress a fluid supplied to a receiving device comprising: an upstream compressor device; a downstream compressor device; a valve having a first position and a second position, the fluid system with the valve in the first position providing a first flow path from the upstream compressor device to the downstream compressor device and then to the receiving device, the fluid system with the valve in the second position providing a second flow path from the upstream compressor device to the receiving device that bypasses the downstream compressor device; the downstream compressor device comprising: a housing; a rotating group with a shaft and a compressor wheel supported on the shaft, the compressor wheel including a back face; a rolling element bearing with an inner race that is attached to the shaft, the rolling element bearing supporting the rotating group within the housing for rotation about an axis; a spacer of the rotating group that is attached to the shaft and that is disposed longitudinally along the axis between the back face of the compressor wheel and the bearing, the spacer abutting the compressor wheel and the bearing to maintain spacing along the axis between the compressor wheel and the bearing, the spacer received within a wall of the housing; and a moisture removal system configured to receive and remove moisture included within a fluid flow from the back face of the compressor wheel to an area between the spacer and the wall of the housing, the moisture removal system including a channel cooperatively defined by the spacer and the wall of the housing, the channel extending about the axis.