Motor cooling system manifold

I claim: 1. A cooling system for a motor-compressor, comprising: a discharge assembly comprising a hub portion disposed radially outward of a rotary shaft of the motor-compressor and a plurality of arms fluidly coupled with and extending generally tangential from the hub portion, the hub portion defining an annular volume fluidly coupled with the plurality of arms; a blower impeller disposed in the annular volume and coupled with the rotary shaft, the blower impeller configured to rotate with the rotary shaft and draw a cooling fluid into the discharge assembly; a return line fluidly coupled with an inlet of the discharge assembly and configured to direct the cooling fluid thereto; a heat exchanger fluidly coupled with the return line upstream of the inlet of the discharge assembly and configured to cool the cooling fluid flowing therethrough; and a plurality of distribution tubes, each distribution tube fluidly coupling a respective arm of the plurality of arms with at least one internal cooling passage of the motor-compressor, and the plurality of distribution tubes comprising at least one internal distribution tube contained entirely in a housing of the motor-compressor, the at least one internal distribution tube extending axially from the discharge assembly to and through a portion of the housing supporting a radial bearing and toward a motor of the motor compressor, and the at least one internal distribution tube configured to direct the cooling fluid from the discharge assembly to the motor to cool the motor; and an external distribution tube extending axially from the discharge assembly in an opposing direction to the at least one internal distribution tube, the external distribution tube extending to and through the housing, such that at least a portion of the external distribution tube is disposed external to the housing of the motor-compressor. 2. The cooling system of claim 1 , wherein the discharge assembly further comprises a diffuser portion disposed between the blower impeller and the plurality of arms, the diffuser portion configured to receive the cooling fluid from the blower impeller and direct the cooling fluid to the plurality of arms. 3. A motor-compressor, comprising: a housing having a motor end, and a compressor end, the housing defining a plurality of internal cooling passages; a motor coupled with a rotary shaft and in fluid communication with at least one of the plurality of internal cooling passages; radial bearings disposed proximal each end portion of the rotary shaft, the radial bearings in fluid communication with at least one of the plurality of internal cooling passages; a discharge assembly comprising a hub portion disposed radially outward of the rotary shaft and a plurality of arms fluidly coupled with and extending outward from the hub portion, the hub portion defining an annular volume fluidly coupled with the plurality of arms; a blower impeller disposed in the annular volume and coupled with the rotary shaft, the blower impeller configured to rotate with the rotary shaft and draw a cooling fluid into the discharge assembly; and a plurality of distribution tubes, each distribution tube fluidly coupling a respective arm of the plurality of arms with at least one internal cooling passage of the plurality of internal cooling passages, and the plurality of distribution tubes comprising at least one internal distribution tube contained entirely in a housing of the motor-compressor, the at least one internal distribution tube extending axially from the discharge assembly to and through a portion of the housing supporting a first radial bearing of the radial bearings and toward the motor, and the at least one internal distribution tube configured to direct the cooling fluid from the discharge assembly to the motor to cool the motor; and an external distribution tube extending axially from the discharge assembly in an opposing direction to the at least one internal distribution tube, the external distribution tube extending to and through the housing, such that at least a portion of the external distribution tube is disposed external to the housing of the motor-compressor. 4. The motor-compressor of claim 3 , wherein the plurality of arms extend generally tangential from the hub portion of the discharge assembly. 5. The motor-compressor of claim 3 , further comprising: a return line fluidly coupled with an inlet of the discharge assembly and configured to direct the cooling fluid thereto; and a heat exchanger fluidly coupled with the return line upstream of the inlet of the discharge assembly and configured to cool the cooling fluid flowing through the return line. 6. The motor-compressor of claim 3 , wherein the discharge assembly further comprises a diffuser portion disposed between the blower impeller and the plurality of arms, the diffuser portion configured to redirect the cooling fluid from the blower impeller to the plurality of arms. 7. The motor-compressor of claim 6 , wherein the diffuser portion is a vaneless diffuser. 8. A method for cooling a motor-compressor, comprising: supporting each end portion of a rotary shaft in a housing of the motor-compressor with radial bearings, the housing defining a plurality of internal cooling passages, and at least one of the plurality of internal cooling passages being in fluid communication with at least one of the radial bearings; rotating the rotary shaft with a motor coupled therewith; driving a blower impeller coupled with the rotary shaft; directing a cooling fluid to a discharge assembly disposed radially outward of the rotary shaft, the discharge assembly at least partially defining an annular volume in a hub portion of the discharge assembly; discharging the cooling fluid from the discharge assembly to the plurality of internal cooling passages via a plurality of arms extending outward from the hub portion of the discharge assembly; and directing the cooling fluid from the plurality of arms to the plurality of internal cooling passages via a plurality of distribution tubes to thereby cool the motor-compressor, wherein each distribution tube of the plurality of distribution tubes fluidly couples a respective arm of the plurality of arms with at least one internal cooling passage of the motor-compressor, and the plurality of distribution tubes comprises at least one internal distribution tube contained entirely in a housing of the motor-compressor, the at least one internal distribution tube extends axially from the discharge assembly to and through a portion of the housing supporting a first radial bearing of the radial bearings and toward the motor, and the at least one internal distribution tube configured to direct the cooling fluid from the discharge assembly to the motor to cool the motor; and an external distribution tube extending axially from the discharge assembly in an opposing direction to the at least one internal distribution tube, the external distribution tube extending to and through the housing, such that at least a portion of the external distribution tube is disposed external to the housing of the motor-compressor. 9. The method of claim 8 , further comprising cooling the cooling fluid directed to the discharge assembly with a heat exchanger. 10. The method of claim 8 , further comprising directing the cooling fluid from the blower impeller to the plurality of arms via a diffuser portion of the discharge assembly. 11. The method of claim 8 , wherein the plurality of arms extend generally tangential from the hub portion of the discharge assembly.