Fluid cooling of grease-packed bearings

What is claimed is: 1. An electric starter-generator, comprising: a rotor having an axis of rotation; a housing having a first end, a second end, and a center portion extending from the first end to the second end, said center portion located radially outward of said rotor; a first enclosed bearing rotationally coupling said rotor to said first end of said housing; a second enclosed bearing rotationally coupling said rotor to said second end of said housing, wherein each of said first and second enclosed bearings comprises an inner race coupled to said rotor, an outer race coupled to said housing, and a plurality of rolling-element bearings between and in rotational contact with the inner and outer races; and a stator rigidly coupled to said housing, a cooling-fluid flow path comprising: a cooling-fluid entrance; a cooling-fluid exit; and a first cooling-fluid channel disposed in the first end of the housing and a second cooling-fluid channel disposed in the second end of the housing, the first cooling-fluid channel and the second cooling-fluid channel in fluid communication with said cooling-fluid entrance and cooling-fluid exit, wherein at least a portion of said first cooling-fluid channel is defined by a first fluid-tight coupling of said housing and a first sleeve radially surrounding said outer race of said first enclosed bearing, and at least a portion of the second cooling-fluid channel defined by a second fluid-tight coupling of said housing and a second sleeve radially surrounding said outer race of the second enclosed bearing, said portion of the first cooling-fluid channel and said portion of the second cooling-fluid channel each forming an annular passage of the cooling-fluid channels about said axis, said portion of the first cooling-fluid channel and said portion of the second cooling-fluid channel each comprising: a radially inner surface defined by said first sleeve or said second sleeve respectively; a radially outer surface define by said housing; and two axial surfaces extending from said radially inner surface to said radially outer surface, wherein both of said radially inner and outer surfaces extend from one of said two axial surfaces to the other of said two axial surfaces without interruption, wherein said two axial surfaces extend a distance from said radially inner to outer surfaces that is less than a distance from one of said two axial surfaces to the other of said two axial surfaces, wherein the cooling-fluid flow path extends radially inward from the cooling-fluid entrance to the first cooling-fluid channel and to the second cooling-fluid channel, further extending radially inwards from the first cooling-fluid channel and from the second cooling-fluid channel towards the first enclosed bearing and the second enclosed bearing respectively, around the annular passages of the cooling fluid channels respectively surrounding the first enclosed bearing and the second enclosed bearing, wherein the cooling-fluid flow path further extends radially outward from each respective one of the first cooling-fluid channel and the second cooling-fluid channel to a third cooling-fluid channel radially outward of and in thermal communication with the stator, the third cooling-fluid channel comprising a plurality of annular passages and a plurality of axial passages defined between the center portion of the housing and the stator, the cooling-fluid flow path extending from the first cooling-fluid channel and the second cooling-fluid channel to the annular passages and axial passages of the third cooling-fluid channel. 2. The electric starter-generator of claim 1 , wherein said third cooling-fluid channel extends from proximate to said first end of said housing to said second end of said housing. 3. The electric starter-generator of claim 1 , wherein said third cooling-fluid channel comprises a plurality of channels parallel with one another and with said axis. 4. The electric starter-generator of claim 1 , wherein said third cooling-fluid channel comprises a plurality of channels parallel with one another and perpendicular to said axis. 5. The electric starter-generator of claim 1 , wherein said third cooling-fluid channel comprises a plurality of channels that spiral around said axis at a substantially constant radius. 6. The electric starter-generator of claim 1 , wherein said stator is in thermal communication with at least one of the first cooling-fluid channel or said second cooling-fluid channel. 7. The electric starter-generator of claim 1 , wherein each of said cooling-fluid entrance and said cooling-fluid exit are located on a radially outer surface of the housing at a position proximate to a midpoint between said first and second ends of said housing. 8. The electric starter-generator of claim 1 , wherein each of said cooling-fluid entrance and said cooling-fluid exit are located at a position proximate to one of said first and second ends of said housing. 9. The electric starter-generator of claim 8 , wherein each of said a cooling-fluid entrance and said a cooling-fluid exit are located at a position proximate to a radial center of one of said first and second ends of said housing. 10. The electric starter-generator of claim 1 , wherein said first or second sleeve comprises fins. 11. The electric starter-generator of claim 1 , wherein said first cooling-fluid channel or said second cooling-fluid channel comprises two cooling-fluid inlets and two cooling-fluid outlets. 12. The electric starter-generator of claim 1 , wherein the cooling fluid is fuel. 13. An electric starter-generator, comprising: a rotor having an axis of rotation; a housing having a first end, a second end, and a center portion extending from the first end to the second end, said center portion located radially outward of said rotor; a first enclosed bearing rotationally coupling said rotor to said first end of said housing; a second enclosed bearing rotationally coupling said rotor to said second end of said housing, wherein each of said first and second enclosed bearings comprises an inner race coupled to said rotor, an outer race coupled to said housing, and a plurality of rolling-element bearings between and in rotational contact with the inner and outer races; and a stator rigidly coupled to said housing, a cooling-fluid flow path comprising: a cooling-fluid entrance; a cooling-fluid exit, wherein the cooling-fluid entrance and the cooling-fluid exit are located on a radially outer surface of the housing at a position proximate to a midpoint between the first end and the second end of said housing; and a first cooling-fluid channel disposed in the first end of the housing and a second cooling-fluid channel disposed in the second end of the housing, the first cooling-fluid channel and the second cooling-fluid channel in fluid communication with said cooling-fluid entrance and cooling-fluid exit, wherein at least a portion of said first cooling-fluid channel is defined by a first fluid-tight coupling of said housing and a first sleeve radially surrounding said outer race of said first enclosed bearing, and at least a portion of the second cooling-fluid channel defined by a second fluid-tight coupling of said housing and a second sleeve radially surrounding said outer race of the second enclosed bearing, said portion of the first cooling-fluid channel and said portion of the second cooling-fluid channel each forming an annular passage of the cooling-fluid channels about said axis, said portion of the first cooling-fluid channel and said portion of the second cooling-fluid channel each comprising: a radially inner surface defined by said first sleev