Machine and gearbox system with air cooling

What is claimed is: 1. A system, comprising: a machine having an external surface, a first side, a second side, and a first shaft, the first shaft extending from the first side of the machine; a cooling airflow generator mounted on the first shaft and operative to generate a cooling airflow for cooling the machine; a flow guide structure in fluid communication with the cooling airflow generator and constructed to receive the cooling airflow from the cooling airflow generator and to direct the cooling airflow in a direction across the external surface; and a scavenge scoop spaced apart from the flow guide structure and disposed at the second side of the machine, the first side and the second side being opposite side walls of the machine, wherein the external surface is disposed between the scavenge scoop and the flow guide structure, and wherein the scavenge scoop is constructed to collect a portion of the cooling airflow generated by the cooling airflow generator that has flown across the exterior surface and redirect the portion of the cooling airflow across a portion of the second side of the machine. 2. The system of claim 1 , wherein the external surface has a first end disposed proximate to the first side; wherein the flow guide structure is disposed proximate to the first end; wherein the external surface has a second end opposite the first end and disposed proximate to the second side; and wherein the scavenge scoop has an inlet disposed proximate to the second end of the external surface. 3. The system of claim 2 , wherein the shroud is constructed to direct the cooling airflow in an axial direction across the external surface, wherein the inlet is constructed to collect the portion of the cooling airflow after the portion of the cooling airflow has passed over the external surface unbounded and cooled the external surface, and wherein the scavenge scoop is configured to redirect the cooling air flow collected by the inlet to flow in at least an inwardly radial direction across a portion of the second side of the gearbox. 4. The system of claim 2 , wherein the inlet is convex toward the external surface. 5. The system of claim 1 , wherein the scavenge scoop is constructed to entrain additional cooling airflow from the environment in which the machine is located. 6. The system of claim 1 , wherein the scavenge scoop is concave toward the external surface. 7. The system of claim 1 , wherein the external surface includes a plurality of cooling fins. 8. A system, comprising: a machine having an external surface and a first shaft extending from a first side of the machine; a cooling airflow generator mounted on the first shaft and operative to generate a cooling airflow for cooling the machine; a flow guide structure in fluid communication with the cooling airflow generator and constructed to receive the cooling airflow from the cooling airflow generator and to direct the cooling airflow in a direction across the external surface; a scavenge scoop spaced apart from the flow guide structure and disposed at a second side of the machine opposite the first side, wherein the external surface is disposed between the scavenge scoop and the flow guide structure, and wherein the scavenge scoop is constructed to collect a portion of the cooling airflow generated by the cooling airflow generator and redirect the portion of the cooling airflow across a portion of the second side of the machine; and a second shaft extending from the second side of the machine, wherein the second shaft is operative to rotate upon a rotation of the first shaft; and a plurality of rotating suctioning fin blades in thermal engagement with the second shaft, wherein the second shaft is operative to rotate the plurality of rotating suctioning fin blades; wherein the plurality of rotating suctioning fin blades is constructed to generate a suction pressure acting on the scavenge scoop; and wherein the plurality of rotating suctioning fin blades are operative to extract heat from the second shaft via conduction. 9. The system of claim 8 , wherein the machine is a gear reducer; wherein the first shaft is an input shaft; and wherein the second shaft is an output shaft. 10. The system of claim 8 , wherein the rotating suctioning fin blades are constructed to increase the convective surface area of the second shaft. 11. A system, comprising: a gearbox having an external surface, an input face, an output face, and an input shaft, the input shaft extending from the input face of the gearbox, the external surface being positioned between the input face and the output face; a fan or impeller coupled to the input shaft, the fan or impeller being operative to, when rotated by the input shaft, generate a cooling airflow; a shroud constructed to guide the cooling airflow from the fan or impeller and direct the cooling airflow in an axial direction across the external surface and extract heat from the external surface by convection; and a scavenge scoop spaced apart from the shroud and disposed at the output face of the gearbox opposite the input face and opposite the shroud, wherein the external surface is disposed between the scavenge scoop and the shroud, and wherein the scavenge scoop is constructed to collect a portion of the cooling airflow that was directed in an axial direction across the external surface, and which was generated by the fan or impeller, and to redirect the portion of the cooling airflow in at least an inwardly radial direction across a portion of the output face of the gearbox. 12. The system of claim 11 , wherein the external surface has a first end disposed proximate to the input face; wherein the shroud is disposed proximate to the first end; wherein the external surface has a second end opposite the first end and disposed proximate to the output face; and wherein the scavenge scoop has an inlet disposed proximate to the second end of the external surface. 13. The system of claim 12 , wherein the inlet is constructed to collect the portion of the cooling airflow after the portion of the cooling airflow has passed over the external surface unbounded and cooled the external surface. 14. The system of claim 12 , wherein the inlet is convex toward the external surface. 15. The system of claim 11 , wherein the scavenge scoop is constructed to entrain additional cooling airflow from the environment in which the gearbox is located. 16. The system of claim 11 , wherein the scavenge scoop is concave toward the external surface. 17. A system, comprising: a gearbox having an external surface and an input shaft extending from a first side of the gearbox; a fan or impeller coupled to the input shaft, the fan or impeller being operative to, when rotated by the input shaft, generate a cooling airflow; a shroud constructed to guide the cooling airflow from the fan or impeller and direct the cooling airflow in a direction across the external surface and extract heat from the external surface by convection; a scavenge scoop spaced apart from the shroud and disposed at a second side of the gearbox opposite the first side and opposite the shroud, wherein the external surface is disposed between the scavenge scoop and the shroud, and wherein the scavenge scoop is constructed to collect a portion of the cooling airflow generated by the cooling airflow generator and to direct the portion of the cooling airflow across a portion of the second side of the gearbox; and an output shaft extending from the second side of the gearbox, wherein the output shaft is operative to rotate in a proportion to a rotation of the inpu