Enhanced charge air cooler

The invention claimed is: 1. A system, comprising: a charge-air cooler coupled via an upper bracket and a lower bracket to a vehicle body, the charge-air cooler including an inlet fluidically coupled to a compressor and an outlet fluidically coupled to an intake manifold of an engine; and an axial dual fan system connected to the upper and lower brackets via one or more isolators, the axial dual fan system comprising a perforated housing including a rectangular frame, a first upper connector, and a second upper connector, each upper connector extending from the rectangular frame to the upper bracket and including a plurality of hatched ribs. 2. The system of claim 1 , wherein the axial dual fan system extends vertically to the upper bracket on a top side, and extends vertically to the lower bracket on a bottom side, and wherein the perforated housing further includes a first circular ring, a second circular ring, and a plurality of structural ribs each extending between a respective circular ring and the rectangular frame, the first circular ring accommodating a first fan of the axial dual fan system and the second circular ring accommodating a second fan of the axial dual fan system. 3. The system of claim 2 , wherein the dual fan system is not coupled directly to the vehicle body and is not directly coupled to end tanks of the charge air cooler, and where the axial dual fan system is coupled only to the upper and lower brackets. 4. The system of claim 3 , wherein the charge-air cooler and the axial dual fan system are arranged with a parallel alignment, the axial dual fan system positioned directly adjacent to the charge-air cooler without any intervening components therebetween, and wherein the perforated housing further comprises one or more crossed-rib supports coupled between the first circular ring and the second circular ring. 5. The system of claim 4 , wherein a width of the axial dual fan system in a lateral direction is smaller than a width of the charge-air cooler. 6. The system of claim 5 , wherein an axis extending through a center of each fan aligns with a horizontal axis bisecting the charge-air cooler. 7. The system of claim 6 , wherein each fan of the axial dual fan system has an asymmetric blade arrangement. 8. The system of claim 7 , wherein the asymmetric blade arrangement further includes fan blades with two or more blade spacings. 9. The system of claim 8 , wherein the axial dual fan system is configured to operate each fan at the same speed. 10. The system of claim 2 , wherein the one or more isolators comprise a rubber material, a first set of isolators connecting the axial dual fan system to the upper bracket and a second set of isolators connecting the axial dual fan system to the lower bracket, where the perforated housing attaches to the upper bracket via the first set of isolators and the perforated housing attaches to the lower bracket via the second set of isolators, wherein each isolator of the first set of isolators comprises an annular base coupled to a hollow sloped cylinder, the hollow sloped cylinder shaped to receive a complementary fitting on the perforated housing, the annular base including a first bottom surface extending from the hollow sloped cylinder and a second bottom surface extending from the first bottom surface, the second bottom surface angled with respect to the first bottom surface. 11. An engine configured to increase an airflow through a heat exchanger, comprising: a heat exchanger coupled to a vehicle body via an upper bracket and a lower bracket; an axial dual fan system connected to the upper and lower brackets via one or more rubber isolators and arranged directly adjacent to the heat exchanger, the upper bracket coupled to the axial dual fan system on a first plane of the upper bracket, coupled to the heat exchanger on a second plane of the upper bracket, and coupled to the vehicle body on a third plane of the upper bracket, the lower bracket coupled to the axial dual fan system and the heat exchanger on a first plane of the lower bracket and coupled to the vehicle body on a second plane of the lower bracket. 12. The engine of claim 11 , wherein the one or more rubber isolators connect the axial dual fan system to the upper and lower brackets with no parts intervening therebetween, wherein the upper bracket includes a first tab and a second tab each extending from a bracket stem of the upper bracket, the first tab and second tab each including a respective fan assembly hole for receiving a rubber isolator of the one or more rubber isolators, and wherein the lower bracket includes a third tab extending from a bracket stem of the lower bracket, the third tab including two fan assembly holes for receiving respective rubber isolators of the one or more rubber isolators. 13. The engine of claim 12 , wherein the heat exchanger is a charge-air cooler, wherein the first plane of the upper bracket is parallel to the second plane of the upper bracket, and the third plane of the upper bracket is parallel to the first plane and the second plane of the upper bracket, and wherein the first plane of the lower bracket is parallel to the second plane of the lower bracket. 14. The engine of claim 11 , wherein the axial dual fan system includes a perforated housing. 15. The engine of claim 14 , wherein the perforated housing is shaped to accommodate dual fans, wherein the dual fans comprise asymmetric blades having at least two blade spacings. 16. The engine of claim 15 , wherein the dual fans synchronously operate at a single speed. 17. The engine of claim 16 , further comprising a controller including instructions to operate the dual fans synchronously at the single speed responsive to an engine load above a threshold. 18. A cooling unit for a vehicle, comprising: a charge-air cooler, upper and lower brackets for coupling the charge-air cooler to a vehicle body via the upper and lower brackets; and a dual fan system connecting to only the upper and lower brackets via one or more isolators and arranged adjacent to the charge-air cooler, wherein the dual fan system comprises a housing that extends to the upper bracket and to the lower bracket, the housing including perforations, the one or more isolators comprising a first isolator including an annular base coupled to a hollow sloped cylinder, the hollow sloped cylinder shaped to receive a complementary fitting on the housing of the dual fan system, the annular base including a first bottom surface extending from the hollow sloped cylinder and a second bottom surface extending from the first bottom surface, the second bottom surface angled with respect to the first bottom surface. 19. The cooling unit of claim 18 , wherein the one or more isolators comprise a rubber material to reduce a vibrational energy transferred to the dual fan system via the upper and lower brackets. 20. The cooling unit of claim 19 , wherein a lateral width of the charge-air cooler is greater than a lateral width of the dual fan system housing and an end portion of the charge-air cooler comprising a tubular projection extends laterally beyond the housing, the end portion not being coupled to the housing.