Rotary heat exchanger and system thereof

The invention claimed is: 1. A rotary heat exchanger, comprising: a hub configured to be rotatably driven by a shaft about a rotational axis defining an axial direction; a fan comprising a plurality of fan blades integrally coupled to the hub and extending radially outwardly therefrom, wherein each of the plurality of fan blades comprises a leading edge and a trailing edge; and a heat exchanger comprising a plurality of heat exchanger sections, the heat exchanger including a plurality of cooling fins for receiving a flow of air from the fan; wherein each heat exchanger section comprises a corresponding front surface; wherein the front surface of each of the plurality of heat exchanger sections extends between a corresponding two fan blades of the plurality of fan blades from a location adjacent the leading edge of one fan blade of the corresponding two fan blades to a location adjacent the trailing edge of the other fan blade of the corresponding two fan blades; and wherein the location adjacent the leading edge of one fan blade and the location adjacent the trailing edge of the other fan blade are offset from one another in the axial direction. 2. The rotary heat exchanger of claim 1 , further comprising: a first fluid passage defined in a first heat exchanger section of the plurality of heat exchanger sections; and a second fluid passage defined in a second heat exchanger section of the plurality of heat exchanger sections; wherein, the first fluid passage is fluidly coupled to the second fluid passage such that a fluid flowing through the heat exchanger flows through the first and second fluid passages. 3. The rotary heat exchanger of claim 1 , further comprising: a first fluid passage defined in a first heat exchanger section of the plurality of heat exchanger sections; and a second fluid passage defined in the first heat exchanger section; wherein, the first fluid passage is fluidly isolated from the second fluid passage such that a first fluid flows through the first fluid passage and a second fluid flows through the second fluid passage. 4. The rotary heat exchanger of claim 1 , further comprising a fluid passage defined in at least one heat exchanger section, the fluid passage comprising a diameter which is larger at a radial location near the hub and smaller at a radial location away from the hub. 5. The rotary heat exchanger of claim 1 , wherein the rotary heat exchanger comprises a circular profile. 6. The rotary heat exchanger of claim 1 , wherein the plurality of cooling fins are curvilinearly shaped. 7. The rotary heat exchanger of claim 6 , wherein the plurality of cooling fins comprise a shape and orientation corresponding to a direction of air flow received from the fan. 8. The rotary heat exchanger of claim 1 , wherein: each fan blade of the plurality of fan blades further comprises a front side and a rear side; and each of the plurality of heat exchanger sections comprises a wedge-shape and is integrally formed with the rear side of one fan blade of the plurality of fan blades and the trailing edge of a laterally adjacent fan blade of the plurality of fan blades. 9. The rotary heat exchanger of claim 1 , wherein each heat exchanger section comprises a corresponding and respective fluid path; wherein each fluid path comprises an inlet extending out of the hub and an outlet extending into the hub. 10. The rotary heat exchanger of claim 9 , wherein each fluid path is contained within the corresponding and respective heat exchanger section. 11. The rotary heat exchanger of claim 1 , wherein the hub comprises a plurality of fluid inlets and a plurality of fluid outlets; wherein each heat exchanger section comprises a corresponding and respective fluid path; and wherein each fluid path fluidly connects a corresponding fluid inlet of the plurality of fluid inlets and a corresponding fluid outlet of the plurality of fluid outlets. 12. The rotary heat exchanger of claim 11 , wherein the fluid path of each heat exchanger section is fluidly isolated from the fluid path of another heat exchanger section. 13. The rotary heat exchanger of claim 1 , wherein the front surface of each heat exchanger section curves in the axial direction between the location adjacent the leading edge of one fan blade and the location adjacent the trailing edge of the other fan blade. 14. The rotary heat exchanger of claim 1 , wherein, the hub, the fan, and the heat exchanger are integrally formed as a single body. 15. A cooling system of a vehicle, comprising: an engine for generating power; a pump for pumping a fluid; and a first rotary heat exchanger for cooling the fluid, the first rotary heat exchanger manufactured by a three-dimensional printing process and comprising: a hub configured to be rotated about a rotational axis defining an axial direction; a fan comprising a plurality of fan blades integrally coupled to the hub and extending radially outwardly therefrom, wherein each fan blade comprises a leading edge and a trailing edge; a heat exchanger comprising a plurality of heat exchanger sections, the heat exchanger including a plurality of cooling fins for receiving a flow of air from the fan; and a rotary manifold coupled to the hub, the rotary manifold comprising a fluid passage defined therein for conveying the fluid from the pump to the heat exchanger; wherein each of the plurality of heat exchanger sections comprises a corresponding front surface that extends from a location adjacent the trailing edge of one corresponding fan blade and the leading edge of another corresponding fan blade; and wherein the location adjacent the trailing edge of one corresponding fan blade and the location adjacent the leading edge of the other corresponding fan blade are offset from one another in the axial direction; and wherein, the first rotary heat exchanger is rotatably driven to direct the air through the plurality of cooling fins to reduce a temperature of the fluid passing through the heat exchanger. 16. The system of claim 15 , further comprising one or more additional rotary heat exchangers axially aligned with the first rotary heat exchanger, the one or more additional rotary heat exchangers positioned to receive at least a portion of the flow of air exiting the first rotary heat exchanger. 17. A rotary heat exchanger, comprising: a hub configured to be rotatably driven by a shaft about a rotational axis defining an axial direction; a fan comprising a plurality of fan blades integrally coupled to the hub and extending radially outwardly therefrom, wherein each fan blade comprises a first edge and a second edge, wherein one of the first edge or the second edge is a leading edge of the fan blade, and wherein the other of the first edge or the second edge is a trailing edge of the fan blade; and a heat exchanger comprising a plurality of heat exchanger sections, the heat exchanger including a plurality of cooling fins for receiving a flow of air from the fan; wherein each heat exchanger section of the plurality of heat exchanger sections is integrally formed with a corresponding first fan blade of the plurality of fan blades and extends from a location adjacent the first edge of the corresponding first fan blade to the second edge of a corresponding second fan blade of the plurality of fan blades, and wherein the first edge of the corresponding first fan blade is offset from the second edge of the corresponding second fan blade in the axial direction; wherein each heat exchanger section comprises a front surface defined by the plurality of cooling fin