Vehicle with thermal management system

The invention claimed is: 1. A vehicle, comprising: a chassis; a cab coupled to the chassis; a body coupled to the chassis; a cowl coupled to at least one of the body or the cab and extending above the cab, the cowl including a front cowl portion coupled to the cab and a rear cowl portion coupled to the body, wherein the rear cowl portion is movable relative to the front cowl portion; and a heat exchanger coupled to the cab and positioned at least partially within the cowl such that the heat exchanger extends above the cab. 2. The vehicle of claim 1 , wherein the cowl at least partially defines an inlet positioned forward of the of the heat exchanger such that airflow is permitted to pass from a front end of the vehicle toward a rear end of the vehicle through the inlet and the heat exchanger. 3. The vehicle of claim 2 , wherein the front cowl portion at least partially defines the inlet, and wherein the inlet extends above the cab. 4. The vehicle of claim 1 , wherein the heat exchanger is a first heat exchanger, further comprising a second heat exchanger coupled to the cab and positioned at least partially within the cowl such that the second heat exchanger extends above the cab. 5. The vehicle of claim 4 , further comprising a first fan coupled to the first heat exchanger and a second fan coupled to the second heat exchanger. 6. The vehicle of claim 1 , wherein the vehicle further comprises: an electric motor; a battery; and an inverter configured to supply electrical energy from the battery to the electric motor, wherein the heat exchanger is a radiator that is configured to dissipate thermal energy from at least one of the electric motor, the battery, or the inverter. 7. The vehicle of claim 1 , wherein the heat exchanger is a condenser of an air conditioning circuit. 8. A vehicle, comprising: a chassis; a cab coupled to the chassis; a body coupled to the chassis; a shroud coupled to at least one of the body or the cab, an air volume being defined between the shroud and the cab, wherein the shroud includes a front shroud portion coupled to the cab and a rear shroud portion coupled to the body; and a heat exchanger coupled to the cab and positioned within the air volume, wherein the shroud at least partially defines an inlet and an outlet, and wherein a path for airflow is defined through the inlet, the heat exchanger, and the outlet; and wherein the heat exchanger is pivotally coupled to the cab and selectively repositionable about a substantially vertical axis between a use position and a maintenance position rearward of the use position. 9. The vehicle of claim 8 , further comprising a service panel removably coupled to the front shroud portion and positioned to obstruct movement of the heat exchanger from the use position to the maintenance position when the service panel is coupled to the front shroud portion. 10. The vehicle of claim 9 , wherein a body gap is defined between the front shroud portion and the rear shroud portion, and wherein the service panel defines a channel positioned to receive fluid passing through the body gap. 11. The vehicle of claim 10 , wherein the channel is sloped to direct the fluid laterally outward from a longitudinal centerline of the vehicle. 12. The vehicle of claim 11 , wherein the channel is a first channel, further comprising a second channel coupled to the cab and configured to remain coupled to the cab when the service panel is removed, and wherein the first channel is configured to direct the fluid onto the second channel. 13. A vehicle, comprising: a chassis; a cab coupled to the chassis; a body coupled to the chassis; a shroud coupled to at least one of the body or the cab, an air volume being defined between the shroud and the cab, wherein the shroud includes a front shroud portion coupled to the cab and a rear shroud portion coupled to the body; a body actuator configured to raise the body relative to the chassis, wherein movement of the body relative to the chassis causes a corresponding movement of the rear shroud portion relative to the front shroud portion; and a heat exchanger coupled to the cab and positioned within the air volume, wherein the shroud at least partially defines an inlet and an outlet, and wherein a path for airflow is defined through the inlet, the heat exchanger, and the outlet. 14. A vehicle, comprising: a chassis; a cab coupled to the chassis; a body coupled to the chassis, wherein a space is defined between the cab and the body; a step coupled to the chassis and positioned at least partially within the space; a shroud coupled to at least one of the body or the cab, an air volume being defined between the shroud and the cab; and a heat exchanger coupled to the cab and positioned within the air volume, wherein the shroud at least partially defines an inlet and an outlet, and wherein a path for airflow is defined through the inlet, the heat exchanger, and the outlet. 15. The vehicle of claim 14 , wherein the path for the airflow is defined through the inlet, the outlet, the heat exchanger, and the space defined between the cab and the body. 16. The vehicle of claim 15 , further comprising a flow collector positioned within the shroud and fluidly coupling the inlet to the inlet to the heat exchanger. 17. A refuse vehicle, comprising: a chassis; a cab coupled to the chassis; a refuse compartment coupled to the chassis and configured to store a volume of refuse; a lift arm coupled to the chassis and repositionable between a raised position and a lowered position; a front cowl portion coupled to the cab, a front end portion of the front cowl portion defining an inlet extending above the cab; a rear cowl portion coupled to the refuse compartment, wherein the front cowl portion, the rear cowl portion, and the cab at least partially define an air volume fluidly coupled to the inlet; a heat exchanger coupled to the cab and positioned within the air volume; and a fan positioned to direct airflow from the inlet through the heat exchanger, wherein the front cowl portion defines a recess that receives the lift arm when the lift arm is in the lowered position.