Heat transfer airflow through engine compartment

We claim: 1. A system for directing airflow through an engine compartment of an off-road agricultural vehicle, the system comprising: an engine compartment; an engine arranged in the engine compartment delivering power for use by the off-road agricultural vehicle; a radiator arranged in the engine compartment and configured to draw cooling air into an intake side of the radiator for transferring heat from the radiator to the cooling air converting the cooling air to heated air released from an discharge side of the radiator facing toward the engine; a radiator discharge chamber defined by a space between the engine and the discharge side of the radiator configured to receive the heated air released from the discharge side of the radiator; an air dam extending between the radiator and the engine, wherein the air dam defines an upper boundary of the radiator discharge chamber and is configured to vertically contain the heated air below the air darn and block flow of the heated air across an upper portion of the engine; and a hood with interconnected walls defining an enclosure of the engine compartment, wherein the interconnected walls of the hood include a pair of side walls with air discharges extending through the side walls. 2. The system of claim 1 , wherein the air discharges define radiator discharge vents with openings extending through the side walls. 3. The system of claim 2 , wherein the radiator discharge vents of the hood are arranged with respect to the radiator discharge chamber for releasing the heated air out of the radiator discharge chamber through the radiator discharge vents. 4. The system of claim 1 , wherein the radiator discharge chamber is defined within a radiator airflow compartment that is arranged within the engine compartment, and wherein the air dam defined at least a portion of a boundary between the radiator airflow compartment and a non-radiator airflow compartment arranged in the engine compartment. 5. The system of claim 4 , wherein the air dam includes a top wall extending generally perpendicularly from a radiator shroud directing the heated air away from the radiator. 6. The system of claim 5 , wherein the air dam includes an angled wall extending angularly downward and away from a rear portion of the top wall of the air dam. 7. The system of claim 6 , wherein the air darn includes a back wall extending downwardly from the angled wall of the air dam. 8. The system of claim 7 , wherein the back wall of the air dam and a front wall of the engine define a rear boundary of the radiator discharge chamber. 9. The system of claim 8 , wherein the air dam is configured to provide thermal separation between the heated air leaving the radiator and an air intake system of the engine. 10. The system of claim 1 , wherein the off-road agricultural vehicle is a self-propelled sprayer. 11. The system of claim 1 , wherein the off-road agricultural vehicle is a self-propelled spreader. 12. A self-propelled off-road agricultural vehicle comprising: a chassis having wheels for moving the self-propelled off-road agricultural vehicle; a cab supported by the chassis; an engine compartment; an engine arranged in the engine compartment delivering power for use by the off-road agricultural vehicle; a radiator arranged in the engine compartment and configured to draw cooling air into an intake side of the radiator for transferring heat from the radiator to the cooling air converting the cooling air to heated air released from an discharge side of the radiator facing toward the engine; a radiator discharge chamber defined by a space between the engine and the discharge side of the radiator configured to receive the heated air released from the discharge side of the radiator; an air dam extending between the radiator and the engine, wherein the air dam defines an upper boundary of the radiator discharge chamber and is configured to vertically contain the heated air below the air dam and block flow of the heated air across an upper portion of the engine; and a hood with interconnected walls defining an enclosure of the engine compartment, wherein the interconnected walls of the hood include a pair of side walls with air discharges extending through the side walls. 13. The self-propelled off-road agricultural vehicle of claim 12 , wherein the air discharges define radiator discharge vents with openings extending through the side walls. 14. The self-propelled off-road agricultural vehicle of claim 13 , wherein the radiator discharge vents of the hood are arranged with respect to the radiator discharge chamber for releasing the heated air out of the radiator discharge chamber through the radiator discharge vents. 15. The self-propelled off-road agricultural vehicle of claim 12 , wherein the radiator discharge chamber is defined within a radiator airflow compartment that is arranged within the engine compartment, and wherein the air dam defined at least a portion of a boundary between the radiator airflow compartment and as non-radiator airflow compartment arranged in the engine compartment. 16. The self-propelled off-road agricultural vehicle of claim 15 , wherein the air dam includes a top wall extending generally perpendicularly from a radiator shroud directing the heated air away from the radiator. 17. The self-propelled off-road agricultural vehicle of claim 16 , wherein the air darn includes an angled wall extending angularly downward and away from a rear portion of the top wall of the air dam. 18. The self-propelled off-road agricultural vehicle of claim 17 , wherein the air dam includes a back wall extending downwardly from the angled wall of the air dam.