Coupling nozzle for cryogenic fluid

What is claimed is: 1. A coupling nozzle for cryogenic fluid flow, comprising: a flow body defining a conduit, wherein the flow body is configured to permit cryogenic fluid to flow through the conduit; a mounting ring through which the flow body slidably extends; a bushing fixedly positioned adjacent the mounting ring, wherein the bushing slidably receives the flow body in a keyed manner to prevent rotation of the flow body; a pneumatic cylinder comprising: a cylinder body fixedly positioned relative to the mounting ring; and a shaft configured to slide between an extended position and a contracted position, wherein the shaft is coupled to and configured to actuate the flow body; and a flow control assembly at least partially disposed in the conduit of the flow body, wherein the pneumatic cylinder is configured to actuate the flow body to transition the flow control assembly between an open position and a closed position, wherein the flow control assembly is configured to permit the cryogenic fluid to flow through the flow body in the open position and prevent the cryogenic fluid from flowing through the flow body in the closed position. 2. The coupling nozzle of claim 1 , wherein the bushing defines an opening that slidably receives the flow body. 3. The coupling nozzle of claim 2 , wherein the bushing defines a keyed slot extending from the opening. 4. The coupling nozzle of claim 3 , wherein the flow body further comprises a keyed fin extending along an exterior surface of the flow body. 5. The coupling nozzle of claim 4 , wherein the keyed slot of the bushing slidably receives the keyed fin to prevent rotation of the flow body. 6. The coupling nozzle of claim 5 , wherein the keyed fin extends in a longitudinal direction along the exterior surface of the flow body. 7. The coupling nozzle of claim 1 , wherein the bushing is coupled to the mounting ring via fasteners. 8. The coupling nozzle of claim 1 , further comprising a frame extending between the cylinder body of the pneumatic cylinder and the mounting ring, wherein the mounting ring is coupled to the frame. 9. The coupling nozzle of claim 8 , wherein the cylinder body is coupled to the frame to fixedly position the cylinder body relative to the mounting ring that is coupled to the frame. 10. The coupling nozzle of claim 1 , wherein the bushing is formed of brass. 11. A coupling nozzle for cryogenic fluid flow, comprising: a flow body defining an exterior surface and a conduit, wherein the flow body comprises a keyed fin extending along the exterior surface; a flow control assembly at least partially disposed in the conduit of the flow body to control flow of cryogenic fluid through the conduit; a mounting ring through which the flow body slidably extends; and a bushing fixedly positioned adjacent the mounting ring, wherein the bushing defines an opening and a keyed slot extending from the opening, wherein the opening slidably receives the flow body and the keyed slot slidably receives the keyed fin to prevent rotation of the flow body; wherein the flow body is configured to slide through the bushing to cause the flow control assembly to transition between an open position and a closed position. 12. The coupling nozzle of claim 11 , wherein the keyed fin extends in a longitudinal direction along the exterior surface of the flow body. 13. The coupling nozzle of claim 11 , wherein the bushing is coupled to the mounting ring via fasteners. 14. The coupling nozzle of claim 11 , further comprising an actuator that comprises a shaft coupled to the flow body, wherein the shaft is configured to slide between an extended position and a contracted position to cause the flow body to transition the flow control assembly between the closed position and the open position. 15. The coupling nozzle of claim 14 , further comprising a frame to which a body of the actuator and the mounting ring is coupled. 16. The coupling nozzle of claim 11 , wherein the bushing is formed of brass. 17. The coupling nozzle of claim 11 , wherein the flow control assembly is configured to permit the cryogenic fluid to flow through the conduit in the open position and prevent the cryogenic fluid from flowing through the conduit in the closed position.