Shuttle valve

What is claimed is: 1. A shuttle valve comprising: a valve body comprising a longitudinal cylindrical bore, a first inlet port, a second inlet port, an outlet port, and wherein the valve body consists of no more than one key that protrudes radially inward within the longitudinal cylindrical bore; and a shuttle mounted in the longitudinal cylindrical bore and configured to move axially therein, wherein the shuttle comprises a plurality of radial protrusions that protrude radially outward from, and are circumferentially spaced apart about, a peripheral surface of the shuttle, and wherein the key of the valve body is interposed between a first radial protrusion and a second radial protrusion of the plurality of radial protrusions, such that the key of the valve body interacts with the first radial protrusion to preclude the shuttle from rotating about a longitudinal axis of the shuttle in a first direction by more than a threshold angle, and interacts with the second radial protrusion to preclude the shuttle from rotating about the longitudinal axis of the shuttle in a second direction by more than the threshold angle, wherein the shuttle is configured to shift between: (i) a first position adjacent to the first inlet port, wherein at the first position the shuttle blocks the first inlet port while allowing the second inlet port to be fluidly coupled to the outlet port, and (ii) a second position adjacent to the second inlet port, wherein at the second position the shuttle blocks the second inlet port while allowing the first inlet port to be fluidly coupled to the outlet port. 2. The shuttle valve of claim 1 , further comprising: a first fitting mounted to the first inlet port, a second fitting mounted to the second inlet port, and a third fitting mounted to the outlet port, wherein either the first fitting or the second fitting forms a first seat for the shuttle to interact therewith when the shuttle is in the first position, and wherein the valve body forms a second seat for the shuttle to interact therewith when the shuttle is in the second position. 3. The shuttle valve of claim 1 , wherein the key is shaped as an arc that protrudes into a curved space between the two radial protrusions of the plurality of radial protrusions. 4. The shuttle valve of claim 1 , wherein the shuttle comprises a central portion interposed between a first end portion and a second end portion, wherein the plurality of radial protrusions protrude radially outward from, and are circumferentially spaced apart about, the peripheral surface of the central portion, and wherein the central portion has a larger diameter than respective diameters of the first end portion and the second end portion. 5. The shuttle valve of claim 4 , wherein the plurality of radial protrusions extend longitudinally for at least a partial length of the central portion. 6. The shuttle valve of claim 4 , wherein the central portion comprises a first flanged portion at a first end thereof, a second flanged portion at a second end thereof, and a middle portion disposed between the first flanged portion and the second flanged portion, wherein the middle portion has a smaller diameter compared to the first flanged portion and the second flanged portion. 7. The shuttle valve of claim 4 , wherein the first end portion of the shuttle comprises a first annular groove configured to receive a first radial seal therein, and wherein the second end portion of the shuttle comprises a second annular groove configured to receive a second radial seal therein. 8. The shuttle valve of claim 1 , wherein the second inlet port is coaxial with, and mounted opposite to, the first inlet port, and wherein the outlet port is disposed transverse to the first inlet port and the second inlet port. 9. A fluid system comprising: a first source of pressurized fluid; a second source of pressurized fluid; and a shuttle valve comprising: a valve body comprising a longitudinal cylindrical bore, a first inlet port fluidly coupled to the first source, a second inlet port fluidly coupled to the second source, an outlet port, and wherein the valve body consists of no more than one key that protrudes radially inward within the longitudinal cylindrical bore, and a shuttle mounted in the longitudinal cylindrical bore and configured to move axially therein, wherein the shuttle comprises a plurality of radial protrusions that protrude radially outward from, and are circumferentially spaced apart about, a peripheral surface of the shuttle, and wherein the key of the valve body is interposed between a first radial protrusion and a second radial protrusion of the plurality of radial protrusions, such that the key of the valve body interacts with the first radial protrusion to preclude the shuttle from rotating about a longitudinal axis of the shuttle in a first direction by more than a threshold angle, and interacts with the second radial protrusion to preclude the shuttle from rotating about the longitudinal axis of the shuttle in a second direction by more than the threshold angle, wherein the shuttle is configured to shift between: (i) a first position adjacent to the first inlet port, wherein at the first position the shuttle blocks the first inlet port while allowing pressurized fluid to flow from the second source through the second inlet port to the outlet port, and (ii) a second position adjacent to the second inlet port, wherein at the second position the shuttle blocks the second inlet port while allowing pressurized fluid to flow from the first source through the first inlet port to the outlet port. 10. The fluid system of claim 9 , wherein the shuttle valve further comprises: a first fitting mounted to the first inlet port and fluidly coupled to the first source, a second fitting mounted to the second inlet port and fluidly coupled to the second source, and a third fitting mounted to the outlet port, wherein either the first fitting or the second fitting forms a first seat for the shuttle to interact therewith when the shuttle is in the first position, and wherein the valve body forms a second seat for the shuttle to interact therewith when the shuttle is in the second position. 11. The fluid system of claim 9 , wherein the key is shaped as an arc that protrudes into a curved space between the two radial protrusions of the plurality of radial protrusions. 12. The fluid system of claim 9 , wherein the shuttle comprises a central portion interposed between a first end portion and a second end portion, wherein the plurality of radial protrusions protrude radially outward from, and are circumferentially spaced apart about, the peripheral surface of the central portion, and wherein the central portion has a larger diameter than respective diameters of the first end portion and the second end portion. 13. The fluid system of claim 12 , wherein plurality of radial protrusions extend longitudinally for at least a partial length of the central portion. 14. The fluid system of claim 12 , wherein the central portion comprises a first flanged portion at a first end thereof, a second flanged portion at a second end thereof, and a middle portion disposed between the first flanged portion and the second flanged portion, wherein the middle portion has a smaller diameter compared to the first flanged portion and the second flanged portion. 15. A method of assembling a shuttle valve, the method comprising: providing a valve body of the shuttle valve, wherein the valve body comprises a longitudinal cylindrical bore, a first inlet port, a second inlet port, and an outlet port, and wherein the valve body consists of no more than one