Aircraft hydraulic systems having shared components

What is claimed is: 1. A hydraulic system for an aircraft having an engine and an auxiliary power unit comprising: a first hydraulic subsystem including a single first hydraulic pump and a first set of hydraulic-powered components in fluid communication with the first hydraulic pump, the first hydraulic pump powered by the aircraft engine to solely pump shared hydraulic fluid to the first set of hydraulic-powered components; a second hydraulic subsystem including a single second hydraulic pump and a second set of hydraulic-powered components in fluid communication with the second hydraulic pump, the second hydraulic pump powered by the aircraft auxiliary power unit to solely pump the shared hydraulic fluid to the second set of hydraulic-powered components, the first set of hydraulic-powered components different from the second set of hydraulic-powered components: and a shared return line subsystem in fluid communication with the first and second hydraulic subsystems to return the shared hydraulic fluid from the first and second sets of hydraulic-powered components to the first and second hydraulic pumps, wherein one of the first or second hydraulic subsystems is a flight essential hydraulic subsystem and the other of the first or second hydraulic subsystems is a non-flight essential hydraulic subsystem. 2. The hydraulic system as recited in claim 1 further comprising: a shared reservoir in fluid communication with the shared return line subsystem, the shared reservoir adapted to store the shared hydraulic fluid usable by the first and second hydraulic subsystems. 3. The hydraulic system as recited in claim 2 wherein the shared return line subsystem is adapted to return the shared hydraulic fluid to the first hydraulic pump, the second hydraulic pump and the shared reservoir. 4. The hydraulic system as recited in claim 3 wherein the shared return line subsystem returns the shared hydraulic fluid to the first hydraulic pump via the shared reservoir. 5. The hydraulic system as recited in claim 1 wherein the first hydraulic subsystem further comprises a first set of pressure lines providing fluid communication between the first hydraulic pump and the first set of hydraulic-powered components; and wherein, the second hydraulic subsystem further comprises a second set of pressure lines providing fluid communication between the second hydraulic pump and the second set of hydraulic-powered components. 6. The hydraulic system as recited in claim 1 wherein the first hydraulic subsystem further comprises the flight essential hydraulic subsystem and the second hydraulic subsystem further comprises the non-flight essential hydraulic subsystem. 7. The hydraulic system as recited in claim 6 wherein the flight essential hydraulic subsystem further comprises a flight control hydraulic subsystem and the non-flight essential hydraulic subsystem further comprises a ground checkout and engine starting hydraulic subsystem. 8. The hydraulic system as recited in claim 1 wherein the first hydraulic subsystem further comprises a flight control hydraulic subsystem. 9. The hydraulic system as recited in claim 8 wherein the first set of hydraulic-powered components of the flight control hydraulic subsystem further comprises at least one flight control actuator each adapted to move a flight control surface. 10. The hydraulic system as recited in claim 9 wherein the at least one flight control actuator includes at least one of a wing flight control actuator or a tail section flight control actuator. 11. The hydraulic system as recited in claim 1 wherein the second hydraulic subsystem further comprises a ground checkout and engine starting hydraulic subsystem. 12. The hydraulic system as recited in claim 11 wherein the second set of hydraulic-powered components of the ground checkout and engine starting hydraulic subsystem further comprises at least one ground operation component. 13. The hydraulic system as recited in claim 12 wherein the at least one ground operation component further comprises at least one engine start hydraulic motor. 14. The hydraulic system as recited in claim 11 wherein the ground checkout and engine starting hydraulic subsystem further comprises a ground operations isolation valve downstream of the second hydraulic pump, the ground operations isolation valve adapted to be selectively opened to allow the second hydraulic pump to provide the shared hydraulic fluid to the first set of hydraulic-powered components during ground operations. 15. The hydraulic system as recited in claim 1 further comprising: at least one switching valve downstream of the first and second hydraulic pumps, the at least one switching valve movable into a plurality of positions including a first position and a second position; wherein, in the first position, the at least one switching valve allows the first hydraulic pump to provide the shared hydraulic fluid to the second set of hydraulic-powered components; and wherein, in the second position, the at least one switching valve allows the second hydraulic pump to provide the shared hydraulic fluid to the second set of hydraulic-powered components. 16. An aircraft comprising: one or more engines; an auxiliary power unit; and a hydraulic system comprising: a first hydraulic subsystem including a single first hydraulic pump and a first set of hydraulic-powered components in fluid communication with the first hydraulic pump, the first hydraulic pump powered by the one or more engines to solely pump shared hydraulic fluid to the first set of hydraulic-powered components; a second hydraulic subsystem including a single second hydraulic pump and a second set of hydraulic-powered components in fluid communication with the second hydraulic pump, the second hydraulic pump powered by the auxiliary power unit to solely pump the shared hydraulic fluid to the second set of hydraulic-powered components, the first set of hydraulic-powered components different from the second set of hydraulic-powered components: and a shared return line subsystem in fluid communication with the first and second hydraulic subsystems to return the shared hydraulic fluid from the first and second sets of hydraulic-powered components to the first and second hydraulic pumps, wherein one of the first or second hydraulic subsystems is a flight essential hydraulic subsystem and the other of the first or second hydraulic subsystems is a non-flight essential hydraulic subsystem. 17. The aircraft as recited in claim 16 wherein the aircraft further comprises a tiltrotor aircraft. 18. The aircraft as recited in claim 17 further comprising: a wing having first and second ends; first and second fixed nacelles coupled to the first and second ends of the wing; and first and second pylon assemblies rotatably coupled to the first and second fixed nacelles and rotatable between a vertical orientation and a horizontal orientation; wherein, the first set of hydraulic-powered components of the first hydraulic subsystem further comprises a first pylon conversion actuator adapted to rotate the first pylon assembly between the vertical and horizontal orientations and a second pylon conversion actuator adapted to rotate the second pylon assembly between the vertical and horizontal orientations. 19. The aircraft as recited in claim 17 further comprising: a wing having first and second ends; and first and second nacelles coupled to the first and second ends of the wing, respectively, the first and second nacelles each having an engine; wherein, the