Turbomachine fan clutch

We claim: 1. A gas turbine engine assembly, comprising: a clutch configured to move from a first position to a second position in response to rotation of a gas turbine engine fan at a speed greater than a threshold speed, wherein, whether the clutch is in the first position or the second position, the clutch is configured to permit rotation of the gas turbine engine fan in a first direction, and when the clutch is in the first position, the clutch is configured to limit rotation of the gas turbine engine fan only in an opposite, second direction, the clutch is disposed within a compartment that is accessible via removal of an aft engine cover structure, the clutch is removable on-wing. 2. The gas turbine engine assembly of claim 1 , wherein the aft engine cover structure includes an engine exhaust cone. 3. The gas turbine engine assembly of claim 2 , wherein the compartment is an aft bearing compartment, the clutch is disposed within the aft bearing compartment and the aft engine cover structure further includes an aft bearing compartment cover plate, disposed axially inward of the exhaust cone. 4. The gas turbine engine assembly of claim 1 , further comprising a gas turbine engine including the clutch, wherein the clutch is positioned within the gas turbine engine such that the clutch can be moved from an installed position within the gas turbine engine to an uninstalled position without removing any blades from the gas turbine engine. 5. The gas turbine engine assembly of claim 1 , further comprising a gas turbine engine including the clutch, wherein the clutch is coupled to a low speed spool of the gas turbine engine. 6. The gas turbine engine assembly of claim 5 , wherein the low speed spool is rotatably coupled to the gas turbine engine fan via a geared architecture. 7. The gas turbine engine assembly of claim 6 , wherein the clutch is positioned within the gas turbine engine aft the geared architecture relative to a direction of flow through the gas turbine engine. 8. The gas turbine engine assembly of claim 1 , wherein the threshold speed is less than an idling speed of the gas turbine engine fan. 9. The gas turbine engine assembly of claim 1 , wherein the threshold speed is a threshold rotational speed of the gas turbine engine fan. 10. The gas turbine engine assembly of claim 1 , wherein the clutch is a mechanical clutch. 11. A gas turbine engine assembly, comprising: a fan; a spool configured to rotatably drive the fan through a geared architecture; and a clutch coupled to the spool, the clutch moveable between a first position that permits windmilling rotations of the fan, and a second position that limits windmilling rotations of the fan in one direction, the clutch moveable from the first position to the second position in response to rotation of the fan at a speed greater than a threshold speed, wherein the clutch is a mechanical clutch, the clutch is disposed within a compartment that is accessible via removal of an aft engine cover structure, the clutch is removable on-wing. 12. The gas turbine engine assembly of claim 11 , wherein the aft engine cover structure includes an engine exhaust cone. 13. The gas turbine engine assembly of claim 12 , wherein the compartment is an aft bearing compartment, the clutch is disposed within the aft bearing compartment and the aft engine cover structure further includes an aft bearing compartment cover plate, disposed axially inward of the exhaust cone. 14. The gas turbine engine assembly of claim 11 , wherein the clutch is positioned aft of the geared architecture relative to a direction of flow through the gas turbine engine. 15. The gas turbine engine assembly of claim 11 , wherein the spool is a low speed spool. 16. A method of controlling rotation of a gas turbine engine fan, comprising: engaging a clutch to prevent rotation of the gas turbine engine fan in a first direction when a rotational speed of the gas turbine engine fan is below a threshold speed, the clutch being removable on-wing; and disengaging the clutch when the rotational speed of the gas turbine engine fan meets or exceeds the threshold speed, wherein the clutch is disposed within a compartment that is accessible via removal of an aft engine cover structure. 17. The method of claim 16 , wherein the aft engine cover structure includes an engine exhaust cone. 18. The method of claim 17 , wherein the compartment is an aft bearing compartment, the clutch is disposed within the aft bearing compartment and the aft engine cover structure further includes an aft bearing compartment cover plate, disposed axially inward of the exhaust cone. 19. The method of claim 16 , including positioning the clutch within the gas turbine engine such that the clutch can be moved from an installed position within the gas turbine engine to an uninstalled position without removing any blades from the gas turbine engine. 20. The method of claim 16 , including coupling the clutch to a spool of the gas turbine engine that rotatably drives the gas turbine engine fan through a geared architecture.