An exemplary gas turbine engine assembly includes a fan casing within a nacelle, a variable area fan nozzle. A controller is operable to move the variable area fan nozzle to influence a discharge airflow area associated with the variable area fan nozzle in response to an airfoil flutter condition. A
An exemplary gas turbine engine assembly includes a fan casing within a nacelle, a variable area fan nozzle. A controller is operable to move the variable area fan nozzle to influence a discharge airflow area associated with the variable area fan nozzle in response to an airfoil flutter condition. A gear train reduces a rotational speed of a fan in the gas turbine engine relative to another portion of the gas turbine engine.
대표청구항▼
1. A gas turbine engine assembly, comprising: a fan casing within a nacelle;a variable area fan nozzle; anda controller is operable to move the variable area fan nozzle to influence a discharge airflow area associated with the variable area fan nozzle in response to an airfoil flutter condition, whe
1. A gas turbine engine assembly, comprising: a fan casing within a nacelle;a variable area fan nozzle; anda controller is operable to move the variable area fan nozzle to influence a discharge airflow area associated with the variable area fan nozzle in response to an airfoil flutter condition, wherein a gear train reduces a rotational speed of a fan in the gas turbine engine relative to another portion of the gas turbine engine. 2. The gas turbine engine assembly of claim 1, wherein the gear train is a planetary gear train. 3. The gas turbine engine assembly of claim 2, wherein the planetary gear system includes orbiting planet gears. 4. The gas turbine engine assembly of claim 2, wherein the planetary gear system includes non-orbiting planet gears. 5. The gas turbine engine assembly of claim 1, wherein the gear train has a constant gear ratio. 6. The gas turbine engine assembly of claim 1, wherein the gear train reduces the rotational speed of the fan relative to a shaft of the gas turbine engine that is rotatably coupled to a low pressure compressor of the gas turbine engine. 7. The gas turbine engine assembly of claim 1, including a sensor that detects the airfoil flutter condition. 8. The gas turbine engine assembly of claim 7, wherein the sensor is mounted to the fan casing adjacent to a blade tip area of a fan section. 9. The gas turbine engine assembly of claim 1, wherein the airfoil flutter condition comprises self-induced oscillations simultaneously experienced by adjacent airfoils of the gas turbine engine system. 10. The gas turbine engine assembly of claim 1, wherein the controller influences the discharge airflow area by moving the variable area fan nozzle between a first position having a first discharge airflow area and a second position having a second discharge airflow area greater than the first discharge airflow area in response to the airfoil flutter condition. 11. The gas turbine engine assembly of claim 1, wherein the discharge airflow area extends between the variable area fan nozzle and a core engine casing. 12. The gas turbine engine assembly as recited in claim 1, wherein said variable area fan nozzle includes a synchronizing ring, a static ring and at least one flap assembly. 13. The gas turbine engine assembly as recited in claim 12, wherein said at least one flap assembly is pivotally mounted to said static ring with a hinge and is linked to said synchronizing ring through a linkage. 14. The gas turbine engine assembly as recited in claim 1, wherein said airfoil flutter condition is associated with an airfoil of a fan section of a gas turbine engine. 15. The gas turbine engine assembly as recited in claim 1, wherein said variable area fan nozzle is moved between a first position and a second position that is radially outward from said first position in response to the detection of said airfoil flutter condition. 16. The gas turbine engine assembly as recited in claim 1, wherein the variable area fan nozzle is located radially outward from a core engine exhaust nozzle. 17. A gas turbine engine, comprising: a nacelle;a fan casing within the nacelle;a variable area fan nozzle moveable to influence a discharge airflow area associated with the variable area fan nozzle;a fan section within the fan casing;a compressor section and a turbine section positioned downstream of the fan section;a combustor section positioned between the compressor section and the turbine section; a controller operable to move the variable area fan nozzle in response to an airfoil flutter condition,wherein a gear train reduces a rotational speed of a fan in the gas turbine engine relative to another portion of the gas turbine engine. 18. The gas turbine engine assembly of claim 17, wherein the gear train is a planetary gear train. 19. The gas turbine engine assembly of claim 18, wherein the planetary gear system includes orbiting planet gears. 20. The gas turbine engine assembly of claim 18, wherein the planetary gear system includes non-orbiting planet gears. 21. The gas turbine engine assembly of claim 17, wherein the gear train has a constant gear ratio. 22. The gas turbine engine assembly of claim 17, wherein the gear train reduces the rotational speed of the fan relative to a shaft of the gas turbine engine that is rotatably coupled to a low pressure compressor of the gas turbine engine. 23. The gas turbine engine as recited in claim 17, wherein the variable area fan nozzle moveable between a first position having a first discharge airflow area and a second position having a second discharge airflow area greater than the first discharge airflow area. 24. The gas turbine engine as recited in claim 23, comprising an actuator assembly in communication with the controller and operable to move the variable area fan nozzle between the first position and the second position. 25. The gas turbine engine assembly as recited in claim 17, wherein said airfoil flutter condition is associated with an airfoil of a fan section of a gas turbine engine.
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