Method and system for metallic low pressure fan case heating
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
G06F-019/00
G06G-007/70
F04D-027/00
F04D-019/00
F04D-019/02
F04D-025/04
F04D-029/32
F04D-029/38
F04D-029/52
F04D-029/58
F02C-003/04
F02K-003/06
출원번호
US-0183385
(2016-06-15)
등록번호
US-10066630
(2018-09-04)
발명자
/ 주소
Kumar, Hemanth Gudibande Sathyakumar
Mondal, Bhaskar Nanda
Moniz, Thomas Ory
출원인 / 주소
General Electric Company
대리인 / 주소
General Electric Company
인용정보
피인용 횟수 :
0인용 특허 :
11
초록▼
A fan assembly is provided. The fan assembly includes a fan, a fan casing circumscribing the fan, and a fan casing heating system in thermal communication with the fan casing. The fan includes a hub, and a plurality of fan blades extending from the hub. Each fan blade of the plurality of fan blades
A fan assembly is provided. The fan assembly includes a fan, a fan casing circumscribing the fan, and a fan casing heating system in thermal communication with the fan casing. The fan includes a hub, and a plurality of fan blades extending from the hub. Each fan blade of the plurality of fan blades terminates at a respective blade tip. A clearance gap is defined between the fan casing and the blade tips. The fan casing heating system is configured to apply heat to the fan casing when the fan is operating in a first operational mode, and remove the applied heat when the fan transitions into a second operational mode.
대표청구항▼
1. A fan assembly comprising: a fan comprising: a hub; anda plurality of fan blades extending from said hub, each fan blade of said plurality of fan blades terminating at a respective blade tip;a fan casing circumscribing said fan, wherein a clearance gap is defined between said fan casing and said
1. A fan assembly comprising: a fan comprising: a hub; anda plurality of fan blades extending from said hub, each fan blade of said plurality of fan blades terminating at a respective blade tip;a fan casing circumscribing said fan, wherein a clearance gap is defined between said fan casing and said blade tips; anda fan casing heating system in thermal communication with said fan casing, said fan casing heating system configured to: apply heat to said fan casing when said fan is operating in a first operational mode as instructed by a full authority digital engine control (FADEC) having a processor programmed to execute computer-implementable instructions incorporated therein; andremove the applied heat when said fan transitions into a second operational mode as instructed by the FADEC. 2. The fan assembly of claim 1, wherein said fan casing heating system is further configured to apply heat to a radially outward surface of said fan casing until said fan casing expands a predetermined amount, increasing the clearance gap to a first distance. 3. The fan assembly of claim 2, wherein the first distance is greater than 0.0004 inches per inch of a diameter of said fan casing. 4. The fan assembly of claim 3, wherein the first distance is greater than 0.0007 inches per inch of the diameter of said fan casing. 5. The fan assembly of claim 1, wherein said fan casing heating system further comprises one or more heat pipes, and wherein said fan casing heating system is further configured to: apply heat to said fan casing as instructed by the FADEC using said one or more heat pipes by thermally coupling said one or more heat pipes to at least one of said fan casing and a heat source; remove the applied heat as instructed by the FADEC by thermally decoupling said one or more heat pipes from at least one of said fan casing and said heat source. 6. The fan assembly of claim 1, wherein said fan casing heating system further comprises at least one electric heater. 7. The fan assembly of claim 1, wherein said fan casing heating system further comprises at least one heating fluid conduit. 8. The fan assembly of claim 1, wherein said fan assembly is coupled to an aircraft gas turbine engine. 9. The fan assembly of claim 8, wherein the second operational mode includes a cruise operational mode, and wherein the first operational mode includes at least one of an idle operational mode, a takeoff operational mode, and a climb operational mode. 10. A turbofan engine comprising: a core engine including a multistage compressor;a fan powered by a low-pressure turbine driven by gas generated in said core engine, said fan comprising: a hub; anda plurality of fan blades extending from said hub, each fan blade of said plurality of fan blades terminating at a respective blade tip;a fan casing circumscribing said fan, wherein a clearance gap is defined between said fan casing and said blade tips;a fan casing heating system in thermal communication with said fan casing; anda processor programmed to: apply, using said fan casing heating system, heat to said fan casing radially outboard and axially aligned with said fan when said fan is operating in a first operational mode such that said fan casing expands by a predetermined amount, increasing the clearance gap to a first distance; andremove, using said fan casing heating system, the applied heat to contract said fan casing when said fan transitions into a second operational mode, decreasing the clearance gap to a second distance, wherein the second distance is less than the first distance. 11. The turbofan engine of claim 10, wherein the first distance is greater than 0.04% of a diameter of said fan casing. 12. The turbofan engine of claim 10, wherein said fan casing heating system comprises one or more electric heaters, and wherein said processor is further programmed to apply heat to said fan casing using said one or more electric heaters. 13. The turbofan engine of claim 10, wherein said fan casing heating system comprises one or more heat pipes, and wherein said processor is further programmed to apply heat to said fan casing using said one or more heat pipes. 14. The turbofan engine of claim 10, wherein said fan casing heating system comprises one or more working fluid conduits configured to channel a heated working fluid including at least one of engine oil and bleed air, and wherein said processor is further programmed to apply heat to said fan casing using said one or more working fluid conduits. 15. The turbofan engine of claim 10, wherein the second operational mode includes a cruise operational mode, and wherein the first operational mode includes at least one of an idle operational mode, a takeoff operational mode, and a climb operational mode. 16. A method of controlling a clearance gap between respective tips of a plurality of blades of a fan and a fan casing, said method comprising: applying heat to the fan casing radially outboard and axially aligned with the fan as instructed by a full authority digital engine control (FADEC) having a processor programmed to execute computer-implementable instructions incorporated therein such that the fan casing expands by a predetermined amount, increasing the clearance gap to a first distance;operating the fan in a first operational mode;transitioning the fan to a second operational mode;removing the applied heat to contract the fan casing as instructed by the FADEC, decreasing the clearance gap to a second distance, wherein the second distance is less than the first distance; andoperating the fan with the clearance gap at the second distance. 17. The method of claim 16, applying heat to the fan casing comprises applying heat to the fan casing to increase the clearance gap greater than 0.04% of a diameter of the fan casing. 18. The method of claim 17, wherein applying heat to the fan casing comprises applying heat to the fan casing to increase the clearance gap greater than 0.07% of the diameter of the fan casing. 19. The method of claim 18, wherein applying heat to the fan casing comprises applying heat to the fan casing to increase the clearance gap greater than 0.1% of the diameter of the fan casing. 20. The method of claim 16, wherein applying heat to the fan casing comprises applying heat to the fan casing using electrical heaters. 21. The method of claim 16, wherein applying heat to the fan casing comprises applying heat to the fan casing using one or more heat pipes. 22. The method of claim 16, wherein applying heat to the fan casing comprises applying heat to the fan casing using a heated working fluid including at least one of engine oil and bleed air. 23. The method of claim 16, further comprising coupling the fan casing to an aircraft gas turbine engine. 24. The method of claim 23, wherein transitioning the fan to a second operational mode comprises transitioning the fan to a cruise operational mode. 25. The method of claim 23, wherein operating the fan in a first operational mode comprises operating the fan in at least one of an idle operational mode, a takeoff operational mode, and a climb operational mode.
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이 특허에 인용된 특허 (11)
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