IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
UP-0176247
(2005-07-08)
|
등록번호 |
US-7802760
(2010-10-21)
|
우선권정보 |
GB-0418196.2(2004-08-14) |
발명자
/ 주소 |
|
출원인 / 주소 |
|
대리인 / 주소 |
|
인용정보 |
피인용 횟수 :
14 인용 특허 :
6 |
초록
▼
A boundary layer control arrangement comprises a pulse generator communicating with a surface having a fluid boundary layer thereacross. The boundary layer control arrangement further includes a fluid supply means for supplying a fluid to the surface via the pulse generator. The pulse generator is c
A boundary layer control arrangement comprises a pulse generator communicating with a surface having a fluid boundary layer thereacross. The boundary layer control arrangement further includes a fluid supply means for supplying a fluid to the surface via the pulse generator. The pulse generator is constructed such that fluid acts on the pulse generator to cause the fluid to pulse. Pulsing fluid passes from the pulse generator to the surface.
대표청구항
▼
I claim: 1. A boundary layer control arrangement, comprising: a pulse generator communicating with a surface having a fluid boundary layer across the surface, and a fluid supply means for supplying a fluid to the surface via the pulse generator, wherein the pulse generator is constructed such that
I claim: 1. A boundary layer control arrangement, comprising: a pulse generator communicating with a surface having a fluid boundary layer across the surface, and a fluid supply means for supplying a fluid to the surface via the pulse generator, wherein the pulse generator is constructed such that the fluid acts on the pulse generator to cause the fluid to pulse, the action of the fluid on the pulse generator creates the pulses in the fluid and pulsing fluid passes from the pulse generator to the surface. 2. A boundary layer control arrangement according to claim 1, wherein the pulse generator comprises a passive pulse generator, for creating sound waves in the fluid, thereby establishing pulses in the fluid passed to the surface. 3. A boundary layer control arrangement according to claim 2, wherein the pulses in the fluid passed to the surface are in the form of sound waves. 4. A boundary layer control arrangement according to claim 1, wherein the pulse generator comprises a chamber to receive at least some of the fluid from the fluid supply means, the chamber being configured such that a standing wave is created in the fluid in the chamber. 5. A boundary layer control arrangement according to claim 4, wherein the pulse generator comprises a fluid splitting member to split fluid from the fluid supply means, such that some of said fluid passes into the chamber, and some of said fluid passes to the surface. 6. A boundary layer control arrangement according to claim 4, wherein the pulse generator defines an aperture via which the fluid supply means communicates with the surface, wherein the chamber extends from the aperture and a splitting member is provided at the aperture. 7. A boundary layer control arrangement according to claim 4, wherein the chamber is elongate. 8. A boundary layer control arrangement according to claim 1, wherein the pulse generator comprises a chamber having a sub-chamber, an exit conduit, a pressure responsive barrier and an urging arrangement to urge the pressure responsive barrier into sealing engagement with the exit conduit. 9. A boundary layer control arrangement according to claim 8, wherein the pulse generator defines an aperture through which fluid from said chamber can pass to the surface, via the exit conduit extending to said aperture, whereby fluid can pass from the sub-chamber to the aperture via said exit conduit. 10. A boundary layer control arrangement according to claim 9, wherein the fluid supply means supplies said fluid to the sub-chamber to cause the barrier to respond and allow said fluid to pass through the conduit, wherein the barrier responds by deforming to allow fluid in the sub-chamber to enter the exit conduit. 11. A boundary layer control arrangement according to claim 10, wherein the barrier is configured to respond when the pressure of fluid in the sub-chamber reaches a predetermined limit. 12. A boundary layer control arrangement according to claim 8, wherein the barrier is constructed to move to a deformed condition to open the conduit when the pressure in the chamber reaches a predetermined limit. 13. A boundary layer control arrangement according to claim 12, wherein when the fluid enters the conduit, the barrier moves to the non-deformed condition to close the conduit. 14. A boundary layer control arrangement according to claim 8, wherein the urging arrangement comprises a second sub-chamber containing fluid at a predetermined pressure, and the barrier comprises a flexible membrane which can respond when the pressure in the sub-chamber exceeds a predetermined pressure in the second sub-chamber to allow fluid to enter the exit conduit. 15. A boundary layer control arrangement according to claim 14, wherein the boundary layer control arrangement comprises adjustment means to adjust a frequency of the pulses in the fluid, and wherein the adjustment means comprises an adjustment aperture for the second sub-chamber to allow a fluid to flow into or out of the second sub-chamber, thereby adjusting the pressure in the second sub-chamber. 16. A boundary layer control arrangement according to claim 8, wherein the urging arrangement comprises a spring and the barrier comprises a piston having a sealing member urged into sealing engagement with the exit conduit by the spring. 17. A boundary layer control arrangement according to claim 16, wherein the barrier can respond when a force created by the pressure in the sub-chamber exceeds a force on the barrier by the spring. 18. A boundary layer control arrangement according to claim 8, wherein the urging arrangement comprises a spring and the barrier comprises a flexible membrane urged into sealing engagement with the exit conduit by the spring. 19. A boundary layer control arrangement according to claim 8, wherein the fluid supply means comprises a restrictor to restrict the rate of flow of fluid into the sub-chamber. 20. A boundary layer control arrangement according to claim 1, wherein the boundary layer control arrangement comprises a fluid supply regulator to regulate the supply of said fluid. 21. A boundary layer control arrangement according to claim 20, wherein the fluid supply regulator comprises a valve configured to have an on condition and an off condition. 22. A boundary layer control arrangement according to claim 20, wherein the fluid supply regulator comprises a valve configurable to vary the supply of said fluid continuously or in stepped changes. 23. A boundary layer control arrangement according to claim 1, wherein the boundary layer control arrangement comprises adjustment means to adjust a frequency of the pulses in the fluid. 24. A boundary layer control arrangement according to claim 23, wherein the adjustment means comprises a wall of the chamber, the wall being movable along said chamber to alter an effective length of the chamber, thereby altering a frequency of a standing wave in the chamber. 25. A boundary layer control arrangement according to claim 23, wherein the pulse generator comprises a vibrating member to receive fluid from the fluid supply means, the vibrating member able to vibrate by the action of fluid from the fluid supply means thereon. 26. A boundary layer control arrangement according to claim 25, wherein the vibrating member comprises a reed. 27. A boundary layer control system comprising a plurality of boundary layer control arrangements as claimed in claim 1. 28. A boundary layer control system according to claim 27, wherein the boundary layer control system comprises fluid distribution means to distribute fluid to respective boundary layer control arrangements. 29. A boundary layer control system according to claim 28, wherein the fluid distribution means comprises a manifold. 30. A gas flow conduit of an engine, the gas flow conduit comprising a boundary layer control arrangement as claimed in claim 1. 31. A gas flow conduit according to claim 30, wherein the gas flow conduit comprises a gas intake for the engine. 32. A gas flow conduit according to claim 31, wherein the engine comprises a gas turbine engine and the intake comprises a nacelle of the engine. 33. A gas flow conduit according to claim 30, wherein the conduit comprises a boundary layer control arrangement on an inner surface of the conduit. 34. A gas flow conduit according to claim 30, wherein the conduit comprises a boundary layer control arrangement on the outer surface. 35. A gas flow conduit according to claim 30, wherein the conduit comprises a duct in a gas turbine engine. 36. A gas flow conduit according to claim 30, wherein characteristics of the boundary layer control arrangement are pre-selected to match conditions of the conduit. 37. A gas flow conduit according to claim 30, wherein the conduit comprises a plurality of boundary layer control arrangements. 38. An aerofoil comprising a boundary layer control arrangement to control the boundary layer of fluid flowing across the aerofoil, wherein the boundary layer control arrangement is as claimed in claim 1. 39. An aerofoil according to claim 38, wherein the boundary layer control arrangement is an active boundary layer control arrangement. 40. An aerofoil according to claim 39, wherein the active boundary layer control arrangement comprises a piston and cylinder arrangement, which communicates with the surface of the aerofoil via an aperture control means to control a rate of reciprocation of the piston in the cylinder, thereby providing a pulsed jet of air into and out of the cylinder through the aperture. 41. An aerofoil according to claim 39, wherein the active boundary layer control arrangement comprises a conduit to supply air to a surface of the aerofoil via an aperture and an oscillating valve is provided in the conduit to provide pulsed air out of the aperture, the valve able to oscillate between open and substantially closed conditions to provide said pulsed air. 42. An aerofoil according to claim 38, wherein the aerofoil comprises a fan blade of a fan of a gas turbine engine or a vane of a rotary component of a gas turbine engine. 43. An aerofoil according to claim 42, wherein the vane comprises a stator vane of a compressor, or a nozzle guide vane of a turbine. 44. An aerofoil according to claim 43, wherein the boundary layer control arrangement is arranged towards a trailing edge of the fan blade, whereby the boundary layer control arrangement disrupts air towards the trailing edge, thereby disrupting an interaction of the air in a wake with a further aerofoil downstream of the fan blade.
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