Aviation engine inlet with tangential blowing for buzz saw noise control
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
F02C-007/24
F02K-001/82
출원번호
US-0135518
(2011-07-08)
등록번호
US-8234869
(2012-08-07)
발명자
/ 주소
Tuan, Yen
출원인 / 주소
Tuan, Yen
인용정보
피인용 횟수 :
3인용 특허 :
6
초록
Buzz saw noise propagates through inlet of aviation engine at high power settings. An inlet of aviation engine with blowing slot blowing air grazing over surface of buzz saw lining at speeds higher than inlet mean air flow speed for buzz saw noise control.
대표청구항▼
1. An inlet for an aviation engine comprising: an exterior surface of the inlet extending a full length of the inlet and extending further downstream to form a nacelle cowling;a lip surface of the inlet;an interior surface of the inlet extending the full length of the inlet from the lip surface to a
1. An inlet for an aviation engine comprising: an exterior surface of the inlet extending a full length of the inlet and extending further downstream to form a nacelle cowling;a lip surface of the inlet;an interior surface of the inlet extending the full length of the inlet from the lip surface to a frontal interface of the aviation engine;a segment of a buzz saw lining immediately connected to the frontal interface of the aviation engine, and having an exposed surface defining a portion of the interior surface of the inlet;an annular tangential blowing slot positioned immediately upstream from the segment of the buzz saw lining and extending circumferentially 360 degrees around the interior surface of the inlet, blowing a flow of air at speeds greater than a mean speed of a flow of air of the inlet, with a source of the blowing air from a bleed of air flow of a fan of the aviation engine;Wherein in the segment of the buzz saw lining and the annular tangential blowing slot, whereby an improvement of attenuation of a buzz saw tone noise, comprising blowing the flow of air along a full length of a surface of the segment of the buzz saw lining, wherein the blowing of the flow of air at flow speeds greater than the mean speed of the flow of air of the inlet. 2. The inlet for the aviation engine of claim 1, wherein the annular tangential blowing slot has a lip in a shape of a downstream facing step. 3. The inlet for the aviation engine of claim 1, wherein the exterior surface of the inlet, the lip surface of the inlet, the interior surface of the inlet, the nacelle cowling and the annular tangential blowing slot, whereby an improvement of cruise drag and fuel consumption of an airplane, comprising redesigning and reshaping the nacelle cowling. 4. The inlet for the aviation engine of claim 1, wherein the annular tangential blowing slot is flush with the interior surface of the inlet. 5. The inlet for the aviation engine of claim 1, wherein the blowing air flow of the annular tangential blowing slot is activated through an entire time of a journey of an aircraft to control an aircraft cabin noise level for passenger comfort. 6. The inlet for the aviation engine of claim 1, wherein the segment of the buzz saw lining has a length of 0.2 to 0.3 times a diameter of the fan of the aviation engine. 7. The inlet for the aviation engine of claim 1, wherein the segment of the buzz saw lining is constructed using a perforated-face-sheet-honeycomb-core-back-plate sandwich. 8. An inlet for an aviation engine comprising: an exterior surface of the inlet extending a full length of the inlet and extending further downstream to form a nacelle cowling;a lip surface of the inlet;an interior surface of the inlet extending the full length of the inlet from the lip surface to a frontal interface of the aviation engine and extending further downstream with a diameter of the interior surface larger than a diameter of a fan casing of the engine for a blowing flow of air to pass;an annular channel of the blowing flow of air between the interior surface of the inlet and an exterior surface of the fan casing, extending downstream for the annular channel of the flow of air to merge with a channel of a fan exhaust flow;a segment of a buzz saw lining immediately connected to the frontal interface of the aviation engine; and having an exposed surface defining a portion of the interior surface of the inlet;an annular tangential blowing slot positioned immediately upstream from the segment of the buzz saw lining and extending circumferentially 360 degrees around the interior surface of the inlet, blowing the flow of air at speeds greater than a mean speed of a flow of air of the inlet with a source of the blowing air from a bleed of air of a low pressure compressor of the aviation engine;wherein in the segment of the buzz saw lining and the annular tangential blowing slot, whereby an improvement of attenuation of a buzz saw tone noise, comprising blowing the flow of air along a full length of a surface of the segment of the buzz saw lining, wherein the blowing of the flow of air at flow speeds greater than the mean speed of the flow of air of the inlet. 9. The inlet for the aviation engine of claim 8, wherein the annular tangential blowing slot has a lip in a shape of a downstream facing step. 10. The inlet for the aviation engine of claim 8, wherein the exterior surface of the inlet, the lip surface of the inlet, the interior surface of the inlet, the nacelle cowling and the annular tangential blowing slot, whereby an improvement of cruise drag and fuel consumption of an airplane, comprising redesigning and reshaping the nacelle cowling. 11. The inlet for the aviation engine of claim 8, wherein the annular tangential blowing slot is flush with the interior surface of the inlet. 12. The inlet for the aviation engine of claim 8, wherein the blowing air flow of the annular tangential blowing slot is activated through an entire time of a journey of an aircraft to control an aircraft cabin noise level for passenger comfort. 13. The inlet for the aviation engine of claim 8, wherein the segment of the buzz saw lining has a length of 0.2 to 0.3 times the diameter of the fan casing of the aviation engine. 14. The inlet for the aviation engine of claim 8, wherein the segment of the buzz saw lining is constructed using a perforated-face-sheet-honeycomb-core-back-plate sandwich. 15. An inlet for an aviation engine comprising: an exterior surface of the inlet extending a full length of the inlet and extending further downstream to form a nacelle cowling;a lip surface of the inlet;an interior surface of the inlet extending the full length of the inlet from the lip surface to a frontal interface of the aviation engine;an annular channel of a blowing flow of air between an extension of the interior surface of the inlet downstream from the frontal interface of the aviation engine and an exterior surface of a fan casing, eventually in a downstream direction forming an exit opening of the blowing flow of air;a segment of a buzz saw lining immediately connected to the frontal interface of the aviation engine and having an exposed surface defining a portion of the interior surface of the inlet;an annular tangential blowing slot positioned immediately upstream from the segment of the buzz saw lining and extending circumferentially 360 degrees around the interior surface of the inlet, having the blowing a flow of air at speeds greater than a mean speed of a flow of air of the inlet, with a source of the blowing flow of air from a bleed of a flow of air of a low pressure compressor of the aviation engine;wherein in the segment of the buzz saw lining and the annular tangential blowing slot, whereby an improvement of attenuation of a buzz saw tone noise, comprising blowing the flow of air along a full length of a surface of the segment of the buzz saw lining, wherein the blowing flow of air at supersonic flow speeds greater than the mean speed of the flow of air of the inlet. 16. The inlet for the aviation engine of claim 15, wherein the annular tangential blowing slot has a lip in a shape of a downstream facing step. 17. The inlet for the aviation engine of claim 15, wherein the annular tangential blowing slot is flush with the interior surface of the inlet. 18. The inlet for the aviation engine of claim 15, wherein the blowing air flow of the annular tangential blowing slot is activated through an entire time of a journey of an aircraft to control an aircraft cabin noise level for passenger comfort. 19. The inlet for the aviation engine of claim 15, wherein the segment of the buzz saw lining has a length of 0.2 to 0.3 times a diameter of the fan of the aviation engine. 20. The inlet for the aviation engine of claim 15, wherein the segment of the buzz saw lining is constructed using a perforated-face-sheet-honeycomb-core-back-plate sandwich. 21. The inlet for the aviation engine of claim 15, wherein the exterior surface of the inlet, the lip surface of the inlet, the interior surface of the inlet, the nacelle cowling and the annular tangential blowing slot, whereby an improvement of cruise drag and fuel consumption of an airplane, comprising redesigning and reshaping the nacelle cowling.
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이 특허에 인용된 특허 (6)
Tuan, Yen, Aero-acoustic aviation engine inlet for aggressive noise abatement.
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