Aircraft de-icing device and engine nacelle of an aircraft gas turbine with de-icing device
원문보기
IPC분류정보
국가/구분 |
United States(US) Patent
등록
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국제특허분류(IPC7판) |
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출원번호 |
US-0939609
(2010-11-04)
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등록번호 |
US-8480032
(2013-07-09)
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우선권정보 |
DE-10 2009 055 879 (2009-11-26) |
발명자
/ 주소 |
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출원인 / 주소 |
- Rolls-Royce Deutschland Ltd & Co KG
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대리인 / 주소 |
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인용정보 |
피인용 횟수 :
1 인용 특허 :
5 |
초록
▼
An aircraft de-icing device and an engine nacelle of an aircraft gas turbine is provided with a de-icing device, with the engine nacelle 1 in the inflow area being provided with an annular air duct 2, into which heated air is introduced. At least one oil cooler 3 is arranged in the engine nacelle 1,
An aircraft de-icing device and an engine nacelle of an aircraft gas turbine is provided with a de-icing device, with the engine nacelle 1 in the inflow area being provided with an annular air duct 2, into which heated air is introduced. At least one oil cooler 3 is arranged in the engine nacelle 1, to which engine oil is fed and which is supplied with ambient air, with the heated airflow leaving the oil cooler 3 being passed through the air duct 2.
대표청구항
▼
1. An engine nacelle of an aircraft gas turbine having a de-icing device, comprising: an annular air duct, positioned in an inlet lip of an inflow area of the engine nacelle and extending circumferentially around the inlet lip, into which heated air is introduced;at least one oil cooler positioned i
1. An engine nacelle of an aircraft gas turbine having a de-icing device, comprising: an annular air duct, positioned in an inlet lip of an inflow area of the engine nacelle and extending circumferentially around the inlet lip, into which heated air is introduced;at least one oil cooler positioned in the engine nacelle rearward of the annular air duct, to which engine oil is fed and which is supplied with ambient air to be heated by the oil cooler;an inflow duct flowingly positioned between the oil cooler and the annular air duct for routing the heated air flow leaving the oil cooler to the annular air duct, to be routed circumferentially around the inlet lip through the annular air duct;an air efflux duct positioned rearward and downstream of the annular air duct for exhausting the heated air flow that has passed through the annular air duct and warmed the inlet lip;the annular air duct being closed between the inflow duct and the air efflux duct. 2. The engine nacelle of claim 1, wherein the annular air duct is connectable to a supply line for compressor air. 3. The engine nacelle of claim 2, wherein the supply line issues into a nozzle positioned to inject air from the compressor into the annular air duct. 4. The engine nacelle of claim 3, wherein the oil cooler is positioned essentially at a top of the engine nacelle. 5. The engine nacelle of claim 4, and further comprising a cooling-air inlet for the oil cooler positioned on a surface of the engine nacelle at a location set back in flow direction from an inlet plane of the engine. 6. The engine nacelle of claim 5, wherein the air efflux duct includes a flow-optimizing mechanism. 7. The engine nacelle of claim 6, wherein the flow-optimizing mechanism is a variable flow outlet. 8. The engine nacelle of claim 7, wherein the inflow duct and air efflux duct are positioned circumferentially opposite one another on the engine nacelle and all heated air flow passing through the oil cooler is routed to the annular air duct through the inflow duct to pass circumferentially around an entirety of a circumference of the inlet lip through the annular air duct before exiting the engine nacelle via the air efflux duct. 9. The engine nacelle of claim 8, wherein the air efflux duct exhausts the heated air flow to an exterior of the engine. 10. The engine nacelle of claim 1, wherein the oil cooler is positioned essentially at a top of the engine nacelle. 11. The engine nacelle of claim 10, and further comprising a cooling-air inlet for the oil cooler positioned on a surface of the engine nacelle at a location set back in flow direction from an inlet plane of the engine. 12. The engine nacelle of claim 11, wherein the air efflux duct includes a flow-optimizing mechanism. 13. The engine nacelle of claim 12, wherein the flow-optimizing mechanism is a variable flow outlet. 14. The engine nacelle of claim 1, wherein the inflow duct and air efflux duct are positioned circumferentially opposite one another on the engine nacelle and all heated air flow passing through the oil cooler is routed to the annular air duct through the inflow duct to pass circumferentially around an entirety of a circumference of the inlet lip through the annular air duct before exiting the engine nacelle via the air efflux duct. 15. The engine nacelle of claim 14, wherein the air efflux duct exhausts the heated air flow to an exterior of the engine. 16. An aircraft de-icing system, comprising: an annular air duct, positioned in an inlet lip of an inflow area of an engine nacelle of the aircraft and extending circumferentially around the inlet lip, into which heated air is introduced;an oil cooler which is supplied heated oil from a heat generating system of the aircraft, the at least one oil cooler positioned in the engine nacelle rearward of the annular air duct;an air routing system for supplying ambient air to the oil cooler to be heated by the oil cooler;a heated air routing system for routing heated air leaving the oil cooler to the annular air duct, the heated air routing system including an inflow duct flowingly positioned between the oil cooler and the annular air duct for routing the heated air flow leaving the oil cooler to the annular air duct, to be routed circumferentially around the inlet lip through the annular air duct;an air efflux duct positioned rearward and downstream of the annular air duct for exhausting the heated air flow that has passed through the annular air duct and warmed the inlet lip;the annular air duct being closed between the inflow duct and the air efflux duct. 17. The aircraft de-icing system of claim 16, wherein the heated air routing system routes the heated air leaving the oil cooler to at least one wing leading edge of the aircraft. 18. The aircraft de-icing system of claim 17, wherein the heated air routing system routes the heated air leaving the oil cooler to at least one engine suspension pylon of the aircraft. 19. The aircraft de-icing system of claim 16, wherein the heated air routing system routes the heated air leaving the oil cooler to at least one engine suspension pylon of the aircraft.
이 특허에 인용된 특허 (5)
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Perry Derick A. (Derby), Deicing of a geared gas turbine engine.
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Alain Porte FR; Stephane Viala FR, Device for discharging hot air for a jet engine air inlet cowl, with a deicing circuit.
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Stephenson, Justin P.; Moniz, Thomas Ory; Venkataramani, Kattalaicheri Srinivasan, Heat transfer system for turbine engine using heat pipes.
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Shah Anil D. (Seattle WA), Integrated thermal anti-icing and environmental control system.
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Olver, Bryan; Ciampa, Alessandro; Marrano, Roberto; Trepanier, Richard; Lamarre, Sylvain; Bernard, Martin; Germain, Patrick, Turbofan bypass duct air cooled fluid cooler installation.
이 특허를 인용한 특허 (1)
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Todorovic, Predrag, Air ejector nozzle tube for an oil heat exchanger of an aircraft engine.
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