Hybrid electrical ice protection system and method including an energy saving mode
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
B64D-015/12
B64D-015/00
출원번호
US-0042764
(2005-01-24)
발명자
/ 주소
Chow,Philip S.
Derouineau,Jean Luc
출원인 / 주소
Honeywell International, Inc.
대리인 / 주소
Ingrassia Fisher &
인용정보
피인용 횟수 :
7인용 특허 :
50
초록▼
A hybrid electrical ice protection system implements three ice protection methods in various combinations. The ice protection methods include the fully-evaporative anti-ice protection method, the wet running anti-ice protection method, and the de-ice method. The particular methods that are implement
A hybrid electrical ice protection system implements three ice protection methods in various combinations. The ice protection methods include the fully-evaporative anti-ice protection method, the wet running anti-ice protection method, and the de-ice method. The particular methods that are implemented vary, depending on the particular aircraft structure for which ice protection is being provided and on the power condition of the aircraft.
대표청구항▼
We claim: 1. An electrical ice protection system for an aircraft operable in at least a nominal power condition and an off-nominal power condition, and including a structure having at least an outer skin, the ice protection system comprising: a plurality of electrical heaters disposed at least prox
We claim: 1. An electrical ice protection system for an aircraft operable in at least a nominal power condition and an off-nominal power condition, and including a structure having at least an outer skin, the ice protection system comprising: a plurality of electrical heaters disposed at least proximate the aircraft structure outer skin and configured to heat at least a portion of the aircraft structure outer skin upon energization thereof, the plurality of electrical heaters including at least a first set of heaters and a second set of heaters; and a controller to determine whether the aircraft is in the nominal power condition or the off-nominal power condition, the controller coupled to each of the electrical heaters and in response to the determined power condition, to: selectively energize the first set of heaters in a manner that the first set of heaters are operated in a fully-evaporative anti-ice mode, and selectively energize the second set of heaters in a manner that the second set of heaters are operated in: (i) a wet running anti-ice mode, if the aircraft is in the nominal power condition, and (ii) a de-ice mode, if the aircraft is in the off-nominal power condition. 2. The system of claim 1, wherein: the plurality of electrical heaters further includes a third set of heaters; and the controller is further configured, in response to the determined power condition, to selectively energize the third set of heaters in a manner that the third set of heaters are operated in the de-ice mode. 3. The system of claim 1, wherein the controller is further configured, in response to the determined power condition, to selectively energize the first set of heaters in a manner that the first set of heaters are operated in: (i) the fully-evaporative anti-ice mode, if the aircraft is in the nominal power condition, and (ii) the de-ice mode, if the aircraft is in the off-nominal power condition. 4. The system of claim 1, wherein: the structure is an engine nacelle having at least an inboard surface and an adjacent outboard surface, the inboard and outboard surfaces each having the outer skin thereon; the first set of heaters are disposed proximate at least a section of the outer skin that is on the engine nacelle inboard surface; and the second set of heaters are disposed proximate at least a section of the outer skin that is the outer skin on at least a section of the engine nacelle outboard surface. 5. The system of claim 4, wherein: the plurality of electrical heaters further includes a third set of heaters; and the controller is further configured to selectively energize the third set of heaters in a manner that the third set of heaters is operated in the de-ice mode. 6. The system of claim 5, wherein the controller is configured to selectively energize the third set of heaters in a manner that the third set of heaters is operated in the de-ice mode whether the aircraft is in the nominal power condition or in the off-nominal power condition. 7. The system of claim 5, wherein: the engine nacelle further includes a leading edge disposed between the adjacent inboard and outboard surfaces; the third set of heaters are disposed proximate the outer skin on at least a section of the engine nacelle outboard surface; and the second set of heaters are disposed between the third set of heaters and the engine nacelle leading edge. 8. The system of claim 7, wherein the plurality of electrical heaters includes: a plurality of electrical heaters arranged chordwise relative to the engine nacelle; and a plurality of electrical heaters arranged spanwise relative to the engine nacelle. 9. The system of claim 8, wherein: selected ones of the plurality of chordwise-arrange electrical heaters are part of the second and third sets of heaters; and the controller, when configured to selectively energize the second and third sets of heaters in a manner that the second and third sets of heaters are operated in the de-ice mode, is further configured to selectively energize one or more of the chordwise-arranged electrical heaters as parting strips. 10. The system of claim 1, wherein: the structure is an aircraft wing or empennage having at least an upper surface and an adjacent lower surface, the upper and lower surfaces each having the outer skin thereon; the first set of heaters are disposed proximate the outer skin on at least a section of the structure upper surface; and the second set of electrical heaters are disposed proximate the outer skin on at least a section of the structure second surface. 11. The system of claim 10, wherein: the plurality of electrical heaters further includes a third set of heaters; and the controller is further configured to selectively energize the third set of heaters in a manner that the third set of heaters is operated in the de-ice mode. 12. The system of claim 11, wherein the controller is configured to selectively energize the third set of heaters in a manner that the third set of heaters is operated in the de-ice mode whether the aircraft is in the nominal power condition or in the off-nominal power condition. 13. The system of claim 12, wherein the controller is further configured, in response to the determined power condition, to selectively energize the first set of heaters in a manner that the first set of heaters are operated in: (i) the fully-evaporative anti-ice mode, if the aircraft is in the nominal power condition, and (ii) the de-ice mode, if the aircraft is in the off-nominal power condition. 14. The system of claim 13, wherein: the aircraft wing or empennage further includes a leading edge disposed between the adjacent upper and lower surfaces; the third set of heaters are disposed proximate the outer skin on at least a section of the structure lower surface; and the second set of heaters are disposed between the third set of heaters and the structure leading edge. 15. The system of claim 14, wherein the plurality of electrical heaters includes: a plurality of electrical heaters arranged chordwise relative to the aircraft wing; and a plurality of electrical heaters arranged spanwise relative to the aircraft wing. 16. The system of claim 15, wherein the controller, when configured to selectively energize the first, second, and third sets of heaters in a manner that the first, second, and third sets of heaters are operated in the de-ice mode, is further configured to selectively energize one or more of the spanwise-arranged electrical heaters and one or more of the chordwise-arranged electrical heaters as parting strips. 17. An electrical ice protection system for an aircraft operable in at least a nominal power condition and an off-nominal power condition, the aircraft including an engine nacelle having at least an inboard surface and an adjacent outboard surface, the inboard and outboard surfaces each including an outer skin, the ice protection system comprising: a first set of electrical heaters disposed proximate the engine nacelle inboard surface outer skin, the first set of heaters configured, upon energization thereof, to heat at least a portion of the engine nacelle inboard surface outer skin; a second set of electrical heaters disposed proximate the engine nacelle outboard surface outer skin, the second set of heaters configured, upon energization thereof, to heat at least a portion of the engine nacelle outboard surface outer skin; and a controller to determine whether the aircraft is in the nominal power condition or the off-nominal power condition, the controller coupled to the first and second set of electrical heaters and in response to the determined power condition, to: selectively energize the first set of electrical heaters in a manner that the first set of heaters are operated in a fully-evaporative anti-ice mode, and selectively energize the second set of electrical heaters in a manner that the second set of electrical heaters are operated in: (i) a wet running anti-ice mode, if the aircraft is in the nominal power condition, and (ii) a de-ice mode, if the aircraft is in the off-nominal power condition. 18. The system of claim 17, further comprising: a third set of electrical heaters disposed proximate the engine nacelle outboard surface outer skin, wherein the controller is further configured, in response to the determined power condition, to selectively energize the third set of electrical heaters in a manner that the third set of electrical heaters are operated in the de-ice mode. 19. The system of claim 18, wherein the controller is configured to selectively energize the third set of electrical heaters in the manner that the third set of electrical heaters are operated in the de-ice mode whether the aircraft is in the nominal power condition or in the off-nominal power condition. 20. The system of claim 18, wherein: the engine nacelle further includes a leading edge disposed between the inboard and outboard surfaces; the third set of heaters are disposed proximate the outer skin on at least a section of the engine nacelle outboard surface; and the second set of heaters are disposed between the third set of heaters and the engine nacelle leading edge. 21. The system of claim 20, wherein the plurality of electrical heaters includes: a plurality of electrical heaters arranged chordwise relative to the engine nacelle; and a plurality of electrical heaters arranged spanwise relative to the engine nacelle. 22. The system of claim 21, wherein: selected ones of the plurality of chordwise-arranged electrical heaters are part of the second and third sets of heaters; and the controller, when configured to selectively energize the second and third sets of heaters in a manner that the second and third sets of heaters are operated in the de-ice mode, is further configured to selectively energize one or more of the chordwise-arranged electrical heaters as parting strips. 23. An electrical ice protection system for an aircraft operable in at least a nominal power condition and an off-nominal power condition, the aircraft including a wing having at least an upper surface and a lower surface, the upper and lower surfaces each including an outer skin, the ice protection system comprising: a first set of electrical heaters disposed proximate the wing upper surface outer skin, the first set of heaters configured, upon energization thereof, to heat at least a portion of the wing upper surface outer skin; a second set of electrical heaters disposed proximate the wing lower surface outer skin, the second set of heaters configured, upon energization thereof, to heat at least a portion of the wing lower surface outer skin; and a controller to determine whether the aircraft is in the nominal power condition or the off-nominal power condition, the controller coupled to the first and second set of electrical heaters and in response to the determined power condition, to: selectively energize the first set of electrical heaters in a manner that the first set of heaters are operated in a fully-evaporative anti-ice mode, and selectively energize the second set of electrical heaters in a manner that the second set of electrical heaters are operated in: (i) a wet running anti-ice mode, if the aircraft is in the nominal power condition, and (ii) a de-ice mode, if the aircraft is in the off-nominal power condition. 24. The system of claim 23, further comprising: a third set of electrical heaters disposed proximate the wing lower surface outer skin, wherein the controller is further configured, in response to the determined power condition, to selectively energize the third set of electrical heaters in a manner that the third set of electrical heaters are operated in the de-ice mode. 25. The system of claim 24, wherein the controller is configured to selectively energize the third set of electrical heaters in the manner that the third set of electrical heaters are operated in the de-ice mode whether the aircraft is in the nominal power condition or in the off-nominal power condition. 26. The system of claim 24, wherein: the wing further includes a leading edge disposed between the upper and lower surfaces; the third set of heaters are disposed proximate the outer skin on at least a section of the wing lower surface; and the second set of heaters are disposed between the third set of heaters and the wing leading edge. 27. The system of claim 23, wherein the controller is further configured, in response to the determined power condition, to selectively energize the first set of electrical heaters in a manner that the first set of electrical heaters are operated in: (i) the fully-evaporative anti-ice mode, if the aircraft is in the nominal power condition, and (ii) the de-ice mode, if the aircraft is in the off-nominal power condition. 28. The system of claim 27, wherein the plurality of electrical heaters includes: a plurality of electrical heaters arranged chordwise relative to the aircraft wing; and a plurality of electrical heaters arranged spanwise relative to the aircraft wing. 29. The system of claim 28, wherein the controller, when configured to selectively energize the first, second, and third sets of heaters in a manner that the first, second, and third sets of heaters are operated in the de-ice mode, is further configured to selectively energize one or more of the spanwise-arranged electrical heaters and one or more of the chordwise-arranged electrical heaters as parting strips. 30. An electrical ice protection system for an aircraft operable in at least a nominal power condition and an off-nominal power condition, and including an engine nacelle and an aircraft wing, the engine nacelle having at least an inboard surface and an adjacent outboard surface, each with an outer skin, the aircraft wing including at least an upper surface and a lower surface, each with an outer skin, the ice protection system comprising: a first set of electrical heaters disposed proximate the engine nacelle inboard surface outer skin, the first set of heaters configured, upon energization thereof, to heat at least a portion of the engine nacelle inboard surface outer skin; a second set of electrical heaters disposed proximate the engine nacelle outboard surface outer skin, the second set of heaters configured, upon energization thereof, to heat at least a portion of the engine nacelle outboard surface outer skin; a third set of electrical heaters disposed proximate the aircraft wing upper surface outer skin, the third set of electrical heaters configured, upon energization thereof, to heat at least a portion of the wing upper surface outer skin; a fourth set of electrical heaters disposed proximate the aircraft wing lower surface outer skin, the fourth set of electrical heaters configured, upon energization thereof, to heat at least a portion of the wing lower surface outer skin; and a controller to determine whether the aircraft is in the nominal power condition or the off-nominal power condition, the controller coupled to the first, second, third, and fourth sets of electrical heaters and in response to the determined power condition, to: selectively energize the first and third sets of electrical heaters in a manner that the first and third sets of electrical heaters are operated in a fully-evaporative anti-ice mode, and selectively energize the second and fourth sets of electrical heaters in a manner that the second and fourth sets of electrical heaters are operated in: (i) a wet running anti-ice mode, if the aircraft is in the nominal power condition, and (ii) a de-ice mode, if the aircraft is in the off-nominal power condition.
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이 특허에 인용된 특허 (50)
Volkner Wolfgang (Rellingen DT) Schmedemann Hellmuth (Tornesch DT), Aircraft de-icing.
Adams Lowell J. (Dayton OH) Weisend ; Jr. Norbert A. (Cuyahoga Falls OH) Pisarski Nathan (Stow OH) Simshauser Steven C. (Akron OH), De-icer adapted for installment on the inner surface of a structural member.
Zieve Peter B. (Seattle WA) Smith Samuel O. (Woodinville WA), Electromagnetic repulsion system for removing contaminants such as ice from the surfaces of aircraft and other objects.
Henne Preston A. (Irvine CA) Boronow Walter S. (Cerritos CA) Wong Samuel L. (Laguna Hills CA) Himebaugh Willard D. (Westminster CA), Ice prevention device for airfoils.
Adams Lowell J. (Dayton OH) Leffel Kevin L. (Akron OH) Tenison Gary V. (New Brighton MN) Weisend ; Jr. Norbert A. (Cuyahoga Falls OH), Mechanical deicer having decoupled skin segments.
Adams Lowell J. (North Canton OH) Beard ; Jr. William A. (Uniontown OH) Simshauser Steven C. (Akron OH) Weisend ; Jr. Norbert A. (Cuyahoga Falls OH) Wohlwender Thomas E. (Akron OH), Planar coil construction.
Schellhase Ernst Calvin ; Eisenhauer Mark P. ; Miller Richard Dean ; Pappas John Peter ; Froman Gary Scott ; Aubert Roger Jacques Michel, Redundant ice management system for aircraft.
Rauch Patrice,FRX ; Bauchet Jean-Cyril,FRX, Resistive elements for heating an aerofoil, and device for heating an aerofoil incorporating such elements.
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