IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
UP-0349489
(2006-02-07)
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등록번호 |
US-7784265
(2010-09-20)
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발명자
/ 주소 |
- Rasheed, Adam
- Dean, Anthony John
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출원인 / 주소 |
|
대리인 / 주소 |
|
인용정보 |
피인용 횟수 :
7 인용 특허 :
17 |
초록
▼
A pulse detonation combustor (PDC) assembly includes an upstream chamber forming an inlet plenum, a downstream chamber including a downstream portion of at least one PDC tube, and an integrated PDC head coupled to the upstream chamber and the downstream chamber. The integrated PDC head is configured
A pulse detonation combustor (PDC) assembly includes an upstream chamber forming an inlet plenum, a downstream chamber including a downstream portion of at least one PDC tube, and an integrated PDC head coupled to the upstream chamber and the downstream chamber. The integrated PDC head is configured to facilitate fuel injection and ignition within the PDC tube. The PDC tube includes an inner seal surface and an outer seal surface configured to mate with the inner seal surface, wherein the inner seal surface includes an elevated section thereon that engages with the outer seal surface such that the PDC tube is free to partially pivot about a longitudinal axis thereof.
대표청구항
▼
The invention claimed is: 1. A pulse detonation combustor (PDC) assembly, comprising: an upstream chamber including a primary air inlet and a secondary air inlet, the primary air inlet configured to allow primary air to be directed to a primary air plenum, the secondary air inlet configured to allo
The invention claimed is: 1. A pulse detonation combustor (PDC) assembly, comprising: an upstream chamber including a primary air inlet and a secondary air inlet, the primary air inlet configured to allow primary air to be directed to a primary air plenum, the secondary air inlet configured to allow secondary air to be directed to a secondary air plenum; a downstream chamber including a downstream portion of at least one PDC tube, the downstream chamber in flow communication with the primary air plenum to allow primary air to flow into the at least one PDC tube, the downstream chamber further including a cooling plenum in flow communication with the secondary air plenum to allow secondary air to cool the downstream chamber; and an integrated PDC head coupled to said upstream chamber and said downstream chamber, said integrated PDC head configured to facilitate fuel injection and ignition within said at least one PDC tube. 2. The PDC assembly of claim 1, wherein said integrated PDC head further comprises at least one tube opening formed therethrough, an upstream portion and said downstream portion of said at least one PDC tube inserted in opposing ends thereof. 3. The PDC assembly of claim 2, wherein said integrated PDC head further comprises: a fuel/air mixer in communication with said at least one tube opening; and an igniter in communication with said at least one tube opening, said igniter configured to ignite a fuel/air mixture introduced into said at least one tube opening. 4. The PDC assembly of claim 3, wherein said integrated PDC head further comprises an anchor configured for securing an obstacle used in a deflagration-to-detonation transition (DDT). 5. The PDC assembly of claim 1, wherein said integrated PDC head further comprises secondary air through ports disposed between individual tube openings. 6. A pulse detonation combustor (PDC) tube, comprising: an inner seal surface; and an outer seal surface configured to mate with said inner seal surface wherein the PDC tube is used within a pulse detonation combustor; and wherein said inner seal surface includes an elevated section thereon that increases an outside diameter of said inner seal surface, the outside diameter of said inner seal surface being slightly less than an inside diameter of said outer seal surface such that the PDC tube is free to partially pivot about a longitudinal axis thereof. 7. The PDC tube of claim 6, wherein the inside diameter of said outer seal surface exceeds the outside diameter of said elevated section by about 0.005 inches or less. 8. The PDC tube of claim 6, wherein a lateral gap adjacent the end of said inner seal surface is defined upon mating said inner surface to said outer seal surface so as to allow for a linear thermal expansion of the PDC tube. 9. A pulse detonation engine (PDE), comprising: a pulse detonation combustor (PDC) assembly in communication with an axial flow turbine assembly, said PDC assembly further comprising: an upstream chamber including a primary air inlet and a secondary air inlet, the primary air inlet configured to allow primary air to be directed to a primary air plenum, the secondary air inlet configured to allow secondary air to be directed to a secondary air plenum; a downstream chamber including a downstream portion of at least one PDC tube, the downstream chamber in flow communication with the primary air plenum to allow primary air to flow into the at least one PDC tube, the downstream chamber further including a cooling plenum in flow communication with the secondary air plenum to allow secondary air to cool the downstream chamber; and an integrated PDC head coupled to said upstream chamber and said downstream chamber, said integrated PDC head configured to facilitate fuel injection and ignition within said at least one PDC tube. 10. The PDE of claim 9, wherein said integrated PDC head further comprises at least one tube opening formed therethrough, an upstream portion and said downstream portion of said at least one PDC tube inserted in opposing ends thereof. 11. The PDE of claim 10, wherein said integrated PDC head further comprises: a fuel/air mixer in communication with said at least one tube opening; and an igniter in communication with said at least one tube opening, said igniter configured to ignite a fuel/air mixture introduced into said at least one tube opening. 12. The PDE of claim 11, wherein said integrated PDC head further comprises an anchor configured for securing an obstacle used in a deflagration-to-detonation transition (DDT). 13. The PDE of claim 9, wherein said integrated PDC head further comprises secondary air through ports disposed between individual tube openings. 14. The PDE of claim 9, wherein at least one of said upstream portion and said downstream portion of said at least one PDC tube further comprises an inner seal surface configured to mate with a corresponding outer seal surface, wherein said inner seal surface includes an elevated section thereon that engages with said outer seal surface such that said at least one PDC tube is free to partially pivot about a longitudinal axis thereof. 15. The PDE of claim 14, wherein a width of said elevated section of said inner seal surface of said PDC tube corresponds to an outside diameter of said PDC tube. 16. The PDE of claim 14, wherein an inside diameter of said outer seal surface exceeds an outside diameter of said elevated section by about 0.005 inches or less. 17. The PDE of claim 14, wherein a lateral gap adjacent the end of said inner seal surface is defined upon mating said inner surface to said outer seal surface so as to allow for a linear thermal expansion of said PDC tube section.
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