Cooling structure for recovery-type air-cooled gas turbine combustor
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
F02C-007/12
F02C-006/08
F02C-007/18
F01D-009/02
F02C-007/08
F02C-007/24
F23R-003/00
F23R-003/06
F23R-003/44
출원번호
US-0806523
(2011-08-10)
등록번호
US-9512781
(2016-12-06)
우선권정보
JP-2010-222494 (2010-09-30)
국제출원번호
PCT/JP2011/068234
(2011-08-10)
§371/§102 date
20121221
(20121221)
국제공개번호
WO2012/043073
(2012-04-05)
발명자
/ 주소
Mizukami, Satoshi
Ishiguro, Tatsuo
Masada, Junichiro
Takata, Kazumasa
Torii, Shunsuke
Fukunaga, Yuya
Konishi, Tetsu
Nishimura, Yoshiaki
Igarashi, Yoshiaki
Ishikawa, Shinya
출원인 / 주소
MITSUBISHI HITACHI POWER SYSTEMS, LTD.
대리인 / 주소
Wenderoth, Lind & Ponack, L.L.P.
인용정보
피인용 횟수 :
0인용 특허 :
4
초록▼
In a cooling structure for a recovery-type air-cooled gas turbine combustor having a recovery-type air-cooling structure that bleeds, upstream of the combustor, and pressurizes compressed air supplied from a compressor, that uses the bled and pressurized air to cool a wall, and that recovers and reu
In a cooling structure for a recovery-type air-cooled gas turbine combustor having a recovery-type air-cooling structure that bleeds, upstream of the combustor, and pressurizes compressed air supplied from a compressor, that uses the bled and pressurized air to cool a wall, and that recovers and reuses the bled and pressurized air as combustion air for burning fuel in the combustor together with a main flow of the compressed air, wall cooling in which cooling air is supplied to cooling air passages formed in the wall of the combustor to perform cooling involves a downstream wall region, closer to a turbine, that is cooled using the bled and pressurized air as the cooling air and an upstream wall region, closer to a burner, that is cooled using, as the cooling air, bled compressed air bled from a main flow of the compressed air through a housing inner space.
대표청구항▼
1. A cooling structure for a recovery-type air-cooled gas turbine combustor comprising: first cooling passages formed in a downstream wall region of a wall of the gas turbine combustor, the first cooling passages being configured to cool the downstream wall region of the gas turbine combustor by rec
1. A cooling structure for a recovery-type air-cooled gas turbine combustor comprising: first cooling passages formed in a downstream wall region of a wall of the gas turbine combustor, the first cooling passages being configured to cool the downstream wall region of the gas turbine combustor by receiving first cooling air bled from a compressed air supply passage and pressurized; andsecond cooling passages formed in an upstream wall region of the wall of the gas turbine combustor, the second cooling passages being configured to cool the upstream wall region of the gas turbine combustor by receiving second cooling air from an inner space of a housing in which the gas turbine is installed, the second cooling air being supplied to the inner space of the housing from the compressed air supply passage,wherein the first cooling air passages are configured so that the first cooling air flows into the first cooling passages and exits into the inner space of the housing,wherein the second cooling air passages are configured so that the second cooling air is introduced from the inner space of the housing into the second cooling passages, andwherein the first cooling air introduced into the first cooling passages for cooling the downstream wall region of the gas turbine combustor is supplied to the gas turbine combustor as combustion air for burning fuel. 2. The cooling structure for the gas turbine combustor according to claim 1, wherein: the first cooling passages include first air inlet holes and first air outlet holes;the first air inlet holes are provided closer to the turbine relative to the first air outlet holes, which are provided closer to a burner of the gas turbine combustor;in the first cooling passages, the first cooling air introduced into the first air inlet holes provided closer to the turbine flows out of the first air outlet holes provided closer to the burner in the downstream wall region into the inner space of the housing; andin the second cooling passages, at least the second cooling air introduced from second air inlet holes provided closer to the turbine in the upstream wall region flows out of second air outlet holes provided in a center of the upstream wall region. 3. The cooling structure for the gas turbine combustor according to claim 2, wherein the first air outlet holes and the second air inlet holes that are adjacent to each other near a boundary between the upstream wall region and the downstream wall region are arranged in a staggered pattern. 4. The cooling structure for the gas turbine combustor according to claim 2, wherein at least the first cooling passages that direct the first cooling air introduced into the first air inlet holes to the first air outlet holes include turn-back portions that couple together the first cooling passages that are adjacent to each other in a circumferential direction of the gas turbine combustor near the boundary. 5. The cooling structure for the gas turbine combustor according to claim 4, wherein the turn-back portions are routed so as to cover a region near the boundary to perform wall cooling using the first cooling air and the second cooling air. 6. The cooling structure for the gas turbine combustor according to claim 4, wherein the second cooling passages, which direct the second cooling air introduced from the second air inlet holes to the second air outlet holes, include turn-back portions that couple together the second cooling passages that are adjacent to each other in a circumferential direction of the gas turbine combustor near the boundary. 7. The cooling structure for the gas turbine combustor according to claim 2, wherein a partition wall protruding from the wall of the combustor is provided between the first air outlet holes and the second air inlet holes. 8. The cooling structure for the gas turbine combustor according to claim 2, wherein a ratio (P/d) of a pitch (P) of the first air outlet holes and the second air inlet holes that are opened and adjacent to each other near the boundary in a longitudinal direction of the combustor to the diameter (d) of the first air outlet holes is set to 2 or more (P/d≧2). 9. The cooling structure for the gas turbine combustor according to claim 2, wherein a diameter (di) of the second air inlet holes is set to a value larger than the diameter (d) of the first air outlet holes (di>d). 10. The cooling structure for the gas turbine combustor according to claim 1, wherein a boundary between the upstream wall region and the downstream wall region is located near an end of an acoustic liner closer to the turbine. 11. The cooling structure for the gas turbine combustor according to claim 1, wherein at least the second cooling passages that direct the second cooling air introduced from the second air inlet holes to the second air outlet holes include turn-back portions that couple together the second cooling passages that are adjacent to each other in a circumferential direction of the gas turbine combustor near the boundary.
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이 특허에 인용된 특허 (4)
Marcum,Steven; Gill,David Alan; Slentz,Kenneth, Cooled gas turbine transition duct.
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