Variable area turbine arrangement for a gas turbine engine
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
F01D-009/04
F01D-009/06
F02C-009/20
F01D-017/16
출원번호
US-0909209
(2014-08-04)
등록번호
US-10240479
(2019-03-26)
국제출원번호
PCT/US2014/049536
(2014-08-04)
국제공개번호
WO2015/069334
(2015-05-14)
발명자
/ 주소
Surace, Raymond
출원인 / 주소
UNITED TECHNOLOGIES CORPORATION
대리인 / 주소
Carlson, Gaskey & Olds, P.C.
인용정보
피인용 횟수 :
0인용 특허 :
13
초록▼
A variable area turbine arrangement according to an exemplary aspect of the present disclosure includes, among other things, a first turbine section having at least a first variable vane row and a second turbine section downstream from the first turbine section and having at least a second variable
A variable area turbine arrangement according to an exemplary aspect of the present disclosure includes, among other things, a first turbine section having at least a first variable vane row and a second turbine section downstream from the first turbine section and having at least a second variable vane row. A transition duct is disposed between the first turbine section and the second turbine section.
대표청구항▼
1. A variable area turbine arrangement, comprising: a first turbine section having at least a first variable vane row circumferentially disposed about a centerline longitudinal axis;a second turbine section downstream from said first turbine section and having at least a second variable vane row cir
1. A variable area turbine arrangement, comprising: a first turbine section having at least a first variable vane row circumferentially disposed about a centerline longitudinal axis;a second turbine section downstream from said first turbine section and having at least a second variable vane row circumferentially disposed about said centerline longitudinal axis, wherein said second variable vane row is positioned at an inlet of said second turbine section;a transition duct disposed between said first turbine section and said second turbine section and including a radially outer wall and a radially inner wall, each of the radially outer wall and radially inner wall including sloped portions sloped in the radially outboard direction from the first turbine section to the second turbine section, wherein said inlet is parallel to said centerline longitudinal axis such that said radially inner wall and said radially outer wall immediately downstream of said inlet are parallel to said central longitudinal axis; andat least one stationary vane positioned within said transition duct. 2. The variable area turbine arrangement as recited in claim 1, wherein said at least one stationary vane is positioned directly upstream of said second variable vane. 3. The variable area turbine arrangement as recited in claim 1, wherein said variable area turbine arrangement is part of a low pressure turbine arrangement. 4. The variable area turbine arrangement as recited in claim 1, wherein each of said first variable vane row and said second variable vane row includes a spindle that extends along a variable vane spindle axis. 5. The variable area turbine arrangement as recited in claim 1, wherein said transition duct includes an array of stationary vanes that extend between said radially outer wall and said radially inner wall of said transition duct. 6. The variable area turbine arrangement as recited in claim 1, wherein said second variable vane row extends radially outboard relative to said first variable vane row. 7. The variable area turbine arrangement as recited in claim 1, wherein said first turbine section is a high pressure turbine and said second turbine section is a low pressure turbine. 8. The variable area turbine arrangement as recited in claim 1, wherein said transition duct extends between said radially outer wall and said radially inner wall, said transition duct configured to influence a core airflow communicated through said transition duct prior to communicating said core airflow to said second turbine section. 9. The variable area turbine arrangement as recited in claim 1, wherein said transition duct is positioned to straighten flow of a core airflow such that it is communicated at an angle that is substantially aligned within a desired inlet angle range of said second variable vane row. 10. The variable area turbine arrangement as recited in claim 1, wherein said transition duct includes a sloped portion between said inlet and an outlet of said first turbine section, wherein said outlet is parallel to said central longitudinal axis such that said radially inner wall and said radially outer wall immediately adjacent said outlet are parallel to said longitudinal axis. 11. A gas turbine engine, comprising: a first turbine section having at least a first array of variable vanes circumferentially disposed about an engine centerline longitudinal axis;a second turbine section having at least a second array of variable vanes circumferentially disposed about said engine centerline axis, wherein said second array of variable vanes is positioned at an inlet of said second turbine section, and said inlet is parallel to said centerline longitudinal axis, such that a radially inner wall and a radially outer wall immediately downstream of said inlet are parallel to said central longitudinal axis;a transition duct axially intermediate said first turbine section and said second turbine section; andat least one stationary vane positioned within said transition duct and configured to turn a core airflow prior to communication of said core airflow to said second array of variable vanes. 12. The gas turbine engine as recited in claim 11, wherein said at least one stationary vane extends between said radially outer wall and said radially inner wall of said transition duct. 13. The gas turbine engine as recited in claim 11, wherein said at least one stationary vane is positioned directly upstream from said second array of variable vanes. 14. The gas turbine engine as recited in claim 11, wherein said at least one stationary vane extends between sloped portions of said transition duct. 15. The gas turbine engine as recited in claim 14, wherein said sloped portions are transverse to said engine centerline longitudinal axis of the gas turbine engine. 16. A method for reducing incidence angle variation in a gas turbine engine, comprising: moving a first variable vane of a first turbine section to alter a turbine flow area; communicating core airflow through a transition duct; changing a characteristic of the core airflow within the transition duct, including straightening the core airflow such that it enters the second turbine section at an angle aligned within the desired inlet angle range of the second variable vane; andafter the step of changing, communicating the core airflow to a second variable vane of a second turbine section,wherein said second variable vane is positioned at an inlet of said second turbine section, andwherein said inlet is parallel to a centerline longitudinal axis of the gas turbine engine such that a radially inner wall and a radially outer wall immediately downstream of said inlet are parallel to said central longitudinal axis. 17. The method as recited in claim 16, comprising moving the second variable vane to alter a turbine flow area of the second turbine section. 18. The method as recited in claim 16, wherein the step of changing includes positioning at least one stationary vane within the transition duct at a location that is directly upstream of the second variable vane. 19. The method as recited in claim 16, wherein the step of communicating includes channeling the core airflow between sloped portions of the transition duct.
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이 특허에 인용된 특허 (13)
Andrew, Philip L., Ceramic matrix composite turbine engine.
Amos David J. (Wallingford PA) Ichiryu Taku (Kakogawa JA) Sato Tomohiko (Kobe JA), Vane assembly for close coupling the compressor turbine and a single stage power turbine of a two-shaped gas turbine.
Savage Joseph W. ; Halila Ely E. ; Orlando Robert J. ; Boehm ; Jr. Valentine R. ; Martus James A. ; Wallace Thomas T. ; Shelton Monty L., Variable area turbine nozzle.
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