Exhaust diffuser adjustment system for a gas turbine engine
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
F02K-001/78
B63H-011/10
출원번호
US-0276346
(2011-10-19)
등록번호
US-8756936
(2014-06-24)
발명자
/ 주소
Orosa, John A.
Kopko, Jason A.
출원인 / 주소
Siemens Aktiengesellschaft
인용정보
피인용 횟수 :
2인용 특허 :
3
초록▼
A turbine exhaust diffuser adjustment system for a gas turbine engine capable of altering the flow of turbine exhaust gases is disclosed. The turbine exhaust diffuser adjustment system may be formed from one or more flow ramps positioned in a flowpath. The flow ramp may include a downstream, radiall
A turbine exhaust diffuser adjustment system for a gas turbine engine capable of altering the flow of turbine exhaust gases is disclosed. The turbine exhaust diffuser adjustment system may be formed from one or more flow ramps positioned in a flowpath. The flow ramp may include a downstream, radially outward point that extends radially outward further from the ID flowpath boundary than an upstream, radially outward point that is positioned upstream from the downstream, radially outward point. The flow ramp may be adjustable such that an angular position of a radially outer surface of the flow ramp may be adjusted relative to the ID flowpath boundary, thereby enabling the flowpath to be changed during turbine operation to enhance the efficiency of the turbine engine throughout its range of operation.
대표청구항▼
1. A turbine exhaust diffuser adjustment system for a gas turbine engine, comprising: at least one flowpath downstream of at least one turbine combustor;wherein the at least one flowpath is defined at least in part by a turbine casing forming an OD flowpath boundary;wherein the at least one flowpath
1. A turbine exhaust diffuser adjustment system for a gas turbine engine, comprising: at least one flowpath downstream of at least one turbine combustor;wherein the at least one flowpath is defined at least in part by a turbine casing forming an OD flowpath boundary;wherein the at least one flowpath is defined at least in part by a hub forming an ID flowpath boundary;a first flowpath reducer positioned in the at least one flowpath on the ID flowpath boundary, wherein the first flowpath reducer includes a downstream, radially outward point that extends radially outward further from the ID flowpath boundary than an upstream, radially outward point that is position upstream from the downstream, radially outward point; andwherein the first flowpath reducer is adjustable such that an angular position of a radially outer surface of the first flowpath reducer may be adjusted relative to the ID flowpath boundary, thereby enabling the flowpath to be changed during turbine operation. 2. The turbine exhaust diffuser adjustment system of claim 1, wherein the first flowpath is generally cylindrical about a longitudinal axis of the turbine engine. 3. The turbine exhaust diffuser adjustment system of claim 1, wherein the downstream, radially outward point of the first flowpath reducer extends radially outward from a longitudinal axis a distance greater than the upstream, radially outward point. 4. The turbine exhaust diffuser adjustment system of claim 1, wherein the first flowpath reducer is a ring with a generally conical outer surface. 5. The turbine exhaust diffuser adjustment system of claim 1, further comprising a second flowpath reducer positioned in the at least one flowpath, wherein the second flowpath reducer includes a downstream, radially outward point that extends radially outward further from the ID flowpath boundary than an upstream, radially outward point that is position upstream from the downstream, radially outward point. 6. The turbine exhaust diffuser adjustment system of claim 5, wherein the downstream, radially outward point of the flowpath extends radially outward from a longitudinal axis a distance greater than the upstream, radially outward point of the flowpath. 7. The turbine exhaust diffuser adjustment system of claim 5, wherein the second flowpath reducer is a ring with a generally conical outer surface. 8. The turbine exhaust diffuser adjustment system of claim 5, wherein the second flowpath reducer is positioned downstream from the first flowpath reducer. 9. The turbine exhaust diffuser adjustment system of claim 8, wherein the first flowpath reducer is positioned on an upstream portion of the hub forming the ID flowpath boundary with a positive slope moving in a downstream direction, and the second flowpath reducer is positioned on a downstream portion of the hub forming the ID flowpath boundary with a negative slope moving in a downstream direction. 10. The turbine exhaust diffuser adjustment system of claim 5, wherein the second flowpath reducer is adjustable such that an angular position of a radially outer surface of the second flowpath reducer may be adjusted relative to the ID flowpath boundary, thereby enabling the flowpath to be changed during turbine operation. 11. A turbine exhaust diffuser adjustment system for a gas turbine engine, comprising: at least one flowpath downstream of at least one turbine combustor;wherein the at least one flowpath is defined at least in part by a turbine casing forming an OD flowpath boundary;wherein the at least one flowpath is defined at least in part by a hub forming an ID flowpath boundary;a first flowpath reducer positioned in the at least one flowpath, wherein the first flowpath reducer includes a downstream, radially outward point that extends radially outward further from the ID flowpath boundary than an upstream, radially outward point that is position upstream from the downstream, radially outward point;wherein the first flowpath reducer is generally cylindrical about a longitudinal axis of the turbine engine;wherein the downstream, radially outward point of the first flowpath reducer extends radially outward from a longitudinal axis a distance greater than the upstream, radially outward point; andwherein the first flowpath reducer is adjustable such that an angular position of a radially outer surface of the first flowpath reducer may be adjusted relative to the ID flowpath boundary, thereby enabling the flowpath to be changed during turbine operation. 12. The turbine exhaust diffuser adjustment system of claim 11, wherein the first flowpath reducer is a ring with a generally conical outer surface. 13. The turbine exhaust diffuser adjustment system of claim 11, further comprising a second flowpath reducer positioned in the at least one flowpath, wherein the second flowpath reducer includes a downstream, radially outward point that extends radially outward further from the ID flowpath boundary than an upstream, radially outward point that is position upstream from the downstream, radially outward point, and wherein the second flowpath reducer is positioned downstream from the first flowpath reducer. 14. The turbine exhaust diffuser adjustment system of claim 13, wherein the downstream, radially outward point of the first flowpath extends radially outward from a longitudinal axis a distance greater than the upstream, radially outward point of the first flowpath. 15. The turbine exhaust diffuser adjustment system of claim 13, wherein the second flowpath reducer is a ring with a generally conical outer surface. 16. The turbine exhaust diffuser adjustment system of claim 15, wherein the first flowpath reducer is positioned on a portion of the hub forming the ID flowpath boundary with a positive slope of about two degrees moving in a downstream direction, and the second flowpath reducer is positioned on a portion of the hub forming the ID flowpath boundary with a negative slope of about six degrees moving in a downstream direction. 17. The turbine exhaust diffuser adjustment system of claim 13, wherein the second flowpath reducer is adjustable such that an angular position of a radially outer surface of the second flowpath reducer may be adjusted relative to the ID flowpath boundary, thereby enabling the flowpath to be reduced during turbine operation. 18. A turbine exhaust diffuser adjustment system for a gas turbine engine, comprising: at least one flowpath downstream of at least one turbine combustor;wherein the at least one flowpath is defined at least in part by a turbine casing forming an OD flowpath boundary;wherein the at least one flowpath is defined at least in part by a hub forming an ID flowpath boundary;a first flowpath reducer positioned in the at least one flowpath, wherein the first flowpath reducer includes a downstream, radially outward point that extends radially outward further from the ID flowpath boundary than an upstream, radially outward point that is position upstream from the downstream, radially outward point;wherein the first flowpath is generally cylindrical about a longitudinal axis of the turbine engine;wherein the downstream, radially outward point of the first flowpath reducer extends radially outward from a longitudinal axis a distance greater than the upstream, radially outward point;wherein the first flowpath reducer is adjustable such that an angular position of a radially outer surface of the first flowpath reducer may be adjusted relative to the ID flowpath boundary, thereby enabling the flowpath to be reduced during turbine operation;a second flowpath reducer positioned in the at least one flowpath, wherein the second flowpath reducer includes a downstream, radially outward point that extends radially outward further from the ID flowpath boundary than an upstream, radially outward point that is position upstream from the downstream, radially outward point, and wherein the second flowpath reducer is positioned downstream from the first flowpath reducer; andwherein the downstream, radially outward point of the first flowpath extends radially outward from a longitudinal axis a distance greater than the upstream, radially outward point of the first flowpath.
Graziosi, Paolo; Warren, Jr., Richard Edwin; Fric, Thomas Frank; Mani, Ramani; Hofer, Douglas Carl, Fluidic actuation for improved diffuser performance.
Norris Thomas R. (Orinda CA) Lockwood Hanford N. (San Mateo CA) Watts J. Alan (Wakefield RI), Method and apparatus for enhancing gas turbo machinery flow.
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