Method and apparatus for cooling gas turbine engine component
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
F01D-005/18
F01D-009/02
F01D-025/12
F02C-007/12
F01D-011/10
출원번호
US-0974150
(2015-12-18)
등록번호
US-10156147
(2018-12-18)
발명자
/ 주소
Waite, Ryan Alan
출원인 / 주소
UNITED TECHNOLOGIES CORPORATION
대리인 / 주소
Carlson, Gaskey & Olds, P.C.
인용정보
피인용 횟수 :
0인용 특허 :
17
초록▼
According to one aspect of the present disclosure, an engine component for a gas turbine engine is disclosed that includes an internal cavity and a baffle. The internal cavity is defined by the engine component, and the internal cavity is in fluid communication with a source of cooling air. The baff
According to one aspect of the present disclosure, an engine component for a gas turbine engine is disclosed that includes an internal cavity and a baffle. The internal cavity is defined by the engine component, and the internal cavity is in fluid communication with a source of cooling air. The baffle is disposed within the internal cavity, and includes at least four longitudinal sidewalls that include at least two first sidewalls, one of which is upstream and one of which is downstream, and at least two second sidewalls, at least one of which faces towards a core flow path of the gas turbine engine. The baffle includes a plurality of openings for directing cooling air from within the baffle into the cavity. A majority of the openings are on at least one of the first sidewalls.
대표청구항▼
1. An engine component for a gas turbine engine comprising: an internal cavity defined by the engine component, the internal cavity in fluid communication with a source of cooling air; anda baffle disposed within the internal cavity, the baffle including at least four longitudinal sidewalls that inc
1. An engine component for a gas turbine engine comprising: an internal cavity defined by the engine component, the internal cavity in fluid communication with a source of cooling air; anda baffle disposed within the internal cavity, the baffle including at least four longitudinal sidewalls that include at least two first sidewalls, one of which is upstream and one of which is downstream, and at least two second sidewalls, at least one of which faces towards a core flow path of the gas turbine engine, the baffle including a plurality of openings for directing cooling air from within the baffle into the cavity, wherein a majority of the openings are on the two first sidewalls, wherein the engine component is an airfoil, each of the two first sidewalls extends along a respective direction having a major component between suction and pressure sides of the airfoil, and each of the two second sidewalls extends along a respective direction having a major component between a leading edge and a trailing edge of the airfoil;a first additional cavity defined by the engine component, disposed between the internal cavity and the leading edge of the airfoil, and separated from the internal cavity by a first divider; anda second additional cavity defined by the engine component, disposed between the internal cavity and the trailing edge of the airfoil, and separated from the internal cavity by a second divider. 2. The engine component of claim 1, wherein at least 90% of the openings are on the first sidewalls. 3. The engine component of claim 2, wherein all of the openings are on the first sidewalls, and the second sidewalls are free of the openings. 4. The engine component of claim 1, wherein a pressure side of the airfoil includes a plurality of exit holes that define passages for air to exit the internal cavity. 5. The engine component of claim 1, wherein the airfoil is a turbine vane. 6. The engine component of claim 1, comprising a plurality of chamber dividers situated on at least one of a wall of the cavity that at least partially defines the cavity and an exterior of the baffle, wherein the chamber dividers form a plurality of chambers that direct cooling air that exits a first one the first sidewalls along the second sidewalls towards an opposing second one of the first sidewalls. 7. The engine component of claim 1, wherein the engine component is part of a high pressure turbine of the gas turbine engine. 8. The engine component of claim 1, wherein a leading edge of the airfoil and the first divider include cooling openings that fluidly connect the internal cavity to an additional source of cooling air. 9. An engine component for a gas turbine engine comprising: an internal cavity defined by the engine component, the internal cavity in fluid communication with a source of cooling air; anda baffle disposed within the internal cavity, the baffle including at least four longitudinal sidewalls that include at least two first sidewalls, one of which is upstream and one of which is downstream, and at least two second sidewalls, at least one of which faces towards a core flow path of the gas turbine engine, the baffle including a plurality of openings for directing cooling air from within the baffle into the cavity, wherein a majority of the openings are on the two first sidewalls;wherein the engine component is a blade outer air seal adjacent to an airfoil;wherein the two first sidewalls face towards a leading edge side and a trailing edge side, respectively, of the airfoil; andwherein a first one of the second sidewalls faces towards the core flow path, and a second one of the second sidewalls faces away from the core flow path. 10. The engine component of claim 9, comprising an opening in the second one of the second sidewalls, the opening fluidly connecting the source of cooling air to the internal cavity. 11. The engine component of claim 9, wherein the first sidewalls and second sidewalls extend between opposing open ends of the baffle. 12. A gas turbine engine, comprising: a compressor section;a combustor section in fluid communication with the compressor section;a turbine section in fluid communication with the combustor section, the turbine section including an engine component defining an internal cavity in fluid communication with a source of cooling air; anda baffle disposed within the internal cavity, the baffle including at least four longitudinal sidewalls that include at least two first sidewalls, one of which is upstream and one of which is downstream, and at least two second sidewalls, at least one of which faces towards a core flow path of the gas turbine engine, the baffle including a plurality of openings for directing cooling air from within the baffle into the cavity, wherein a majority of the openings are on the two first sidewalls, wherein the engine component is an airfoil, each of the two first sidewalls extends along a direction having a major component between suction and pressure sides of the airfoil, and each of the two second sidewalls extends along a direction having a major component between a leading edge and a trailing edge of the airfoil;a first additional cavity defined by the engine component, disposed between the internal cavity and the leading edge of the airfoil, and separated from the internal cavity by a first divider; anda second additional cavity defined by the engine component, disposed between the internal cavity and the trailing edge of the airfoil, and separated from the internal cavity by a second divider. 13. The gas turbine engine of claim 12, wherein at least 90% of the openings are on the first sidewalls. 14. The gas turbine engine of claim 13, wherein all of the openings are on the first sidewalls, and the second sidewalls are free of the openings. 15. The gas turbine engine of claim 12, wherein a pressure side of the airfoil includes a plurality of exit holes that define passages for air to exit the internal cavity. 16. The gas turbine engine of claim 12, wherein the airfoil is a turbine vane. 17. The gas turbine engine of claim 12, comprising a plurality of chamber dividers situated on at least one of a wall of the cavity that at least partially defines the cavity and an exterior of the baffle, wherein the chamber dividers form a plurality of chambers that direct cooling air that exits a first one the first sidewalls along the second sidewalls towards an opposing second one of the first sidewalls. 18. The gas turbine engine of claim 12, wherein the engine component is part of a high pressure turbine of the gas turbine engine. 19. The gas turbine engine of claim 12, wherein the leading edge of the airfoil and the first divider include cooling openings that fluidly connect the internal cavity to an additional source of cooling air. 20. A gas turbine engine, comprising: a compressor section;a combustor section in fluid communication with the compressor section;a turbine section in fluid communication with the combustor section, the turbine section including an engine component defining an internal cavity in fluid communication with a source of cooling air; anda baffle disposed within the internal cavity, the baffle including at least four longitudinal sidewalls that include at least two first sidewalls, one of which is upstream and one of which is downstream, and at least two second sidewalls, at least one of which faces towards a core flow path of the gas turbine engine, the baffle including a plurality of openings for directing cooling air from within the baffle into the cavity, wherein a majority of the openings are on the two first sidewalls;wherein the engine component is a blade outer air seal adjacent to an airfoil;wherein the two first sidewalls face towards a leading edge side and a trailing edge side, respectively, of the airfoil; andwherein a first one of the second sidewalls faces towards the core flow path, and a second one of the second sidewalls faces away from the core flow path. 21. The gas turbine engine of claim 20, comprising an opening in the second one of the second sidewalls, the opening fluidly connecting the source of cooling air to the internal cavity. 22. The gas turbine engine of claim 20, wherein the first sidewalls and second sidewalls extend between opposing open ends of the baffle. 23. An engine component for a gas turbine engine comprising: an airfoil comprising a plurality of cavities separated by cavity walls, including a second cavity disposed between first and third cavities, wherein the plurality of cavities are in fluid communication with each other through a plurality of openings in the cavity walls, and the second cavity is in fluid communication with a source of cooling air;a baffle disposed within the second cavity, the baffle including at least four longitudinal sidewalls that include at least two first sidewalls, one of which is upstream and one of which is downstream, and two second sidewalls that face towards a core flow path of the gas turbine engine, the baffle including a plurality of baffle openings for directing cooling air from within the baffle into the second cavity, including a plurality of openings in the upstream first sidewall, wherein a majority of the baffle openings are on at least one of the first sidewalls; anda plurality of dividers within the second cavity that define a plurality of channels in the second cavity that extend between the first and third cavities and directing cooling air that exits the upstream first sidewall towards the downstream first sidewall.
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이 특허에 인용된 특허 (17)
Hovan Edward John (Manchester CT), Air cooled turbine vane.
Correia Victor H. (Scotia NY) Brown Theresa A. (Ballston Lake NY) Chiu R. Paul (Scotia NY), Impingement cooling and cooling medium retrieval system for turbine shrouds and methods of operation.
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