Blade cooling circuit feed duct, exhaust duct, and related cooling structure
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
F01D-005/18
F01D-009/06
F01D-025/12
출원번호
US-0271823
(2014-05-07)
등록번호
US-9771816
(2017-09-26)
발명자
/ 주소
Weber, David Wayne
출원인 / 주소
General Electric Company
대리인 / 주소
Cusick, Ernest G.
인용정보
피인용 횟수 :
0인용 특허 :
34
초록▼
A blade cooling circuit feed and exhaust duct and related cooling structure are provided. The feed duct may include a feed chamber having a feed entrance fluidly coupled to a cooling fluid source and a feed exit to an elongate entrance to the cooling circuit, the feed exit including a ramped wall ma
A blade cooling circuit feed and exhaust duct and related cooling structure are provided. The feed duct may include a feed chamber having a feed entrance fluidly coupled to a cooling fluid source and a feed exit to an elongate entrance to the cooling circuit, the feed exit including a ramped wall maintaining a flow velocity of the cooling fluid along the elongated entrance to the cooling circuit. The exhaust duct may include a substantially concave exhaust chamber including an exhaust entrance at a wider end of the exhaust chamber and in fluid communication with an elongated exit from the cooling circuit, and an exhaust exit at a narrower end of the exhaust chamber, the exhaust exit including an opening to an exhaust passageway from the exhaust chamber.
대표청구항▼
1. A cooling fluid feed duct for a cooling circuit of a blade, the cooling fluid feed duct comprising: a chamber including: an entrance fluidly coupled to a cooling fluid source; andan exit fluidly coupled to an elongated entrance to the cooling circuit,wherein the elongated entrance to the cooling
1. A cooling fluid feed duct for a cooling circuit of a blade, the cooling fluid feed duct comprising: a chamber including: an entrance fluidly coupled to a cooling fluid source; andan exit fluidly coupled to an elongated entrance to the cooling circuit,wherein the elongated entrance to the cooling circuit includes a plurality of flow path openings for directing the cooling fluid from the elongated entrance into the cooling circuit, wherein the plurality of flow path openings direct the cooling fluid into the cooling circuit along an axis substantially perpendicular to an axis of the chamber; andwherein the exit of the chamber includes a linear ramped wall for maintaining a flow velocity of the cooling fluid along the elongated entrance to the cooling circuit as the cooling fluid passes from the exit of the chamber into the cooling circuit through the plurality of flow path openings, wherein the ramped wall extends at least from a first end of the elongated entrance to a second end of the elongated entrance, and wherein a distance from the ramped wall to a far side of the elongated entrance decreases in a direction of flow of the cooling fluid along the elongated entrance through the exit of the chamber. 2. The cooling fluid feed duct of claim 1, wherein the entrance has a first cross-sectional area and the exit has a decreasing cross-sectional area from the entrance to an end of the exit. 3. The cooling fluid feed duct of claim 1, wherein the chamber includes a pair of opposing side walls and the ramped wall extends between the pair of opposing side walls. 4. The cooling fluid feed duct of claim 1, wherein the exit of the chamber directs the cooling fluid exiting therefrom through the plurality of flow path openings to substantially align with a substantially linear flow direction of the cooling fluid through the cooling circuit. 5. A cooling fluid exhaust duct for a cooling circuit of a blade, the cooling fluid exhaust duct comprising: a substantially concave chamber, including: an entrance at a wider end of the chamber and fluidly coupled with an elongated exit from the cooling circuit, the elongated exit from the cooling circuit including a plurality of flow paths for directing the cooling fluid from the elongated exit of the cooling circuit into the entrance at the wider end of the chamber; andan exit at a narrower end of the chamber, the exit including an opening to a single exhaust passageway from the substantially concave chamber, all of the cooling fluid passing out of the chamber through the single exhaust passageway;wherein the chamber includes a pair of opposing side walls and a pair of opposing ramped walls, the opposing ramped walls extending between the pair of opposing side walls from the entrance at the end wider end of the chamber to the narrower end of the chamber adjacent the opening to the single exhaust passageway, wherein the chamber has a decreasing cross-sectional area from the entrance at the wider end of the chamber to the exit at the narrower end of the chamber;wherein the plurality of flow paths flow into the entrance at the wider end of chamber along an axis substantially perpendicular to an axis of the chamber from the wider end of the chamber to the narrower end of the chamber and substantially parallel to the single exhaust passageway at the narrower end of the chamber. 6. The cooling fluid exhaust duct of claim 5, wherein the entrance of the chamber directs the cooling fluid entering thereto in substantial alignment with a substantially linear flow direction of the cooling fluid through the cooling circuit. 7. A cooling structure for a blade, the cooling structure comprising: a cooling circuit in a portion of the blade;a cooling fluid feed duct for the cooling circuit, the cooling fluid feed duct including a feed chamber having: a feed entrance fluidly coupled to a cooling fluid source; anda feed exit to an elongated entrance to the cooling circuit, wherein the elongated entrance to the cooling circuit includes a plurality of flow path openings for directing the cooling fluid from the elongated entrance into the cooling circuit, wherein the plurality of flow path openings direct the cooling fluid into the cooling circuit along an axis substantially perpendicular to an axis of flow of the cooling fluid through the feed chamber, and wherein the feed exit includes a linear ramped wall for maintaining a flow velocity of the cooling fluid along the elongated entrance to the cooling circuit as the cooling fluid passes from the exit of the chamber into the cooling circuit through the plurality of flow path openings, wherein the ramped wall extends at least from a first end of the elongated entrance to a second end of the elongated entrance, wherein a distance from the ramped wall to a far side of the elongated entrance decreases in a direction of flow of the cooling fluid along the elongated entrance through the exit of the chamber; anda cooling fluid exhaust duct for the cooling circuit, the cooling fluid exhaust duct including a substantially concave exhaust chamber including an exhaust entrance at a wider end of the exhaust chamber and in fluid communication with an elongated exit from the cooling circuit, and an exhaust exit at a narrower end of the exhaust chamber, the exhaust exit including an opening to an exhaust passageway from the exhaust chamber. 8. The cooling structure of claim 7, wherein the feed chamber includes a pair of opposing side walls, the ramped wall extending between the pair of opposing side walls. 9. The cooling structure of claim 7, wherein the feed exit of the feed chamber directs the cooling fluid exiting therefrom through the plurality of flow path openings to substantially align with a substantially linear flow direction of the cooling fluid through the cooling circuit. 10. The cooling structure of claim 7, wherein the exhaust entrance has a first cross-sectional area and the exhaust exit has a decreasing cross-sectional area from the exhaust entrance to an end of the exhaust exit. 11. The cooling structure of claim 7, wherein the exhaust chamber extends along an axis substantially perpendicular to an axis of the cooling circuit. 12. The cooling structure of claim 7, wherein the exhaust chamber includes a pair of opposing side walls, and a pair of opposing ramped surfaces extending along the pair of opposing side walls. 13. The cooling structure of claim 7, wherein the exhaust entrance of the exhaust chamber directs the cooling fluid entering thereto in substantially alignment with a substantially linear flow direction of the cooling fluid through the cooling circuit.
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