Shroud treatment for a centrifugal compressor
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
F04D-029/44
F04D-029/42
F04D-029/68
F04D-017/10
F04D-023/00
출원번호
US-0164494
(2014-01-27)
등록번호
US-9644639
(2017-05-09)
발명자
/ 주소
Duong, Hien
Kandasamy, Vijay
출원인 / 주소
PRATT & WHITNEY CANADA CORP.
대리인 / 주소
Norton Rose Fulbright Canada LLP
인용정보
피인용 횟수 :
0인용 특허 :
11
초록▼
The centrifugal compressor described includes an impeller shroud which encloses the impeller and has a curved shroud surface that extends between an inducer portion and an exducer portion. The compressor includes one or more circumferential grooves in the shroud body within the exducer portion. Each
The centrifugal compressor described includes an impeller shroud which encloses the impeller and has a curved shroud surface that extends between an inducer portion and an exducer portion. The compressor includes one or more circumferential grooves in the shroud body within the exducer portion. Each groove has opposed wall segments spaced apart therefrom. The wall segments are inclined at a nonzero groove angle relative to a normal of the shroud surface in a direction opposite the fluid flow path along the shroud surface.
대표청구항▼
1. A centrifugal compressor, comprising: an impeller mounted to a shaft and rotatable about a shaft axis, the impeller having a plurality of impeller vanes; andan impeller shroud enclosing the impeller, the impeller shroud having a shroud surface having inducer and exducer portions, the shroud surfa
1. A centrifugal compressor, comprising: an impeller mounted to a shaft and rotatable about a shaft axis, the impeller having a plurality of impeller vanes; andan impeller shroud enclosing the impeller, the impeller shroud having a shroud surface having inducer and exducer portions, the shroud surface surrounding and radially spaced apart from the impeller vanes to define a fluid flow path between the shroud surface and the impeller vanes,at least one groove defined by opposed wall segments which extend into the shroud surface within the exducer portion, the wall segments inclined at a nonzero angle relative to a normal of the shroud surface at the at least one groove in a direction opposite to the fluid flow path along the shroud surface, the opposed wall segments being linked by a groove bottom segment. 2. The centrifugal compressor as defined in claim 1, wherein the nonzero angle of the wall segments is the same. 3. The centrifugal compressor as defined in claim 1, wherein the at least one groove is circumferentially discontinuous. 4. The centrifugal compressor as defined in claim 3, wherein the circumferentially discontinuous groove comprises one or more groove partitions, each groove partition occupying a width and a depth of the at least one groove by extending from the shroud surface to a groove bottom segment, each groove partition being adapted to block a flow of the compressible fluid in the at least one groove from one side of said groove partition to another, the groove partitions dividing the at least one groove into a plurality of groove slots. 5. The centrifugal compressor as defined in claim 4, wherein at least one of the groove partition comprises a flow exit ramp disposed at a circumferential end of the groove partition, the flow exit ramp extending across the width of the groove and extending at an incline along the depth of the groove. 6. The centrifugal compressor as defined in claim 5, wherein the flow exit ramp has a curved profile extending from the groove bottom segment and arriving flush with the shroud surface. 7. The centrifugal compressor as defined in claim 5, wherein each of the groove partitions includes said flow exit ramp on each of two opposed ends thereof. 8. The centrifugal compressor as defined in claim 1, wherein the at least one groove comprises a first groove and a second groove spaced apart from the first groove in a direction of the fluid flow path. 9. The centrifugal compressor as defined in claim 8, wherein the first and second grooves form substantially concentric rings in the shroud surface. 10. The centrifugal compressor as defined in claim 1, wherein the at least one groove comprises a maximum of six grooves. 11. The centrifugal compressor as defined in claim 1, wherein the groove bottom segment is substantially curvilinear. 12. The centrifugal compressor as defined in claim 1, wherein the groove bottom segment is substantially planar. 13. The centrifugal compressor as defined in claim 1, wherein the nonzero angle is 45°. 14. The centrifugal compressor as defined in claim 1, wherein the at least one groove extends circumferentially about the entire shroud surface. 15. A method of improving aerodynamic performance of a centrifugal compressor by reducing flow blockage of a compressible fluid at an exit of an impeller of the centrifugal compressor, the compressor having an impeller shroud enclosing the impeller so as to define a fluid flow path between a curved shroud surface and the impeller, the fluid flow path extending between an inducer portion and an exducer portion of the shroud surface, the method comprising: conveying the compressible fluid substantially parallel to the shaft axis along the fluid flow path through the inducer portion of the centrifugal compressor;conveying the compressible fluid radially away from the shaft axis along the fluid flow path through the exducer portion; andrecirculating the compressible fluid between the fluid flow path and at least one circumferential groove extending into a body of the shroud surface within the exducer portion, the at least one groove defined by opposed wall segments which extend into the shroud surface, the wall segments inclined at a nonzero angle relative to a normal of the shroud surface in a direction opposite to the fluid flow path along the shroud surface, the opposed wall segments being linked by a groove bottom segment. 16. The method as defined in claim 15, further comprising preventing the compressible fluid from circulating throughout the at least one groove. 17. The method as defined in claim 15, wherein recirculating the compressible fluid comprises injecting the compressible fluid into the at least one groove. 18. The method as defined in claim 17, wherein recirculating the compressible fluid further comprises reversing a direction of the injected compressible fluid and ejecting the compressible fluid from within the at least one groove. 19. The method as defined in claim 18, wherein ejecting the compressible fluid comprises ejecting the compressible fluid in a direction substantially parallel to the direction of the fluid flow path.
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