Turbomachine including a mixing tube element having a vortex generator
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
F02C-001/00
F02G-003/00
F23R-003/28
출원번호
US-0898267
(2010-10-05)
등록번호
US-8925324
(2015-01-06)
발명자
/ 주소
Berry, Jonathan Dwight
Wu, Chunyang
Zuo, Baifang
출원인 / 주소
General Electric Company
대리인 / 주소
Cantor Colburn LLP
인용정보
피인용 횟수 :
0인용 특허 :
7
초록▼
A turbomachine includes a compressor section, a combustor operatively connected to the compressor section, an end cover mounted to the combustor, and an injection nozzle assembly operatively connected to the combustor. The injection nozzle assembly includes a plurality of mixing tube elements. Each
A turbomachine includes a compressor section, a combustor operatively connected to the compressor section, an end cover mounted to the combustor, and an injection nozzle assembly operatively connected to the combustor. The injection nozzle assembly includes a plurality of mixing tube elements. Each of the plurality of mixing tube elements includes a conduit having a first fluid inlet, a second fluid inlet arranged downstream from the first fluid inlet, a discharge end arranged downstream from the first and second fluid inlets, and a vortex generator arranged between the first and second fluid inlets. The vortex generator is configured and disposed to create multiple vortices within the conduit to mix first and second fluids passing through each of the plurality of mixing tube elements.
대표청구항▼
1. A turbomachine comprising: a compressor section;a combustor operatively connected to the compressor section;an end cover mounted to the combustor; andan injection nozzle assembly operatively connected to the combustor, the injection nozzle assembly including a plurality of mixing tube elements su
1. A turbomachine comprising: a compressor section;a combustor operatively connected to the compressor section;an end cover mounted to the combustor; andan injection nozzle assembly operatively connected to the combustor, the injection nozzle assembly including a plurality of mixing tube elements surrounded by a housing and further defining a first fluid plenum and a second fluid plenum, the second fluid plenum being distinct from and arranged downstream of the first fluid plenum, each of the plurality of mixing tube elements including a conduit having a first fluid inlet fluidically connected to the first fluid plenum, a second fluid inlet fluidically connected to the second fluid plenum and arranged downstream from the first fluid inlet, a discharge end arranged downstream from the first and second fluid inlets, and a vortex generator arranged between the first and second fluid inlets and fluidically connected to the first fluid plenum, the vortex generator being configured and disposed to create multiple vortices within the conduit to mix first and second fluids passing through each of the plurality of mixing tube elements. 2. The turbomachine according to claim 1, wherein the first fluid inlet includes a flow restriction. 3. The turbomachine according to claim 1, wherein the vortex generator comprises at least one opening formed in the conduit. 4. The turbomachine according to claim 3, wherein the at least one opening is an elongated slot. 5. The turbomachine according to claim 4, wherein the elongated slot includes curvilinear portions. 6. The turbomachine according to claim 3, wherein the at least one opening comprises an angular opening. 7. The turbomachine according to claim 6, wherein the angular opening is a triangular opening. 8. The turbomachine according to claim 3, wherein the at least one opening comprises multiple openings. 9. The turbomachine according to claim 3, wherein the at least one opening on one of the plurality of mixing tube elements is off-set from the at least one opening on adjacent ones of others of the plurality of mixing tube elements. 10. The turbomachine according to claim 1, wherein the multiple vortices include at least a first vortex and a second vortex that is distinct from the first vortex. 11. The turbomachine according to claim 10, wherein the first and second vortices counter-rotate. 12. A mixing tube element comprising: a conduit having a longitudinal axis, a first fluid inlet configured and disposed to direct a first fluid from a first fluid plenum in an axial direction relative to the longitudinal axis, a second fluid inlet arranged downstream from the first fluid inlet, the second fluid inlet being configured and disposed to direct a second fluid from a second fluid plenum distinct from the first fluid plenum in a transverse direction relative to the longitudinal axis, and a discharge end arranged downstream from the first and second fluid inlets; anda vortex generator arranged between the first and second fluid inlets, the vortex generator being configured and disposed to create multiple vortices within the conduit to mix first and second fluids passing through the mixing tube element. 13. The mixing tube element according to claim 12, wherein the first fluid inlet includes a flow restriction. 14. The mixing tube element according to claim 12, wherein the vortex generator comprises at least one opening formed in the conduit. 15. The mixing tube element according to claim 14, wherein the at least one opening is an elongated slot. 16. The mixing tube element according to claim 15, wherein the elongated slot is curvilinear. 17. The mixing tube element according to claim 14, wherein the at least one opening comprises an angular opening. 18. The mixing tube element according to claim 17, wherein the angular opening is a triangular opening. 19. The mixing tube element according to claim 14, wherein the at least one opening comprises multiple openings. 20. The mixing tube element according to claim 19, wherein one of the multiple openings is off-set from another of the multiple openings. 21. The mixing tube element according to claim 12, wherein the multiple vortices include at least a first vortex and a second vortex that is distinct from the first vortex. 22. The mixing tube element according to claim 21, wherein the first and second vortices counter-rotate. 23. A method of mixing first and second fluids in a turbomachine injection nozzle, the method comprising: passing a first fluid from a first fluid plenum into a first fluid inlet of a mixing tube element arranged in the injection nozzle assembly;guiding a second fluid from a second fluid plenum distinct from the first fluid plenum into a second fluid inlet of the mixing tube element, the second fluid inlet being arranged downstream of the first fluid inlet;introducing a portion of the first fluid into a vortex generator arranged between the first and second fluid inlets; andgenerating multiple vortices in the mixing tube element to mix the first and second fluids. 24. The method of claim 23, wherein introducing the portion of the first fluid into a vortex generator comprises passing the portion of the first fluid through at least one opening formed in the mixing tube element between the first and second fluid inlets. 25. The method of claim 23, wherein generating multiple vortices includes generating at least a first vortex and a second vortex that is distinct from the first vortex. 26. The method of claim 25, wherein generating the first and second vortices includes generating first and second counter-rotating vortices.
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