Dynamic fiber temperature sensing package and method of assembling the same
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
F01D-017/02
G01K-001/14
G01K-011/32
G01K-013/02
출원번호
US-0489129
(2012-06-05)
등록번호
US-9207128
(2015-12-08)
발명자
/ 주소
McCarthy, Kevin
Xia, Hua
Wu, Juntao
Busboom, Axel
Finucane, Thomas
출원인 / 주소
General Electric Company
대리인 / 주소
Agosti, Ann M.
인용정보
피인용 횟수 :
1인용 특허 :
13
초록▼
A dynamic fiber temperature sensing package is provided herein. The sensing package includes a support structure, a holder coupled to the support structure, a sheath coupled to the support structure via the holder, and a fiber optic temperature sensor positioned within the sheath. The holder include
A dynamic fiber temperature sensing package is provided herein. The sensing package includes a support structure, a holder coupled to the support structure, a sheath coupled to the support structure via the holder, and a fiber optic temperature sensor positioned within the sheath. The holder includes a material having a first thermal conductivity and the sheath includes a material having a second thermal conductivity, wherein the second thermal conductivity is greater than the first thermal conductivity.
대표청구항▼
1. A dynamic fiber temperature sensing package comprising: a support structure comprising an exhaust temperature rake;a holder coupled to said support structure, said holder including a material having a first thermal conductivity;a sheath coupled to the support structure via the holder, said sheath
1. A dynamic fiber temperature sensing package comprising: a support structure comprising an exhaust temperature rake;a holder coupled to said support structure, said holder including a material having a first thermal conductivity;a sheath coupled to the support structure via the holder, said sheath including a material having a second thermal conductivity that is greater than the first thermal conductivity; anda fiber optic temperature sensor positioned within said sheath,wherein the first thermal conductivity of said holder facilitates preventing conductive heat transfer between said support structure and said fiber optic temperature sensor. 2. The package in accordance with claim 1 further comprising a plurality of fiber optic temperature sensors, wherein each fiber optic temperature sensor is positioned within said sheath and spaced at about one inch to about two inch intervals from each other along a length of said sheath. 3. The package in accordance with claim 2, wherein the sensing package comprises a plurality of holders, each holder extending only partially along a length of said sheath such that said sheath includes a covered portion and an exposed portion. 4. The package in accordance with claim 3, wherein said plurality of fiber optic temperature sensors are aligned with the exposed portions of said sheath. 5. The package in accordance with claim 1, wherein said sheath is constructed of a first material comprising at least one of a copper material, an aluminum material, a gold material, a silver material, a platinum material, a stainless steel material, a quartz material, a nickel-based alloy material, and combinations thereof. 6. The package in accordance with claim 1, wherein said holder is constructed of a second material comprising at least one of a stainless steel material, a quartz material, a nickel-based alloy material, and combinations thereof. 7. The package in accordance with claim 1, wherein said holder comprises a tube, wherein said sheath is inserted through said tube. 8. A turbine assembly comprising: a turbine including an exhaust flow path and a shell;a support structure extending substantially into the exhaust flow path;a holder coupled to said support structure, said holder including a material having a first thermal conductivity;a sheath coupled to the support structure via the holder, said sheath including a material having a second thermal conductivity that is greater than the first thermal conductivity; anda fiber optic temperature sensor positioned within said sheath for sensing a temperature of the exhaust flow path,wherein the first thermal conductivity of said holder facilitates preventing conductive heat transfer between said support structure and said fiber optic temperature sensor during operation. 9. The turbine assembly in accordance with claim 8, wherein said fiber optic temperature sensor facilitates determining a radial temperature profile of the flow path by extending substantially radially from the shell to an inner hub. 10. The turbine assembly in accordance with claim 8, wherein the turbine assembly comprises a plurality of fiber optic temperature sensors, each fiber optic temperature sensor positioned at different radial positions within the flow path. 11. The turbine assembly in accordance with claim 8, wherein the second thermal conductivity of said sheath facilitates enabling said fiber optic temperature sensor to have a thermal response rate that is higher than approximately 10° F./second. 12. The turbine assembly in accordance with claim 11, wherein the thermal response rate of said fiber optic temperature sensor is between about 19° F./second to about 350° F./second. 13. The turbine assembly in accordance with claim 8, wherein said fiber optic temperature sensor is sealed within said sheath to protect said fiber optic temperature sensor from a drag force induced by fluid that flows through the turbine assembly. 14. The turbine assembly in accordance with claim 8, wherein said support structure comprises an exhaust temperature rake extending substantially perpendicular with respect to the exhaust flow path. 15. The turbine assembly in accordance with claim 8, wherein the holder extends only partially along a length of the sheath such that the sheath includes a first portion covered by the holder and a second adjacent portion not covered by the holder. 16. The turbine assembly in accordance with claim 15, wherein said fiber optic temperature sensor is aligned with the second adjacent portion of the sheath not covered by the holder. 17. The turbine assembly in accordance with claim 8, wherein said holder further comprises a plurality of holders coupled to the support structure such that each holder is spaced along a length of the sheath.
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이 특허에 인용된 특허 (13)
Allen James M. (Cupertino CA), Apparatus for measuring rotor exhaust gas bulk temperature in a combustion turbine and method therefor.
Willsch, Michael; Bosselmann, Thomas; Sanjana, Zal; Theune, Nils, Method and apparatus of monitoring temperature and strain by using fiber Bragg grating (FBG) sensors.
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