Turbine component instrumented to provide thermal measurements
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
G01K-007/02
G01J-005/00
출원번호
US-0015822
(2011-01-28)
등록번호
US-8662746
(2014-03-04)
발명자
/ 주소
Subramanian, Ramesh
Kulkarni, Anand A.
Jonnalagadda, Vinay
Mitchell, David J.
출원인 / 주소
Siemens, Energy Inc.
인용정보
피인용 횟수 :
0인용 특허 :
22
초록▼
A gas turbine component (49) may be instrumented to provide a plurality of signals indicative of thermal measurements in a high temperature combustion environment of the gas turbine. A thermocouple arrangement may include a first thermocouple leg (50) disposed within a thickness of the component. At
A gas turbine component (49) may be instrumented to provide a plurality of signals indicative of thermal measurements in a high temperature combustion environment of the gas turbine. A thermocouple arrangement may include a first thermocouple leg (50) disposed within a thickness of the component. At least two or more thermocouple legs (52, 53, 54) is each electrically connected to the first leg to form individual thermocouple junctions (56, 57, 58, 59) along the first leg for conversion of respective thermal gradients to respective electrical signals, such as electromotive force (emf) based voltages. The thermocouple arrangement may be used in combination with a thermographic system (70) to calculate heat flux over a region of the turbine component.
대표청구항▼
1. A gas turbine component instrumented to provide a plurality of signals indicative of thermal measurements in a high temperature combustion environment of the gas turbine comprising: a substrate;a thermal barrier coating (TBC) deposited over at least a portion of the substrate;a thermal imager hav
1. A gas turbine component instrumented to provide a plurality of signals indicative of thermal measurements in a high temperature combustion environment of the gas turbine comprising: a substrate;a thermal barrier coating (TBC) deposited over at least a portion of the substrate;a thermal imager having a field of view configured to sense infrared (IR) emissions from the turbine component, wherein an emissivity of a surface of the component being mapped is subject to variation in the combustion environment of the turbine;at least one patch of a material having a sufficiently stable and known emissivity value to derive a temperature value when within the field of view of the thermal imager, said at least one patch disposed on an outer surface of the TBC;a first thermocouple leg disposed within a thickness of the component, wherein the first leg comprises a first material;at least two or more thermocouple legs comprising a different material relative to the first material, wherein said at least two or more legs is each electrically connected to the first leg to form individual thermocouple junctions along the first leg for conversion of respective thermal gradients to respective electrical signals, wherein the individual thermocouple junctions along the first leg of the component collectively span a region of the component; anda processor configured to process data indicative of the electrical signals from the thermocouple junctions relative to the temperature value of said at least one patch to calculate heat flux over the region of the component between the outer surface of the TBC and the thickness of the component. 2. The turbine component of claim 1, wherein the processor is further configured to generate a radiance map of the component based on the infrared (IR) emissions from the turbine component, the processor including a thermal calibration module configured to calibrate the radiance map based on the temperature value of said at least one patch to generate a calibrated thermal map that provides absolute temperature over the outer surface of the TBC. 3. The turbine component of claim 1, wherein said first material comprises platinum. 4. The turbine component of claim 1, wherein said different material in at least one of said at least two or more legs is selected from the group consisting of palladium, rhodium and iridium. 5. The turbine component of claim 1, wherein said different material in at least one of said at least two or more legs is selected from the group consisting of CuAlO2, In2O3—SnO2, In2O3—SnO2 doped with ZnO, Ga2O3, CdIn2O4, Cd2SnO4, and ZnO. 6. The turbine component of claim 1, wherein the material of said at least one patch is selected from the group consisting of platinum, chromium oxide, and cobalt nickel oxide. 7. The turbine component of claim 1, wherein each thermocouple leg comprises a thin-film thermocouple leg and has a thickness in a range from 25 microns to 150 microns. 8. The turbine component of claim 1, wherein each thermocouple leg comprises a thin-film thermocouple leg and has a thickness in a range from 50 microns to 100 microns. 9. The turbine component of claim 1, wherein the thermocouple legs are disposed at a boundary between the substrate and a bond coat. 10. The turbine component of claim 1, wherein the thermocouple legs are disposed at a boundary between a bond coat and the TBC. 11. The turbine component of claim 1, wherein the thermocouple legs are disposed within the TBC. 12. A gas turbine component instrumented to provide a plurality of signals indicative of thermal measurements in a high temperature combustion environment of the gas turbine comprising: a first thin-film thermocouple leg disposed within a thickness of the component, wherein the first leg comprises a first material; andat least two or more thin-film thermocouple legs comprising a different material relative to the first material, said at least two or more electrically conductive thin-film legs disposed within the thickness of the component, wherein said at least two or more legs is each electrically connected to the first leg to form individual thermocouple junctions along the first leg for conversion of respective thermal gradients to respective electrical signals, wherein the individual thermocouple junctions along the first leg collectively span a region of the component,wherein the component comprises a substrate and a thermal barrier coating (TBC) deposited over at least a portion of the substrate, wherein the TBC comprises an outer surface comprising at least one patch of a material having a sufficiently stable and known emissivity value to derive a temperature value when within a field of view of a thermal imager,wherein data indicative of the electrical signals from the thermocouple junctions are processed in a processor relative to the temperature value of the patch to calculate heat flux over the region of the component between the outer surface of the TBC and said thickness of the component. 13. The turbine component of claim 12, wherein said first material comprises platinum. 14. The turbine component of claim 12, wherein said different material in at least one of said at least two or more legs is selected from the group consisting of palladium, rhodium and iridium. 15. The turbine component of claim 12, wherein said different material in at least one of said at least two or more legs is selected from the group consisting of CuAlO2, In2O3—SnO2, In2O3—SnO2 doped with ZnO, Ga2O3, CdIn2O4, Cd2SnO4, and ZnO. 16. The turbine component of claim 12, wherein the material of said at least one patch is selected from the group consisting of platinum, chromium oxide, and cobalt nickel oxide. 17. The turbine component of claim 12, wherein each thermocouple leg has a thickness in a range from 25 microns to 150 microns. 18. The turbine component of claim 12, wherein each thermocouple leg has a thickness in a range from 50 microns to 100 microns.
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