A monitoring system for a gas turbine or other elevated temperature environment is provided. The system has one or more photonic crystal fibers for capturing and transmitting light to an imaging camera for generation of an image. The photonic crystal fibers can be formed from a sapphire cladding. Th
A monitoring system for a gas turbine or other elevated temperature environment is provided. The system has one or more photonic crystal fibers for capturing and transmitting light to an imaging camera for generation of an image. The photonic crystal fibers can be formed from a sapphire cladding. The photonic crystal fibers can be band gap fibers. The photonic crystal fibers can be arranged in a bundle, including an array or a linear bundle.
대표청구항▼
I claim: 1. A system for monitoring an area of interest in a gas turbine, the system comprising: at least one photonic crystal fiber having an imaging end and a processing end, the at least one photonic crystal fiber comprising a sapphire cladding and defining a hollow core; an imaging camera opera
I claim: 1. A system for monitoring an area of interest in a gas turbine, the system comprising: at least one photonic crystal fiber having an imaging end and a processing end, the at least one photonic crystal fiber comprising a sapphire cladding and defining a hollow core; an imaging camera operably connected to the processing end of the at least one photonic crystal fiber; and an imaging processor operably connected to the imaging camera, wherein the imaging end of the at least one photonic crystal fiber captures light in the area of interest and guides the light to the imaging camera, and wherein the imaging processor generates an image based on the light. 2. The system of claim 1, wherein the at least one photonic crystal fiber is a plurality of photonic crystal fibers arranged in a bundle. 3. The system of claim 2, wherein the bundle is arranged linearly or in an array. 4. The system of claim 1, wherein the light has a wavelength between 3 to 12 μm. 5. The system of claim 1, wherein the at least one photonic crystal fiber is chosen from the group consisting essentially of a photonic crystal band gap fiber, photonic crystal holey fibers, photonic crystal hole-assisted fibers, photonic crystal Bragg fibers, and combinations thereof. 6. The system of claim 1, wherein the sapphire cladding comprises a lattice of sapphire capillaries having a period of 5 μm. 7. The system of claim 6, wherein the hollow core has a diameter of 13 μm. 8. The system of claim 7, wherein the at least one photonic crystal fiber has a protective coating thereon. 9. The system of claim 1, wherein the imaging camera is a focal plane array imager. 10. A monitoring system for an environment having an elevated temperature, the system comprising: a bundle of photonic crystal fibers having an imaging end and a processing end, each of the photonic crystal fibers having a cladding comprising a lattice of sapphire capillaries; an imaging camera operably connected to the processing end of the bundle of photonic crystal fibers; and an imaging processor operably connected to the imaging camera, wherein the lattice of sapphire capillaries have a microstructure that allows the photonic crystal fibers to capture light with a wavelength of between 3 to 12 μm, wherein the photonic crystal fibers guide the light to the imaging camera, and wherein the imaging processor generates an image based on the light. 11. The monitoring system of claim 10, wherein the lattice of sapphire capillaries define a hollow core of the photonic crystal fibers. 12. The monitoring system of claim 10, wherein the photonic crystal fibers have a protective coating thereon. 13. The monitoring system of claim 10, wherein the imaging camera is a focal plane array imager. 14. A method of monitoring a gas turbine comprising: providing at least one photonic crystal fiber having a hollow core, an imaging end and a processing end; positioning the imaging end in proximity to an area of interest of the gas turbine; operably connecting the processing end to an imaging camera; capturing light with the imaging end; guiding the light through the at least one photonic crystal fiber to the imaging camera; and converting the light into an image with an image processor, further comprising forming the at least one photonic crystal fiber from a sapphire cladding. 15. The method of claim 14, further comprising forming the at least one photonic crystal fiber from a microstructure lattice of sapphire capillaries, wherein the microstructure lattice has a period that allows for capturing of the light with a wavelength of between 3 to 12 μm. 16. The method of claim 14 wherein the sapphire cladding comprises a lattice of sapphire capillaries having a period of 5 μm and a hollow core with a diameter of 13 μm. 17. The method of claim 14, wherein the at least one photonic crystal fiber is a plurality of photonic crystal fibers arranged in a bundle. 18. The method of claim 17, wherein the bundle is arranged in an array or linearly. 19. The method of claim 14, wherein the at least one photonic crystal fiber is chosen from the group consisting essentially of a photonic crystal band gap fiber, photonic crystal holey fibers, photonic crystal hole-assisted fibers, photonic crystal Bragg fibers and combinations thereof.
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