scholarly journals Enhancement of Distributed Temperature Sensitivity Using Al-Coated Fiber in OFDR

2018 ◽  
Author(s):  
Yong-seok Kwon ◽  
Khurram Naeem ◽  
Min Yong Jeon ◽  
Il-Bum Kwon
Keyword(s):  
Temperature Sensitivity ◽  
Single Mode ◽  
Single Mode Fiber ◽  
Coated Fiber ◽  
Rayleigh Backscattering ◽  
Enhanced Sensitivity ◽  
Optical Frequency Domain Reflectometry ◽  
Frequency Domain Reflectometry ◽  
Distributed Measurement ◽  
Distributed Optical Fiber

We present a distributed optical-fiber temperature sensor with enhanced sensitivity based on an Al-coated fiber using the Rayleigh backscattering spectra (RBS) shift in optical frequency-domain reflectometry (OFDR). The Al-coated sensing fiber with a higher thermal expansion coefficient compared to silica produces a strain-coupled shift in the RBS under an increase in temperature. This effect leads to an enhanced temperature sensitivity of the distributed measurement scheme. Our results revealed that the temperature sensitivity obtained using the Al-coated fiber in OFDR was ~56% higher relative to that of a single-mode fiber. Moreover, the minimum measurable temperature recorded was 1 °C with a spatial resolution of 5 cm.

scholarly journals Transformer Winding Deformation Detection Based on BOTDR and ROTDR

Sensors ◽  
2020 ◽  
Vol 20 (7) ◽  
pp. 2062 ◽  
Author(s):  
Shuguo Gao ◽  
Yunpeng Liu ◽  
Huan Li ◽  
Lu Sun ◽  
Hongliang Liu ◽  
...  
Keyword(s):  
Time Domain ◽  
Measurement Accuracy ◽  
Single Mode ◽  
Single Mode Fiber ◽  
Test Results ◽  
Transformer Winding ◽  
Winding Deformation ◽  
Distributed Measurement ◽  
Optical Time ◽  
Distributed Optical Fiber

In order to realize distributed measurement of transformer winding temperature and deformation, a transformer winding modification scheme with a built-in distributed optical fiber was designed. By laying a single-mode fiber and a multi-mode fiber on the transformer winding, the Brillouin optical time domain reflection technique (BOTDR) and the Raman optical time domain reflection technique (ROTDR) are used to measure the strain and temperature of the winding to complete the more accurate winding deformation detection. The accuracy of strain and temperature sensing of this scheme was verified by simulation. Then, according to the scheme, a winding model was actually wound, and the deformation and temperature rise tests were carried out. The test results show that this scheme can not only realize the deformation detection and positioning of the winding, but can also realize the measurement of the winding temperature; the temperature measurement accuracy reached ±0.5 °C, the strain measurement accuracy was 200 με, and spatial resolution was up to 5 m. In this experiment, the deformation location with the precision of 2 turns was realized on the experimental winding.

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