High-precision large-range optical fiber interferometric piezometer and its wideband interferometry for water pressure measurement
A high-precision large-range fiber-optic interferometric piezometer is designed, packaged, and demonstrated for pore water pressure measurement. The piezometer is an optical fiber extrinsic Fabry-Perot interferometer (EFPI), which comprises a fiber ferrule connector/flat contact (FC/FC) connector an...
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sg-ntu-dr.10356-1637822022-12-16T07:14:22Z High-precision large-range optical fiber interferometric piezometer and its wideband interferometry for water pressure measurement Wang, Shun Yang, Yaowen Cao, Jiyin Zhang, Liang Mohanty, Lipi Jin, Rui-Bo Li, Kaiwei School of Civil and Environmental Engineering Engineering::Civil engineering Optical Interferometry Wavelength Measurement A high-precision large-range fiber-optic interferometric piezometer is designed, packaged, and demonstrated for pore water pressure measurement. The piezometer is an optical fiber extrinsic Fabry-Perot interferometer (EFPI), which comprises a fiber ferrule connector/flat contact (FC/FC) connector and an aluminum foil pasted on a thin metal plate. The EFPI forms a sealed chamber with only the outer plane of the aluminum alloy plate being subjected to the water pressure through another hydraulic chamber with a standard filter stone. The deformation of the metal plate is analyzed and simulated for parameter optimization by using the small deflection theory. By adopting the conventional wavelength tracking method, the theoretical simulation and experimental results show a high measurement accuracy of the cm level but a limited measurement range. To resolve the problem, several wideband interferometry (WBI) methods, including free spectral range (FSR)-based, spatial frequency, interference order, and fitted FSR, are employed to analyze the spectrum of the EFPI for comparison. The fitted FSR method has demonstrated its superiority in applications that require simultaneous high resolution and large measurement range. A gas pressure test verifies that the proposed piezometer can work in a wide range of up to 0.5 MPa that is equivalent to a water depth of 50 m. In addition, the proposed piezometer offers several advantages, such as cost-effectiveness, robustness, repeatability, and stability, which further benefits its practical application. This work was supported by the National Natural Science Foundation of China under Grant 12104350. 2022-12-16T07:14:22Z 2022-12-16T07:14:22Z 2022 Journal Article Wang, S., Yang, Y., Cao, J., Zhang, L., Mohanty, L., Jin, R. & Li, K. (2022). High-precision large-range optical fiber interferometric piezometer and its wideband interferometry for water pressure measurement. IEEE Transactions On Instrumentation and Measurement, 71, 7001613-. https://dx.doi.org/10.1109/TIM.2021.3139699 0018-9456 https://hdl.handle.net/10356/163782 10.1109/TIM.2021.3139699 2-s2.0-85122596490 71 7001613 en IEEE Transactions on Instrumentation and Measurement © 2022 IEEE. All rights reserved. |
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Engineering::Civil engineering Optical Interferometry Wavelength Measurement Wang, Shun Yang, Yaowen Cao, Jiyin Zhang, Liang Mohanty, Lipi Jin, Rui-Bo Li, Kaiwei High-precision large-range optical fiber interferometric piezometer and its wideband interferometry for water pressure measurement |
| description |
A high-precision large-range fiber-optic interferometric piezometer is designed, packaged, and demonstrated for pore water pressure measurement. The piezometer is an optical fiber extrinsic Fabry-Perot interferometer (EFPI), which comprises a fiber ferrule connector/flat contact (FC/FC) connector and an aluminum foil pasted on a thin metal plate. The EFPI forms a sealed chamber with only the outer plane of the aluminum alloy plate being subjected to the water pressure through another hydraulic chamber with a standard filter stone. The deformation of the metal plate is analyzed and simulated for parameter optimization by using the small deflection theory. By adopting the conventional wavelength tracking method, the theoretical simulation and experimental results show a high measurement accuracy of the cm level but a limited measurement range. To resolve the problem, several wideband interferometry (WBI) methods, including free spectral range (FSR)-based, spatial frequency, interference order, and fitted FSR, are employed to analyze the spectrum of the EFPI for comparison. The fitted FSR method has demonstrated its superiority in applications that require simultaneous high resolution and large measurement range. A gas pressure test verifies that the proposed piezometer can work in a wide range of up to 0.5 MPa that is equivalent to a water depth of 50 m. In addition, the proposed piezometer offers several advantages, such as cost-effectiveness, robustness, repeatability, and stability, which further benefits its practical application. |
| author2 |
School of Civil and Environmental Engineering |
| author_facet |
School of Civil and Environmental Engineering Wang, Shun Yang, Yaowen Cao, Jiyin Zhang, Liang Mohanty, Lipi Jin, Rui-Bo Li, Kaiwei |
| format |
Article |
| author |
Wang, Shun Yang, Yaowen Cao, Jiyin Zhang, Liang Mohanty, Lipi Jin, Rui-Bo Li, Kaiwei |
| author_sort |
Wang, Shun |
| title |
High-precision large-range optical fiber interferometric piezometer and its wideband interferometry for water pressure measurement |
| title_short |
High-precision large-range optical fiber interferometric piezometer and its wideband interferometry for water pressure measurement |
| title_full |
High-precision large-range optical fiber interferometric piezometer and its wideband interferometry for water pressure measurement |
| title_fullStr |
High-precision large-range optical fiber interferometric piezometer and its wideband interferometry for water pressure measurement |
| title_full_unstemmed |
High-precision large-range optical fiber interferometric piezometer and its wideband interferometry for water pressure measurement |
| title_sort |
high-precision large-range optical fiber interferometric piezometer and its wideband interferometry for water pressure measurement |
| publishDate |
2022 |
| url |
https://hdl.handle.net/10356/163782 |
| _version_ |
1753801181237346304 |