Distributed High Temperature Sensing in Large-Scale Plants by LPFG with Multiplexed Resonant Wavelengths

Osanori Koyama; Saburo Kasahara; Hikaru Sumiana; Yoshikazu Toyooka; Yutaka Katsuyama

doi:10.1364/OECC_PS.2013.TuPS_15

2013 18th OptoElectronics and Communications Conference held jointly with 2013 International Conference on Photonics in Switching
(Optica Publishing Group, 2013),
paper TuPS_15
•https://doi.org/10.1364/OECC_PS.2013.TuPS_15

Distributed High Temperature Sensing in Large-Scale Plants by LPFG with Multiplexed Resonant Wavelengths

Osanori Koyama, Saburo Kasahara, Hikaru Sumiana, Yoshikazu Toyooka, and Yutaka Katsuyama

OptoElectronics and Communications Conference and Photonics in Switching 2013

Kyoto Japan
30 June–4 July 2013
ISBN: 978-4-88552-271-0

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O. Koyama, S. Kasahara, H. Sumiana, Y. Toyooka, and Y. Katsuyama, "Distributed High Temperature Sensing in Large-Scale Plants by LPFG with Multiplexed Resonant Wavelengths," in 2013 18th OptoElectronics and Communications Conference held jointly with 2013 International Conference on Photonics in Switching, (Optica Publishing Group, 2013), paper TuPS_15.

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Abstract

Ten resonant wavelengths could be multiplexed successfully by writing long-period gratings (LPGs) with different pitches. A preliminary distributed temperature monitoring experiment was conducted, and it was estimated that separation between 2 adjacent resonant peaks was 13.2 nm apart, even when the temperature difference between 2 adjacent LPGs was 150°C. The results clarified that this multiplexing approach enables the LPFG to detect a local high temperature caused by an abnormal reaction inside in a large-scale plant.

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