An optical fiber sensor for simultaneous measurement of flow rate and temperature in the pipeline

•Simultaneous measurement of flow rate and temperature in a relatively high precision.•High flow rate sensitivity without causing a large pressure drop.•Special occasions application for the intrinsically safe. An optical fiber sensor was proposed and studied for the simultaneous measurement of flow...

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Bibliographic Details
Published in:Optical fiber technology 2018-11, Vol.45, p.313-318
Main Authors: Lv, Ri-qing, Zheng, Hong-kun, Zhao, Yong, Gu, Ya-fei
Format: Article
Language:English
Subjects:
Flow rate
Optical fiber sensor
Pipeline
Temperature
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Summary:•Simultaneous measurement of flow rate and temperature in a relatively high precision.•High flow rate sensitivity without causing a large pressure drop.•Special occasions application for the intrinsically safe. An optical fiber sensor was proposed and studied for the simultaneous measurement of flow rate and temperature. It includes a capillary steel tube, an adjustable target and two fiber Bragg gratings (FBGs). The two fiber Bragg gratings were fixed in the tube by glue, and they could be protected well. One end of the tube was assembled in the protective shell, the other end was connected to a target. Flow rate and temperature would both cause the wavelength shifts of FBGs. Without causing a large adjustment, the flow sensitivity of the proposed sensor could be adjusted by only assembling a properly designed target. On the basis of simulation, the proposed sensor was fabricated and realized the simultaneous measurement of flow rate and temperature, which was verified by experiments. Due to the limitation of experiment system, the flow rate accuracy was up to 2.27% in the range of 5–16 m3/h, and the temperature accuracy was under ±1 °C in the range of 23–83 °C. With advantages of compact size, high sensitivity, wide measurement range and small pressure loss, it has a great potential application in many areas.
ISSN:1068-5200
1095-9912
DOI:10.1016/j.yofte.2018.08.003