Application of fiber Bragg grating based strain sensor in pipeline vortex-induced vibration measurement

被引:0
|
作者
REN Liang [1 ]
JIA ZiGuang [1 ]
HO Michael Siu Chun [2 ]
YI TingHua [1 ]
LI HongNan [1 ]
机构
[1] School of Civil and Hydraulic Engineering, Dalian University of Technology
[2] Department of Mechanical Engineering, University of Houston
基金
中国国家自然科学基金;
关键词
vortex-induced vibration(VIV); fiber Bragg grating(FBG); fatigue test; pipeline experiment; vibration control equipment;
D O I
暂无
中图分类号
TP212.9 [传感器的应用]; TB535 [振动和噪声的控制及其利用];
学科分类号
080202 ; 083002 ; 120402 ;
摘要
The vortex-induced vibrations(VIV)is an important topic of study in many different scientific and engineering fields.While VIV can be of benefit in some cases,oftentimes,it is an undesirable phenomenon that can be quite dangerous.In particular for offshore pipelines,VIV can lead to fatiguing of the pipe structure and can cause disastrous consequences if left unchecked.A number of different methods have been applied to the measurement of VIV,especially for the elongated,thin cylindrical structures.The use of fiber optic fiber Bragg gratings(FBGs)in particular has gained popularity over the recent years due to their distinct properties.However,FBGs are also very fragile and are susceptible to failure when placed in harsh environments without protection.In this paper,56 FBGs encapsulated in stainless steel tubes were applied to the measurement of VIV in a28-m model pipeline under controlled and uncontrolled conditions.Tests show that the encapsulated sensors possessed good sensitivity as well as fatigue life(>80000 cycles).The measurements from FBGs were also high enough to allow frequency domain analysis of the pipeline VIV under the two conditions.The authors conclude that the encapsulated FBGs are a viable tool for the study of VIV in pipeline structures.
引用
收藏
页码:1714 / 1720
页数:7
相关论文
共 50 条
  • [31] Experimental Studies on Vortex-Induced Vibration of a Piggyback Pipeline
    Xiao, Difei
    Hao, Zhiyong
    Zhou, Tongming
    Zhu, Hongjun
    FLUIDS, 2024, 9 (02)
  • [32] Design and application of compact high-frequency vibration sensor based on fiber Bragg grating
    Jiang Y.
    Tao C.
    Li M.
    Wang J.
    Chen Y.
    Yi Qi Yi Biao Xue Bao/Chinese Journal of Scientific Instrument, 2023, 44 (12): : 252 - 260
  • [33] Strain fiber sensor based on beat frequency with chirped fiber Bragg grating
    Wang, Xu
    Zhang, Haojie
    Wen, Quan
    Chen, Longfei
    Wang, Fang
    Liu, Yufang
    Yu, Kun
    OPTICAL ENGINEERING, 2016, 55 (07)
  • [34] Cantilever vibration sensor based on Fiber Bragg Grating temperature compensation
    Jia, Zhen'an
    Dang, Shuo
    Yu, Dakuan
    Fan, Wei
    OPTICAL FIBER TECHNOLOGY, 2023, 75
  • [35] A Fiber Bragg Grating Based Torsional Vibration Sensor for Rotating Machinery
    Wang, Jingjing
    Wei, Li
    Li, Ruiya
    Liu, Qin
    Yu, Lingling
    SENSORS, 2018, 18 (08)
  • [36] A high performance compact vibration sensor based on fiber Bragg grating
    Zhang, Xiaolei
    Zhang, Faxiang
    Li, Shujuan
    Wang, Meng
    Wang, Lujie
    Song, Zhiqiang
    Sun, Zhihui
    Qi, Haifeng
    Wang, Chang
    Peng, Gangding
    CHINESE OPTICS LETTERS, 2014, 12
  • [37] The Fiber Bragg Grating Sensor and Its Interrogator for Dynamic Strain Measurement of Concrete
    Yu, Shangjiang
    Yang, Jixiang
    Chen, Jinyang
    ENGINEERING SOLUTIONS FOR MANUFACTURING PROCESSES, PTS 1-3, 2013, 655-657 : 679 - 683
  • [38] Dynamic strain measurement with fiber Bragg grating sensor system for Smart structure
    Kim, KS
    ADVANCES IN NONDESTRUCTIVE EVALUATION, PT 1-3, 2004, 270-273 : 2114 - 2119
  • [39] Strain measurement for composite tubes using embedded, fiber Bragg grating sensor
    Chen, Y. C.
    Hsieh, C. C.
    Lin, C. C.
    SENSORS AND ACTUATORS A-PHYSICAL, 2011, 167 (01) : 63 - 69
  • [40] Simultaneous Measurement of Temperature and Mechanical Strain Using a Fiber Bragg Grating Sensor
    Her, Shiuh-Chuan
    Lin, Wei-Nan
    SENSORS, 2020, 20 (15) : 1 - 12