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基于腰椎放大熔接的FBG热线式风力计 被引量:3

FBG hot-wire anemometer based on incorporating with waist-enlarged fiber bitaper
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摘要 提出了一种基于腰椎放大熔接和光纤Bragg光栅(FBG)的热线式风力计,传感结构由表面镀金属银膜的FBG和腰椎放大光纤熔接点构成。腰椎放大熔接点将高功率的泵浦激光由纤芯耦合到光纤包层,被镀银膜吸收产生热量,从而使FBG的温度升高。当气流经FBG时,部分热量会被带走,导致FBG的温度降低。FBG的中心波长随温度的变化而变化,因此,通过测量FBG波长的漂移即可以测得气流速度。实验结果表明:此FBG热线式风力计的测量范围为0~13.7 m/s,灵敏度和分辨率分别可达1.0 nm/(m/s)和0.001 m/s。 A hot-wire anemometer based on a silver-coated fiber Bragg grating( FBG) incorporating with a waistenlarged fiber bitaper is proposed. The waist-enlarged fiber bitaper couples the light from a pump laser propagating along the fiber into the fiber cladding,the light is absorbed by silver film and generate heat,which increases temperature of the FBG. Air flow cools down the FBG and shifts the Bragg wavelength to shorter wavelength. FBG wavelength shifts with the change of temperature. Anemometer is therefore realized by monitoring the wavelength changes of the FBG. Experimental results show that the measurement range is 0~ 13. 7 m / s,the sensitivity is up to1. 0 nm /( m / s) and resolution is 0. 001 m / s.
作者 赵学芳 王新淮 董新永
机构地区 中国计量学院光学与电子科技学院
出处 《传感器与微系统》 CSCD 2015年第10期57-59,62,共4页 Transducer and Microsystem Technologies
基金 国家"973"计划资助项目(2010CB327804) 浙江省自然科学基金杰出青年团队项目(R1080087)
关键词 热线式风力计 光纤BRAGG光栅 腰椎放大熔接点 光纤传感 hot-wire anemometers fiber Bragg gratings(FBG) waist-enlarged fiber bitapers optical fiber sensing
分类号 O431.1 [机械工程—光学工程]
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参考文献11

  • 1Jewart C,Mc Millen B,Cho S K,et al.X-probe flow using selfpowered active fiber Bragg gratings[J].Sensors and Actuators A:Phys,2006,127(1):63-68. 被引量:1
  • 2Byrne G D,James S W,Tatam R P A.Bragg grating-based fibreoptic reference beam laser Doppler anemometer[J].Meas Sci Technol,2001,12(7):909-913. 被引量:1
  • 3Lien V,Vollmer F.Microfluidic flow rate detection based on integrated optical fiber cantilever[J].Lab on a Chip,2007,7(10):1352-1356. 被引量:1
  • 4Cashdollar L J,Chen K P.Fiber Bragg grating flow sensors powered by in-fiber light[J].IEEE Sensors,2005,5(6):1327-1331. 被引量:1
  • 5Chen K P,Mc Millen B,Buric M,et al.Self-heated fiber Bragg grating sensors[J].Applied Physics Letters,2005,86(14):143502. 被引量:1
  • 6Caldas P,Jorge P A S,Rego G,et al.Fiberoptic hot-wire flowmeter based on a metallic coated hybrid long period grating/fiber Bragg grating structure[J].Applied Optics,2011,50(17):2738-2743. 被引量:1
  • 7Gao Shaorui,Zhang A P,Tam H Y,et al.All-optical fiber anemometer based on laser heated fiber Bragg gratings[J].Optics Express,2011,19(11):10124-10130. 被引量:1
  • 8Dong Xinyong,Zhou Yan,Zhou Wenjun,et al.Compact anemometer using silver-coated fiber Bragg grating[J].IEEE Photonics Journal,2012,4(5):1381-1386. 被引量:1
  • 9Geng Youfu,Li Xuejin,Tan Xiaoling,et al.High-sensitivity MachZehnder interfer-ometric temperature fiber sensor based on awaist-enlarged fusion bitaper[J].Sensors Journal,IEEE,2011,11(11):2891-2894. 被引量:1
  • 10Meng Qingqiang,Dong Xinyong,Zhou Yan,et al.Simultaneous measurement of curvature and temperature with fiber taper-based MZI containing fiber Bragg grating[J].Journal of Electromagnetic and Applications,2012,26(17/18):2438-2444. 被引量:1

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传感器与微系统
2015年 第10期

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