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可实现多点测量的波分复用光纤氢气传感系统 被引量:1

Wavelength division multiplexed optical fiber hydrogen sensing system for multi-point measurement
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摘要 摘要 ( 2 ) 引用本文 随着实际应用的发展,核电站、飞行器发动机、气体燃料等领域均提出了进行大数量点数氢气监测的要求,但目前已有的光纤氢气传感系统仅能实现单点测量。为解决上述问题,将波分复用技术和光纤氢气传感技术相结合,设计了一种可实现多点测量的波分复用光纤氢气传感系统,阐述了该系统的基本原理、光路结构和技术优势,并从理论上分析了进行多点氢气监测的可行性。根据理论分析的结果,基于已有器材搭建了一套4通道的波分复用光纤氢气传感系统,同时设计了一套实验装置并利用该装置对传感系统进行了验证实验。通过对光纤链路各节点传输光光谱和传感头反射信号光功率的测试,验证了所提出的新型氢气传感系统不仅可以实现多点测量,而且各测点具有较好的独立性和性能,一小时内测量稳定性优于±1%,测量范围达到了0~4%,基本误差优于±2%。理论分析和实验结果对于研究大数量点数氢气测量技术及系统极具参考意义。 As the investigation deepened, it is necessary to detect the hydrogen concentration with large quantities of points in the field of nuclear power station, aerocraft engine, gaseous fuel et al, but the existing optical fiber hydrogen sensing systems are able to measure only one point at a time. A Wavelength Division Multiplexed (WDM) optical fiber hydrogen sensing system was proposed for the detection of multi-point hydrogen. The topology principle and advantage of WDM optical fiber hydrogen sensing system were expatiated, and the technical feasibility of the novel system was introduced in detail. According to the analysis, a WDM optical fiber hydrogen sensing system was assembled, with four measuring channels. Using the components well developed in the telecommunication industry, an additional scheme was also developed for the hydrogen experiment. The results show that the novel optical fiber hydrogen sensing system is able to measure multi-point hydrogen simultaneously, and different measuring channels do not interfere with one another by measuring spectral evolvement and power of the optical signal. The performance testing shows that good stability (less than ±1% in an hour) and small error (less than ±2%) are achieved within the measuring range from 0 to 4%. The research results will provide a valuable reference for the optical fiber hydrogen sensing system to measure the hydrogen concentration with large quantities of points.
作者 李建中 刘振清 雷江波 刘俊
机构地区 中国工程物理研究院流体物理研究所
出处 《红外与激光工程》 EI CSCD 北大核心 2016年第8期87-93,共7页 Infrared and Laser Engineering
基金 国家自然科学基金(11272298) 中国工程物理研究院科学技术发展基金(2015B0401079 2014B0101001)
关键词 光纤氢气传感 光纤光学 波分复用 气室 optical fiber hydrogen sensing fiber optics palladium wavelength division multiplexed gas chamber
分类号 O436 [机械工程—光学工程]
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红外与激光工程
2016年 第8期

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