摘要
由于分布式光纤喇曼测温系统带宽不足,导致系统的空间分辨率低;当光纤的感温区域长度接近空间分辨率的时候,系统温度响应幅值不够,导致测温不准.为解决此问题,本文提出了一种线性修正算法;在分析温度与喇曼比值关系及系统的频率响应特性的基础上,建立了该算法的数学模型,搭建了基于单模光纤的10km分布式测温系统,并利用该算法进行了相关测温实验.实验结果与理论分析一致,该算法能有效修正3~6m光纤的温度响应幅值,使系统测温准确度达1℃,测量时间为40s.本算法在不增加效系统成本的同时,克服了系统带宽不足,优化了空间分辨率、温度分辨率及测量时间.
Because of deficient bandwidth,the space resolution of Distributed Optical Fiber Raman Temperature Sensor(DOFRTS) is low.When the sensing length of fiber is close to space resolution,there is no accurate temperature response.For solving the problems,a new linear algorithm is proposed.Firstly,the relationship between Raman ratio and temperature and the characteristics of frequency response are analyzed,and then a mathematical model is built up for this algorithm.A single-mode temperature sensor system for 10 km long is built up,some related experiments are carried out by using the algorithm.Experiment results are consistent with theoretical analysis,the temperature amplitudes of testing fiber from 3 meters to 6 meters are corrected.The temperature measurement accuracy reaches 1℃ and measuring time is 40 seconds.By applying this algorithm,the limit of bandwidth can be overcome effectively and the system cost is cut down obviously,at the same time,space resolution,temperature resolution and measuring time are optimized.
出处
《光子学报》
EI
CAS
CSCD
北大核心
2012年第4期408-413,共6页
Acta Photonica Sinica
基金
中央高校基本科研业务费科研专项自然科学类项目资助(No.CDJZR10120011)
关键词
喇曼测温
带宽
线性修正算法
频率响应
空间分辨率
Raman measure temperature
Bandwidth
Linear correcting algorithm
Frequency response
Space resolution