根据比尔-朗伯定律, 设计了一种用于检测瓦斯气体浓度的新型光纤瓦斯传感系统。该系统利用光纤布拉格光栅优良的窄带滤波特性来产生差分吸收测量所需的窄谱光信号, 具有光路全光纤化、结构简单的特点。采用非球面光纤准直器构成光纤瓦斯传感探头, 提高了探头的光学稳定性, 进一步提高了测量灵敏度和测量稳定性。实验数据及结果表明, 系统具有良好的稳定性, 其测量灵敏度可达0.01%的体积分数, 测量范围大于5%的体积分数。

Based on law of Beer-Lambert, a novel optical fiber gas sensing system is designed to determine the concentration of gas. The narrow-band filtering characteristic of optical fiber Bragg grating is used by this system to produce the narrow spectrum light signal which is wanted in difference absorption measuring. This system has characteristics such as full optical fiber light way and simple structure. The aspheric objective optical fiber collimator is adopted by this system to compose optical fiber gas sensing detector, which enhances the optic stability of the detector. The measuring sensitivity and stability are also further enhanced. Experimental data and results show that there is a high measuring sensitivity at 0.01%, and the measuring range goes beyond 5%.