High temperature optical fiber oxygen probe

Proceedings of IEEE Sensors, 2004. Pub Date : 2004-01-01 DOI:10.1109/ICSENS.2004.1426385
R. Ghosh, D. Osborn, G. Baker
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Abstract

We report on the development of an optical sensor suitable for remote monitoring of oxygen in high temperature environments. The sensor is based on /sup 3/O/sub 2/ quenching of the red emission from hexanuclear molybdenum chloride clusters. A reflection mode fiber optic probe is being developed by immobilizing Mo/sub 6/Cl/sub 12/ in a porous sol-gel matrix at the far end of a high temperature silica fiber. The sensor signal as a function of temperature was determined from in-situ spectroscopic measurements, demonstrating operation up to at least 200/spl deg/C. One of the advantages of the inorganic Mo-cluster is the lack of sensitivity to gases typically present in a coal-fired boiler due to the triplet nature of the transition from the excited to ground state.
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高温光纤氧探头
我们报道了一种适合在高温环境中远程监测氧气的光学传感器的开发。该传感器基于六核氯化钼团簇红色发射的/sup /O/sub /淬火。将Mo/sub - 6/Cl/sub - 12/固定在高温硅纤维远端的多孔溶胶-凝胶基质中,研制了一种反射型光纤探头。传感器信号作为温度的函数是由原位光谱测量确定的,表明工作温度至少为200/spl°C。无机mo团簇的优点之一是由于从激发态到基态过渡的三重态性质,对通常存在于燃煤锅炉中的气体缺乏敏感性。
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Proceedings of IEEE Sensors, 2004.
Proceedings of IEEE Sensors, 2004.
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