Title :
Fiber optics for atmospheric mine monitoring
Author :
Dubaniewicz, Thomas H. ; Chilton, Joseph E. ; Dobroski, Harry, Jr.
Author_Institution :
US Bur. of Mines, Pittsburg, PA, USA
Abstract :
The authors describe work done to address methane, carbon monoxide, and distributed temperature monitoring. A review is made of the potential and problems of using fiber optics (FOs) for mine monitoring systems. Methane detection is based on differential absorption of infrared light. A methane monitor that can detect concentrations as low as 0.2% as far away as 2 km via FO cable is described. A carbon monoxide monitoring system that combines a low-powered electrochemical cell with fiber optic (FO) telemetry is described. Testing has shown that the system can operate maintenance free for several months. A distributed FO temperature-monitoring system is being investigated for possible application in mine fire detection. Performance of this system at the US Bureau of Mines´ Lake Lynn Laboratory is reported. The sensor employs optical time domain reflectometry techniques that allow the entire length of fiber (up to 2 km) to function as a distributed temperature sensor. Distributed temperature sensors have considerable potential for monitoring areas such as conveyor beltways
Keywords :
chemical variables measurement; fibre optic sensors; mining; monitoring; telemetering; temperature measurement; 2 km; USA; application; atmospheric mine monitoring; carbon monoxide; chemical variables measurement; conveyor beltways; differential absorption; distributed temperature monitoring; electrochemical cell; fibre optic sensors; fire detection; infrared light; methane; optical cables; optical time domain reflectometry; performance; telemetry; temperature measurement; Electromagnetic wave absorption; Infrared detectors; Monitoring; Optical fiber cables; Optical fiber sensors; Optical fibers; Optical sensors; Telemetry; Temperature measurement; Temperature sensors;
Journal_Title :
Industry Applications, IEEE Transactions on
