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Simultaneous CH4/CO Measurement at Atmospheric Pressure Using a Single 2.3 μm Laser and a Dual-Gas Cross-Interference Cancellation Algorithm
A simultaneous methane (CH4) and carbon monoxide (CO) dual-gas sensor system for coal mine safety applications is highly desirable and yet challenging, from the perspective of complexity and cost. A… Click to show full abstract
A simultaneous methane (CH4) and carbon monoxide (CO) dual-gas sensor system for coal mine safety applications is highly desirable and yet challenging, from the perspective of complexity and cost. A single $2.3 \mu \text{m}$ distributed feedback (DFB) laser has been utilized in dual-gas sensor to solve the problems in cost and setup complexity. However, there is dual-gas cross-interference to be addressed in single-laser-based dual-gas sensor. To suppress the interference caused by absorption line overlapping, a novel two-step ($2s$ ) second harmonic ($2f$ ) algorithm based on polynomial fitting ($2s$ -$2f$ -Polyfit) method was proposed for the single DFB laser-based near-infrared dual-gas sensor. A Herriott absorption gas cell was designed with a ~25 m optical path length. Numerical simulations and measurements were carried out to investigate the reported dual-gas cross-interference cancellation method. The signal-to-noise ratio (SNR) with the $2s$ -$2f$ -PolyFit algorithm was improved by ~53 dB compared to the scheme without the algorithm. The limit of detection (LoD) of CH4 was 0.97 parts per million in volume (ppmv) with a 0.4-s averaging time and it was further decreased to 62 parts per billion in volume (ppbv) with a 224-s averaging time. The CO measurement precision is 0.23 ppmv with a 0.4-s averaging time. With increasing averaging time, a measurement precision of 11 ppbv with a 212-s averaging time was obtained. Field experiments were carried out to evaluate the sensor performance for early fire detection and CH4 gas leakage monitoring. The reported novel $2s$ -$2f$ -PolyFit algorithm-based dual-gas sensor with no additional requirement on hardware shows enhanced selectivity and antiinterference ability compared to the infrared dual-gas sensor using a traditional sensing architecture with two lasers.
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