Abstract
An infrared dual-gas sensor system for the simultaneous detection and monitoring of methane (CH4) and ethane (C2H6) at parts-per-billion by volume (ppbv) concentration levels was developed using two room temperature, distributed feedback interband cascade lasers, and two miniature multipass cells with an effective absorption length of 54.6 m. Laser direct absorption spectroscopy was used to detect CH4 utilizing the 3038.5-cm(-1) absorption line, and second-harmonic wavelength modulation spectroscopy method was used to detect C2H6 using the 2996.88-cm(-1) absorption line. The 1 sigma CH4 detection limit is similar to 2.7 ppbv with a 1-s averaging time and exhibits a minimum value of similar to 1.7 ppbv for a 9-s averaging time; the 1s C2H6 detection limit is similar to 2.6 ppbv with a 3.4-s averaging time and shows an optimum averaging time of 65 s corresponding to a stability of similar to 0.36 ppbv. Using the dual-gas sensor system, 24 h monitoring of the two atmospheric gases was performed in the Greater Houston area, TX, USA.