Performance Comparison of Real-Time Laser Absorption Spectrometers for NH₃ Detection at 1.54 and 3.03μm in a H₂O Vapor Mixture

抄録

We described the demonstration of real-time NH₃ detection with simulated flue gas conditions containing H₂O and CO₂ using direct laser absorption spectrometry. The most appropriate absorption lines at 3.03 and 1.54μm were carefully selected from the HITRAN database and the absorption spectral atlas of NH₃ absorption in the 1.5μm region, and measurement sensitivity was compared in detail for absorption intensity and spectral interference associated with pressure broadening. Rapid NH₃ detection with total measurement response time less than 10 seconds was achieved completely interference free from H₂O and CO₂ absorption spectra resulting in minimum detectable concentration of 0.7 ppm at 6510.986cm^-1 and 2ppm at 3295.388cm^-1 at an elevated gas temperature of 400 K.