Near-infrared laser based cavity ringdown spectroscopy for applications in petrochemical industry

A simple, economic diode laser based cavity ringdown system for trace-gas applications in the petrochemical industry is presented. As acetylene (C₂H₂) is sometimes present as an interfering contaminant in the gas flow of ethylene (ethene, C₂H₄) in a polyethylene production process, an on-line monitoring of such traces is essential. We investigated C₂H₂–C₂H₄ mixtures in a gas-flow configuration in real time. The experimental setup consists of a near-infrared external cavity diode laser with an output power of a few mW, standard telecommunication fibers and a home-made gas cell providing a user-friendly cavity alignment. A noise-equivalent detection sensitivity of 4.5×10^-8 cm^-1 Hz^-1/2 was achieved, corresponding to a detection limit of 20 ppbV C₂H₂ in synthetic air at 100 mbar. In an actual C₂H₂–C₂H₄ gas-flow measurement the minimum detectable concentration of C₂H₂ added to the C₂H₄ gas stream (which may already contain an unknown C₂H₂ contamination) increased to 160 ppbV. Moreover, stepwise C₂H₂ concentration increments of 500 ppbV were resolved with a 1-min time resolution and an excellent linear relationship between the absorption coefficient and the concentration was found. PACS 07.07.Df; 42.62.Fi; 82.80.Gk