Abstract

A 100-compound near-infrared (IR) spectral library of environmentally important gases was generated. All the library spectra were measured from 4000 to 9000 cm−1 at a resolution of 2 cm−1. Spectra of 17 test mixtures including 9 two-component mixtures, 5 three-component mixtures, and 3 four-component mixtures were measured. Two of the 9 two-component mixture spectra were measured at a resolution of 8 cm−1 and two at 16 cm−1; all the other mixtures were measured at 2 cm−1 resolution. A mixture search routine was used for identifying the components in the mixtures. In a search using the near-IR region of 4000 to 8000 cm−1, all components in the 9 two-component mixtures, all components in 5 three-component mixtures except for one component ( o-xylene in a mixture of the three xylenes) and all components in the 3 four-component mixtures except for one component (a ketone) were correctly identified. The mixture search was repeated with the 4000 to 6200 cm−1 region and all components in all the 17 mixtures were correctly identified. Thus, by the decision to limit the near-IR fingerprint region of 4000–5000 cm−1 and the overtone region of the C-H stretching vibration at 5600–6200 cm−1, the informational content was optimized. The results suggest that the 4000–6200 cm−1 region could be used for monitoring gas mixtures.

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