Diode-Laser Absorption Sensor System for Measurements of Combustion Pollutants

Abstract

A diode-laser sensor system has been applied to measure the concentrations of NO, N2O, CO, and CO2 in combustion gases using absorption spectroscopy and fast extraction-sampling techniques. Measured survey spectra of the NO 3v band (R branch) and H2O lines from the v2 + v3 band in the spectral region from 5556/cm to 5562/cm were recorded and compared to calculated spectra to select optimum transitions for NO detection. Similarly, measured survey spectra of the N2O 3v3 band from 6535/cm to 6600/cm were used to identify optimum transitions for N2O detection. High resolution NO absorption measurements were recorded in a fast-flow multipass cell containing probe-sampled combustion gases to determine NO concentrations in a laminar, premixed CH4/air flame, seeded with NH3. For fuel-rich conditions, the fraction of NH3 converted to NO decreased with increasing equivalence ratio. In additional experiments, CO and CO2 absorption measurements were used to determine species concentrations above a laminar, premixed CH4/air flame. Good agreement was found between measured CO and CO2 concentrations and calculated chemical equilibrium values.

Document Details

Document Type

Technical Report

Publication Date

Jul 01, 1997

Accession Number

ADA363265

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