AI Article Synopsis

  • * Infrared tunable diode laser absorption spectroscopy (IR-TDLAS) is an effective method for measuring HCl in harsh environments but faces challenges from water vapor interference.
  • * This study successfully produced accurate temperature-dependent water spectra, improving HCl detection limits and enabling real-time monitoring of HCl release and gas temperatures during the combustion of PVC particles.

Article Abstract

Hydrogen chloride (HCl) monitoring during combustion/gasification of biomass fuels and municipal solid waste, such as polyvinyl chloride (PVC) and food residues, is demanded to avoid the adverse effect of HCl to furnace operation and to improve the quality of the gas products. Infrared tunable diode laser absorption spectroscopy (IR-TDLAS) is a feasible nonintrusive in-situ method for HCl measurements in harsh environments. In the present work, the measurement was performed using the R(3) line of the ν vibrational band of HCl at 5739.25 cm (1742.4 nm). Water vapor is ubiquitous in combustion/gasification environments, and its spectral interference is one of the most common challenges for IR-TDLAS. Spectral analysis based on the current well-known databases was found to be insufficient to achieve an accurate measurement. The lack of accurate temperature-dependent water spectra can introduce thousands parts per million (ppm) HCl overestimation. For the first time, accurate spectroscopic data of temperature-dependent water spectra near 5739.3 cm were obtained based on a systematic experimental investigation of the hot water lines in a well-controlled, hot flue gas with a temperature varying from 1100 to 1950 K. With the accurate knowledge of hot water interference, the HCl TDLAS system can achieve a detection limit of about 100 ppm⋅m at around 1500 K, and simultaneously the gas temperature can be derived. The technique was applied to measure the temporally resolved HCl release and local temperature over burning PVC particles in hot flue gas at 1790 K.

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Source
http://www.ncbi.nlm.nih.gov/pmc/articles/PMC8832559PMC
http://dx.doi.org/10.1177/00037028211060866DOI Listing

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