Roy, AnirbanAnirbanRoyChawhan, Rohan ShuddhodhanRohan ShuddhodhanChawhanPatel, RutuRutuPatelVaradharajan, SurendarSurendarVaradharajanTiwari, Laxmi ManiLaxmi ManiTiwariChakraborty, Arup LalArup LalChakrabortyGhoroi, ChinmayChinmayGhoroiSrivastava, GauravGauravSrivastava2025-08-312025-08-312019-11-0110.1109/JSEN.2019.29270812-s2.0-85073240787https://d8.irins.org/handle/IITG2025/23153We demonstrate tunable diode laser spectroscopy (TDLS)-based absolute measurements of the mole fraction of carbon monoxide (CO) and carbon dioxide (CO<inf>2</inf>) in the plume of an aerosol-based fire extinguishing agent. The mole fraction values of CO and CO<inf>2</inf> in the plume for two different compositions of the aerosol-forming compound are measured to study the effect of chemical composition on gas emission during controlled discharge of aerosol. The aerosol plume from the first composition contained 336 ± 39 ppm CO and 1389 ± 99 ppm CO<inf>2</inf> on an average while that from the second composition contained 691 ± 56 ppm CO and 1971 ± 118 ppm CO<inf>2</inf>. These measurements show that the CO content in the plume can be reduced by more than 50% if the chemical composition of the aerosol-forming compound is properly chosen. The technique can be readily extended to measure other species (such as nitrogen oxides) that are often present in fire-extinguishing aerosol plumes. Two mid-infrared continuous-wave distributed-feedback quantum cascade lasers are used to interrogate the rotational-vibrational transitions of CO at 4559.217 nm and CO<inf>2</inf> at 4319.30 nm. The mole fractions of CO and CO<inf>2</inf> are extracted by a digital signal processor from least-squares fit of a simulated Voigt lineshape to the gas absorption line obtained using direct absorption spectroscopy.falseaerosol-based fire extinguisher | Delfino Experimenter's kit | quantum cascade laser | Tunable diode laser spectroscopy | Voigt lineshapeArticle155817489728-97351 November 201958756071arJournal3WOS:000492361300018