A calibration and sampling technique for quantifying the chemical structure in fires using <scp>GC</scp>/<scp>MSD</scp> analysis

Falkenstein‐Smith, Ryan; Harris, Kimberly J.; Sung, Kunhyuk; Liang, Tianshui; Hamins, Anthony P.

doi:10.1002/fam.2942

Cited by 3 publications

(2 citation statements)

References 30 publications

(32 reference statements)

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“…The gas analyzer included two non-dispersive infrared sensors and a paramagnetic sensor to provide real-time CO 2 , CO, and O 2 concentration measurements, respectively. The grab sample container was used to collect well-mixed gas samples that would be analyzed via a gas chromatograph/mass spectrometer (GC/MS) system to estimate time-averaged gas species concentrations [9]. Grab samples were extracted for a 1 min period 70 sec prior to the door opening.…”

Section: Backdraft Experimentsmentioning

confidence: 99%

“…Applications of molecular spectroscopy, such as laser-induced fluorescence (LIF) and laser-induced breakdown spectroscopy (LIBS), are shown to measure the equivalence ratio using non-extractive techniques [1][2][3][4][5] and require extensive corrections to address low signal to noise ratios. Using an extractive sampling approach, gas chromotography with mass selectivity detectors can provide a time-averaged equivalence ratio [6][7][8][9]. For real-time applications, a phi meter, initially proposed by Babrauskas et al [10], has been utilized for several applications [11][12][13][14][15][16][17] to make in-situ global equivalence ratio measurements.…”

Section: Introductionmentioning

confidence: 99%

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The Design and Performance of a Second-Generation Phi Meter

Falkenstein‐Smith¹,

Cleary²

2022

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This report documents the design and performance of a second-generation phi meter used in multi-scale experimental applications. A constructed second-generation phi meter is implemented in bench and 2/5 th scale experiments to demonstrate the instrument's ability to conduct global and local equivalence ratio measurements and gas species concentrations of combustion products (i.e., carbon dioxide, water vapor, and oxygen) without knowledge of the sampled fuel composition. Bench-scale experiments evaluated the second-generation phi meter's functionality by introducing known fuel-air ratios into the instrument and verifying measurements via the carbon to hydrogen ratio and mass balance. The bench-scale experiments selected methane, propane, and propene as the fuels of interest. The 2/5 th scale experiments implemented two second-generation phi meters in a series of 25 kW methane backdraft experiments. Backdraft experiments provided an ideal setting to test the phi meter's performance by subjecting the instrument to a transient heterogeneous gas mixture. The phi meters' sampling location was positioned such that the extracted gas samples fed into the instrument were unknown. Global and local equivalence ratio measurements made in the 2/5 th scale compartment were compared to independent gas analyzer and gas chromatograph measurements. In the bench-scale experiments, the global equivalence ratio, water vapor concentration, and carbon to hydrogen ratio measurements are in fair agreement with their expected values. Real-time global and local equivalence ratio and carbon to hydrogen ratio measurements obtained during a backdraft experiment were observed to increase as the fuel concentration within the 2/5 th scale compartment increased. Real-time global and local equivalence ratios were verified by the independent instrumentation.

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Section: Backdraft Experimentsmentioning

confidence: 99%