Dependence of soot optical properties on particle morphology: measurements and model comparisons

JG Radney, R You, X Ma, JM Conny… - … science & technology, 2014 - ACS Publications
JG Radney, R You, X Ma, JM Conny, MR Zachariah, JT Hodges, CD Zangmeister
Environmental science & technology, 2014ACS Publications
We report the first mass-specific absorption and extinction cross sections for size-and mass-
selected laboratory-generated soot aerosol. Measurement biases associated with aerosols
possessing multiple charges were eliminated using mass selection to isolate singly charged
particles for a specified electrical mobility diameter. Aerosol absorption and extinction
coefficients were measured using photoacoustic and cavity ring-down spectroscopy
techniques, respectively, for lacey and compacted soot morphologies. The measurements …
We report the first mass-specific absorption and extinction cross sections for size- and mass-selected laboratory-generated soot aerosol. Measurement biases associated with aerosols possessing multiple charges were eliminated using mass selection to isolate singly charged particles for a specified electrical mobility diameter. Aerosol absorption and extinction coefficients were measured using photoacoustic and cavity ring-down spectroscopy techniques, respectively, for lacey and compacted soot morphologies. The measurements show that the mass-specific absorption cross sections are proportional to particle mass and independent of morphology, with values between 5.7 and 6 m2 g–1. Mass-specific extinction cross sections were morphology dependent and ranged between 12 and 16 m2 g–1 for the lacey and compact morphologies, respectively. The resulting single-scattering albedos ranged from 0.5 to 0.6. Results are also compared to theoretical calculations of light absorption and scattering from simulated particle agglomerates. The observed absorption is relatively well modeled, with minimum differences between the calculated and measured mass absorption cross sections ranging from ∼5% (lacey soot) to 14% (compact soot). The model, however, was unable to satisfactorily reproduce the measured extinction, underestimating the single-scattering albedo for both particle morphologies. These discrepancies between calculations and measurements underscore the need for validation and refinement of existing models of light scattering and absorption by soot agglomerates.
ACS Publications
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