Ian J. Arnold scite author profile

Ian J. Arnold

2Publications

104Citation Statements Received

103Citation Statements Given

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122

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University of Arizona, Desert Research Institute, Nevada System of Higher Education

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The filter-loading effect by ambient aerosols in filter absorption photometers depends on the coating of the sampled particles

et al. 2017

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Abstract. Black carbon is a primary aerosol tracer for high-temperature combustion emissions and can be used to characterize the time evolution of its sources. It is correlated with a decrease in public health and contributes to atmospheric warming. Black carbon measurements are usually conducted with absorption filter photometers, which are prone to several artifacts, including the filter-loading effect – a saturation of the instrumental response due to the accumulation of the sample in the filter matrix. In this paper, we investigate the hypothesis that this filter-loading effect depends on the optical properties of particles present in the filter matrix, especially on the black carbon particle coating. We conducted field campaigns in contrasting environments to determine the influence of source characteristics, particle age and coating on the magnitude of the filter-loading effect. High-time-resolution measurements of the filter-loading parameter in filter absorption photometers show daily and seasonal variations of the effect. The variation is most pronounced in the near-infrared region, where the black carbon mass concentration is determined. During winter, the filter-loading parameter value increases with the absorption Ångström exponent. It is suggested that this effect is related to the size of the black carbon particle core as the wood burning (with higher values of the absorption Ångström exponent) produces soot particles with larger diameters. A reduction of the filter-loading effect is correlated with the availability of the coating material. As the coating of ambient aerosols is reduced or removed, the filter-loading parameter increases. Coatings composed of ammonium sulfate and secondary organics seem to be responsible for the variation of the loading effect. The potential source contribution function analysis shows that high values of the filter-loading parameter in the infrared are indicative of local pollution, whereas low values of the filter-loading parameter result from ageing and coating during long-range transport. Our results show that the filter-loading parameter can be used as a proxy for determination of the particle coating, thus allowing for differentiation between local/fresh and transported/aged particles.

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Black and brown carbon fractal aggregates from combustion of two fuels widely used in Asian rituals

Chakrabarty

Arnold

Francisco

et al. 2013

Journal of Quantitative Spectroscopy and Radiative Transfer

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Ian J. Arnold

The filter-loading effect by ambient aerosols in filter absorption photometers depends on the coating of the sampled particles

Black and brown carbon fractal aggregates from combustion of two fuels widely used in Asian rituals

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