2021
DOI: 10.5194/acp-21-16161-2021
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Physical and chemical properties of black carbon and organic matter from different combustion and photochemical sources using aerodynamic aerosol classification

Abstract: Abstract. The physical and chemical properties of black carbon (BC) and organic aerosols are important for predicting their radiative forcing in the atmosphere. During the Soot Aerodynamic Size Selection for Optical properties (SASSO) project and a EUROCHAMP-2020 transnational access project, different types of light-absorbing carbon were studied, including BC from catalytically stripped diesel exhaust, an inverted flame burner, a colloidal graphite standard (Aquadag) and controlled flaming wood combustion. Br… Show more

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Cited by 14 publications
(17 citation statements)
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“…We note that the CPMA‐measured mass distributions were not used in optical closure calculations because the CPMA scanning time takes several minutes, and the particle concentration may change during this time and therefore determined size distributions based on an assumed density were not regarded as accurate. Nonetheless, the CPMA was used to calibrate the SP2 for black carbon mass (Hu et al., 2021a) and therefore inclusion of CPMA measurements in our set‐up remained highly beneficial.…”
Section: Experimental Setup and Methodsmentioning
confidence: 99%
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“…We note that the CPMA‐measured mass distributions were not used in optical closure calculations because the CPMA scanning time takes several minutes, and the particle concentration may change during this time and therefore determined size distributions based on an assumed density were not regarded as accurate. Nonetheless, the CPMA was used to calibrate the SP2 for black carbon mass (Hu et al., 2021a) and therefore inclusion of CPMA measurements in our set‐up remained highly beneficial.…”
Section: Experimental Setup and Methodsmentioning
confidence: 99%
“…This work provides fundamental underpinning information needed to improve the prediction of the radiative forcing of BC and BrC in the atmosphere. The work presented here builds on the results reported in our previous publication (Hu et al., 2021a), which described our experimental apparatus, aerosol generation, and conditioning methods, and the chemical and morphological characterization of the particles, but did not investigate the optical properties.…”
Section: Introductionmentioning
confidence: 99%
“…The aerosol model named dust comprises the characteristics of African and Asian desert dust (Sahara, Gobi, and Arabian Deserts). The polluted continental refers to the contaminant generated in urban-industrial areas, and it is commonly recognized as representative of black [12] 2650 [13] 1800 [14] 1000 [15] 2173 [16] 1695 [16] ATI Annual Congress (ATI 2022) Journal of Physics: Conference Series 2385 (2022) 012134 carbon emission. The polluted dust aerosol model accounts for episodes of dust mixed with biomass burning smoke typical of African and Asian regions.…”
Section: Methodsmentioning
confidence: 99%
“…In this context, soot generators are employed as stable sources of soot particles. So far, soot generators have been employed for studies on optical properties (Zhang et al, 2008;Cross et al, 2010;Mamakos et al, 2013;Utry et al, 2014b;Bescond et al, 2016), instrument calibration (Onasch et al, 2012;Durdina et al, 2016), and several other purposes, such as studies on the atmospheric processing of soot particles and the characterization of uncoated/coated and fresh/denuded of soot particles (Pagels et al, 2009;Henning et al, 2012;Hu et al, 2021). The inverted-flame burner (Stipe et al, 2005) is often considered as an ideal soot source (Moallemi et al, 2019 and references therein), due to its capacity to generate almost pure EC particles and the stability of the flame and of its exhaust (Stipe et al, 2005).…”
Section: Introductionmentioning
confidence: 99%
“…ASC experiments are the best compromise between laboratory and field experiments, since they simulate quasi-real situations but without the uncertainties and variability typical of field measurements. Recent examples of ASC applications concern the investigation of the optical properties of mineral dust (Caponi et al, 2017) and wood-burning exhausts (Kumar et al, 2018;Hu et al, 2021).…”
Section: Introductionmentioning
confidence: 99%