Single particle characterization of black carbon aerosols at a tropospheric alpine site in Switzerland

Liu, Dantong; Flynn, Michael J.; Gysel, M.; Targino, Admir Créso; Crawford, Ian; Bower, Keith; Choularton, T. W.; Jurányi, Z.; Steinbacher, Martin; Hüglin, Christoph; Curtius, Joachim; Kampus, Melaka; Petzold, A.; Weingärtner, E.; Baltensperger, Urs; Coe, Hugh

doi:10.5194/acp-10-7389-2010

Cited by 113 publications

(90 citation statements)

References 68 publications

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“…rBC is carbonaceous, insoluble and vaporises only at temperatures near 4000 K (Petzold et al, 2013;Schwarz et al, 2008). The operation and process of data interpretation have been described by Liu et al (2010) and McMeeking et al (2010). Particles pass through a 1064 nm laser beam inside the instrument and the consequent incandescent and scattered light is detected on a single-particle basis.…”

Section: Methodsmentioning

confidence: 99%

Highly controlled, reproducible measurements of aerosol emissions from combustion of a common African biofuel source

et al. 2018

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Abstract. Particulate emissions from biomass burning can both alter the atmosphere's radiative balance and cause significant harm to human health. However, due to the large effect on emissions caused by even small alterations to the way in which a fuel burns, it is difficult to study particulate production of biomass combustion mechanistically and in a repeatable manner. In order to address this gap, in this study, small wood samples sourced from Côte D'Ivoire in West Africa were burned in a highly controlled laboratory environment. The shape and mass of samples, available airflow and surrounding thermal environment were carefully regulated. Organic aerosol and refractory black carbon emissions were measured in real time using an Aerosol Mass Spectrometer and a Single Particle Soot Photometer, respectively. This methodology produced remarkably repeatable results, allowing aerosol emissions to be mapped directly onto different phases of combustion. Emissions from pyrolysis were visible as a distinct phase before flaming was established. After flaming combustion was initiated, a black-carbon-dominant flame was observed during which very little organic aerosol was produced, followed by a period that was dominated by organic-carbon-producing smouldering combustion, despite the presence of residual flaming. During pyrolysis and smouldering, the two phases producing organic aerosol, distinct mass spectral signatures that correspond to previously reported variations in biofuel emissions measured in the atmosphere are found. Organic aerosol emission factors averaged over an entire combustion event were found to be representative of the time spent in the pyrolysis and smouldering phases, rather than reflecting a coupling between emissions and the mass loss of the sample. Further exploration of aerosol yields from similarly carefully controlled fires and a careful comparison with data from macroscopic fires and real-world emissions will help to deliver greater constraints on the variability of particulate emissions in atmospheric systems.

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Section: Methodsmentioning

confidence: 99%

Highly controlled, reproducible measurements of aerosol emissions from combustion of a common African biofuel source

et al. 2018

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“…Actually, when including data from the beginning of 2016, under the influence of ENSO, we observed a shift towards higher ER BC in the NE directions due to the occurrence of fires in the Guyanas area. These atypical data were excluded from The lower ER BC observed in the wet season was likely due to aerosol scavenging during the transatlantic advection (Moran-Zuloaga et al, 2017), while CO is not affected by wet deposition (Liu et al, 2010).…”

Section: Bc To Co Enhancement Ratiomentioning

confidence: 99%

Black and brown carbon over central Amazonia: Long-term aerosol measurements at the ATTO site

Saturno¹,

Holanda²,

Pöhlker³

et al. 2017

Preprint

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Abstract. The Amazon rain forest is considered a very sensitive ecosystem that could be significantly affected by a changing climate. It is still one of the few places on Earth where the atmosphere in the continent approaches near-pristine conditions for some periods of the year. The Amazon Tall Tower Observatory (ATTO) has been built in central Amazonia to monitor the atmospheric and forest ecosystem conditions. The atmospheric conditions at the ATTO site oscillate between biogenic and biomass burning (BB) dominated states. By using a comprehensive ground-based aerosol measurement setup, we studied the physical and chemical properties of aerosol particles at the ATTO site. This parameterization of å abs as a function of the BC to OA mass ratio was investigated and was found applicable to tropical forest emissions but further investigation is required, especially by segregating fuel types. Additionally, important enhancements of the BC mass absorption cross-section (α abs ) were found over the measurement period. This enhancement could be linked to heavy coating of the BC aerosol particles. In the future, the BC mixing state should be systematically investigated by using different instrumental approaches.

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“…The detectable size range for purely scattering particles was 0.15-0.60 µm diameter and PSL calibrations were performed over a size range from 0.20-0.60 µm. A detailed description of the data processing and analysis procedures developed for the University of Manchester SP2 is provided by Liu et al (2010) and McMeeking et al (2010).…”

Section: Cloud Aerosol and Black Carbon Measurementsmentioning

confidence: 99%

Studies of propane flame soot acting as heterogeneous ice nuclei in conjunction with single particle soot photometer measurements

et al. 2011

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Abstract. The ice nucleation efficiency of propane flame soot particles with and without a sulphuric acid coating was investigated using the aerosol and cloud chamber facility AIDA (Aerosol Interaction and Dynamics in the Atmosphere). The test soot for cloud formation simulations was produced using a propane flame Combustion Aerosol Standard generator (CAST, Jing-CAST Technologies). The organic carbon content (OC) of the test soot was altered in a reproducible fashion by changing the fuel/air mixture of the generator. The soot content of ice nuclei was subsequently investigated using a combination of a pumped counterflow virtual impactor (PCVI) to separate and evaporate the ice crystals, and a DMT single particle soot photometer (SP2) to examine the mixing state of the BC containing ice residuals.Ice nucleation was found to be most efficient for uncoated soot of low organic carbon content (∼5 % organic carbon content) where deposition freezing occurred at an ice saturation ratio S ice ∼ 1.22 at a temperature T = 226.6 K with 25 % of the test soot becoming active as ice nuclei. Propane flame soot of higher organic carbon content (∼30 % and ∼70 % organic carbon content) showed significantly lower ice nucleation efficiency (an activated fraction of the order of a few percent in the experiments) than the low organic carbon content soot, with water saturation being required for freezing to occur. Ice nucleation occurred over the range S ice = 1.22-1.70, and T = 223.2-226.6 K. Analysis of the SP2 data showed that the 5 % organic carbon content soot had an undetectable OC coating whereas the 30 % organic carbon content soot had a thicker or less volatile OC coating.Correspondence to: I. Crawford (i.crawford@manchester.ac.uk)The application of a sulphuric acid coating to the flame soot shifted the threshold of the onset of freezing towards that of the homogeneous freezing of sulphuric acid; for the minimum OC flame soot this inhibited nucleation since the onset of freezing occurred at colder temperatures and required a greater ice saturation ratio; for the medium and maximum OC flame soot, the addition of a sulphuric acid significantly reduced the freezing threshold.

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Single particle characterization of black carbon aerosols at a tropospheric alpine site in Switzerland

Cited by 113 publications

References 68 publications

Highly controlled, reproducible measurements of aerosol emissions from combustion of a common African biofuel source

Highly controlled, reproducible measurements of aerosol emissions from combustion of a common African biofuel source

Black and brown carbon over central Amazonia: Long-term aerosol measurements at the ATTO site

Studies of propane flame soot acting as heterogeneous ice nuclei in conjunction with single particle soot photometer measurements

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