AIMS Environmental Science (Jun 2018)

Limited impact of sulfate-driven chemistry on black carbon aerosol aging in power plant plumes

  • Milos Z. Markovic,
  • Anne E. Perring,
  • Ru-Shan Gao,
  • Jin Liao,
  • Andre Welti,
  • Nick L. Wagner,
  • Ilana B. Pollack,
  • Ann M. Middlebrook,
  • Thomas B. Ryerson,
  • Michael K. Trainer,
  • Carsten Warneke,
  • Joost A. de Gouw,
  • David W. Fahey,
  • Philip Stier,
  • Joshua P. Schwarz

DOI
https://doi.org/10.3934/environsci.2018.3.195
Journal volume & issue
Vol. 5, no. 3
pp. 195 – 215

Abstract

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The aging of refractory black carbon (rBC) aerosol by sulfate-driven chemistry has been constrained in coal-fired power-plant plumes using the NOAA WP-3D research aircraft during the Southern Nexus (SENEX) study, which took place in the Southeastern US in June and July of 2013. A Single Particle Soot Photometer (SP2) determined the microphysical properties of rBC-containing particles including single-particle rBC mass and the presence and amount of internally-mixed non-rBC material, hereafter referred to as “coatings”. Most power-plant influenced air was associated with very slightly increased amounts of non-refractory material, likely sulfate internally mixed with the rBC, however this increase was statistically insignificant even after semi-Lagrangian exposure for up to 5 h. On average, the increase in coating thickness was 2 ± 4 nm for particles containing 3–5 fg rBC. Similarly, the number fraction of rBC-containing particles that could be identified as internally mixed was increased by plume chemistry by only 1.3 ± 1.3%. These direct measurements of microphysical aging of rBC-containing aerosol by power plant emissions constrain the enhancement of sulfate chemistry on both rBC’s column-integrated absorption optical depth, and rBC-containing aerosol’s ability to act as cloud condensation nuclei. Appling Mie and k-Köhler theories to the SP2 observations, permits the resulting effect on rBC ambient light-absorption to be capped at the 2–6% level.

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