Geoscientific Model Development (Apr 2011)

MADE-in: a new aerosol microphysics submodel for global simulation of insoluble particles and their mixing state

  • V. Aquila,
  • J. Hendricks,
  • A. Lauer,
  • N. Riemer,
  • H. Vogel,
  • D. Baumgardner,
  • A. Minikin,
  • A. Petzold,
  • J. P. Schwarz,
  • J. R. Spackman,
  • B. Weinzierl,
  • M. Righi,
  • M. Dall'Amico

DOI
https://doi.org/10.5194/gmd-4-325-2011
Journal volume & issue
Vol. 4, no. 2
pp. 325 – 355

Abstract

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Black carbon (BC) and mineral dust are among the most abundant insoluble aerosol components in the atmosphere. When released, most BC and dust particles are externally mixed with other aerosol species. Through coagulation with particles containing soluble material and condensation of gases, the externally mixed particles may obtain a liquid coating and be transferred into an internal mixture. The mixing state of BC and dust aerosol particles influences their radiative and hygroscopic properties, as well as their ability of forming ice crystals. <br><br> We introduce the new aerosol microphysics submodel MADE-in, implemented within the ECHAM/MESSy Atmospheric Chemistry global model (EMAC). MADE-in is able to track mass and number concentrations of BC and dust particles in their different mixing states, as well as particles free of BC and dust. MADE-in describes these three classes of particles through a superposition of seven log-normally distributed modes, and predicts the evolution of their size distribution and chemical composition. Six out of the seven modes are mutually interacting, allowing for the transfer of mass and number among them. Separate modes for the different mixing states of BC and dust particles in EMAC/MADE-in allow for explicit simulations of the relevant aging processes, i.e. condensation, coagulation and cloud processing. EMAC/MADE-in has been evaluated with surface and airborne measurements and mostly performs well both in the planetary boundary layer and in the upper troposphere and lowermost stratosphere.