• Title of article

    Approximation formulas for the microphysical properties of saline droplets

  • Author/Authors

    Andreas ، نويسنده , , Edgar L، نويسنده ,

  • Issue Information
    روزنامه با شماره پیاپی سال 2005
  • Pages
    23
  • From page
    323
  • To page
    345
  • Abstract
    Microphysical theory has proven essential for explaining sea sprayʹs role in transferring heat and moisture across the air–sea interface. But large-scale models of air–sea interaction, among other applications, cannot afford full microphysical modules for computing spray droplet evolution and, thus, how rapidly these droplets exchange heat and moisture with their environment. Fortunately, because the temperature and radius of saline droplets evolve almost exponentially when properly scaled, it is possible to approximate a dropletʹs evolution with just four microphysical endpoints: its equilibrium temperature, Teq; the e-folding time to reach that temperature, τT; its equilibrium radius, req; and the e-folding time to reach that radius, τr. ng with microphysical theory, this paper derives quick approximation formulas for these microphysical quantities. These approximations are capable of treating saline droplets with initial radii between 0.5 and 500 μm that evolve under the following ambient conditions: initial droplet temperatures and air temperatures between 0 and 40 °C, ambient relative humidities between 75% and 99.5%, and initial droplet salinities between 1 and 40 psu. ting Teq, τT, and τr requires only one-step calculations; finding req is done recursively using Newtonʹs method. The approximations for Teq and τT are quite good when compared to similar quantities derived from a full microphysical model; Teq is accurate to within 0.02 °C, and τT is typically accurate to within 5%. The estimate for equilibrium radius req is also usually within 5% of the radius simulated with the full microphysical model. Finally, the estimate of radius e-folding time τr is accurate to within about 10% for typical oceanic conditions.
  • Keywords
    Sea spray , Saline droplets , Droplet evolution , Aqueous solution droplets , Droplet radius , Droplet temperature , Cloud Microphysics
  • Journal title
    Atmospheric Research
  • Serial Year
    2005
  • Journal title
    Atmospheric Research
  • Record number

    2245675