• Title of article

    A three-dimensional model of moist convection for the giant planets II: Saturnʹs water and ammonia moist convective storms

  • Author/Authors

    Hueso، نويسنده , , Ricardo and Sلnchez-Lavega، نويسنده , , Agustيn، نويسنده ,

  • Issue Information
    روزنامه با شماره پیاپی سال 2004
  • Pages
    17
  • From page
    255
  • To page
    271
  • Abstract
    Moist convective storms constitute a key aspect in the global energy budget of the atmospheres of the giant planets. Among them, Saturn is known to develop the largest scale convective storms in the Solar System, the Great White Spots (GWS) which occur rarely and have been detected once every 30 years approximately. On the average, Saturn seems to show much less convective storms than Jupiter with smaller size and reduced frequency and intensity. Here we present detailed simulations of the onset and development of storms at the Equator and mid-latitudes of Saturn. These are the regions where most of the recent convective activity of the planet has been observed. We use a 3D anelastic model with parameterized microphysics (Hueso and Sánchez-Lavega, 2001, Icarus 151, 257) studying the onset and evolution of water and ammonia moist convective storms up to sizes of a few hundred km. Water storms, while more difficult to initiate than in Jupiter, can be very energetic, arriving to the 150 mbar level and developing vertical velocities on the order of 150 m s−1. Ammonia storms develop easier but with a much smaller intensity unless very large abundances of ammonia (10 times solar) are present in Saturnʹs atmosphere. The Coriolis forces play a major role in the morphology and properties of water based storms.
  • Keywords
    Atmospheresdynamics , Saturnatmosphere , Meteorology
  • Journal title
    Icarus
  • Serial Year
    2004
  • Journal title
    Icarus
  • Record number

    2373183