1:45 PM - 2:00 PM
[AAS02-01] Relating vertical velocity and cloud/precipitation properties: A numerical modeling study of Tropical convection
★Invited Papers
Keywords:vertical velocity, convection, cloud properties, model
The results show condensation, deposition, and freezing occur mainly in moderate (3-5 m s-1) to strong (>10 m s-1) updrafts, evaporation and sublimation mainly in weak (1-2 m s-1) to moderate downdrafts, and melting in moderate to strong updrafts and downdrafts. Active updrafts cover only a small percentage of the model domain but contribute significantly to the latent heat release and are associated with large proportions of the hydrometeors. Active updrafts with vertical velocities exceeding 1 and 2 m s-1 account for more than 75% and 50%, respectively, of the condensation, deposition, and freezing in both the oceanic and continental cases. However, active downdrafts with vertical velocity magnitudes exceeding |1 m s-1| account for less than 40% and 25%, respectively, of the evaporation and sublimation. More evaporation and sublimation than condensation and deposition occur in the inactive cloud regions. Sensitivity tests are also conducted to assess the impact of model grid spacing (1000 m vs 250 m) and microphysical schemes (3 ice classes vs 4 ice classes) on latent heat release and hydrometeor amount. The results show that model resolution had more impact than the microphysics on the simulated cloud properties in both cases.