Impact of Cloud Microphysics on the Development of Trailing Stratiform Precipitation in a Simulated Squall Line: Comparison of One- and Two-Moment Schemes
NSF National Center for Atmospheric Research · Georgia Institute of Technology
Abstract
Abstract A new two-moment cloud microphysics scheme predicting the mixing ratios and number concentrations of five species (i.e., cloud droplets, cloud ice, snow, rain, and graupel) has been implemented into the Weather Research and Forecasting model (WRF). This scheme is used to investigate the formation and evolution of trailing stratiform precipitation in an idealized two-dimensional squall line. Results are compared to those using a one-moment version of the scheme that predicts only the mixing ratios of the species, and diagnoses the number concentrations from the specified size distribution intercept parameter and predicted mixing ratio. The overall structure of the storm is similar using either the one-…
Citation impact
- FWCI
- 18.57
- Percentile
- 100%
- References
- 71
Authors
3Topics & keywords
- Squall line
- Graupel
- Precipitation
- Weather Research and Forecasting Model
- Atmospheric sciences
- Storm
- Mesoscale meteorology
- Environmental science