A simplified hydrodynamic mesoscale model suitable for use over high plateau regions

A simplified hydrodynamic primitive equation model in σ-coordinates is described. This model includes the main physical processes that influence development and motion of mesoscale vortices over plateau regions: elevated terrain effects, effects of large-scale and synoptic-scale systems on the mesoscale systems, sensible heating from the earth's surface, moisture cycle and condensation heating released by both large-scale stable precipitation and cumulus convective precipitation, evaporation and the feedback effect of precipitation on evaporation, friction in the planetary boundary layer, horizontal diffusion by subgrid scale eddies and vertical eddy flux of meteorological elements (momentum, temperature, moisture, etc.) due to turbulence, cumulus convection and other smaller-scale physical processes. The model incorporates observed data as much as possible and equations are simplified so that it may be run using either a high-speed computer or a desktop computer. Two developing vortices that originated over the Qinghai-Xizang (Tibet) Platau and moved eastward producing heavy precipitation over the lower elevations are used to test the model. It is shown that the model is capable of simulating the major features of the vortices including the precipitation distribution and may be used for studies of mesoscale and synoptic scale weather systems over plateau regions.