Cloud Resolving Models (CRMs) employ microphysics parameterisations which are grouped into bin and bulk approaches. Bulk Microphysics Parameterisation (BMP) schemes specify a functional form for the particle distribution and predict one or more characteristics of a particle category such as the mixing ratio and concentration. In this study two BMPs have been introduced to a dynamical core developed in South Africa and the updated model was used to study the effect of resolution and microphysics set-up on isolated thunderstorms. The results show that thunderstorm cell redevelopment depends on the microphysics set-up. Lower resolution leads to smaller updrafts and downdrafts which in turn affects the amount of the simulated hydrometeors.
Reference:
Bopape, M.M., Engelbrecht, F., Randall, D. and Landman, W. 2012. Simulating moist convection with a quasi-elastic sigma coordinate model. 28th Annual Conference of the South African Society of Atmospheric Sciences, Breakwater Protea Hotel, Cape Town, 26-27 September 2012
Bopape, M. M., Engelbrecht, F., Randall, D., & Landman, W. (2012). Simulating moist convection with a quasi-elastic sigma coordinate model. http://hdl.handle.net/10204/6440
Bopape, Mary-Jane M, F Engelbrecht, D Randall, and W Landman. "Simulating moist convection with a quasi-elastic sigma coordinate model." (2012): http://hdl.handle.net/10204/6440
Bopape MM, Engelbrecht F, Randall D, Landman W, Simulating moist convection with a quasi-elastic sigma coordinate model; 2012. http://hdl.handle.net/10204/6440 .
