Numerical experiments on the role of radiative processes in the development and maintenance of upper level cloudsA time-dependent, two-dimensional Eulerian model is presented whose purpose is to obtain more realistic parameterizations of extended high level cloudiness, and the results of a numerical experiment using the model are reported. The model is anelastic and the Bousinesque assumption is invoked. Unresolved subgrid scale processes are parameterized as eddy diffusion processes. Two phases of water are incorporated and equilibrium between them is assumed. The effects of infrared radiative processes are parametrically represented. Two simulations were conducted with identical initial conditions; in one of them, the radiation term was never turned on. The mean values of perturbation potential temperature at each level in the domain are plotted versus height after 15, 30, and 60 minutes of simulated time. The influence of the radiative term is seen to impose a cooling trend, leading to an increased generation of ice water and an increased generation of turbulent kinetic energy in the cloud layer.
Document ID
19830033435
Acquisition Source
Legacy CDMS
Document Type
Conference Proceedings
Authors
Starr, D. O'C. (Colorado State Univ. Fort Collins, CO, United States)
Cox, S. K. (Colorado State University Fort Collins, CO, United States)