29th Conference on Hurricanes and Tropical Meteorology

14D.7

A 2-d modeling approach for studying the formation, maintenance, and decay of Tropical Tropopause Layer (TTL) cirrus associated with deep convection

PAPER WITHDRAWN

Daniel R. Henz, University of Wisconsin, Madison, WI; and T. Hashino, G. J. Tripoli, and E. A. Smith

This study is being conducted to examine the distribution, variability, and formation-decay processes of TTL cirrus associated with tropical deep convection using the University of Wisconsin Non-Hydrostatic modeling system (NMS). The experimental design is based on Tripoli, Hack and Kiehl (1992) which explicitly simulates the radiative-convective equilibrium of the tropical atmosphere over extended periods of weeks or months using a 2D periodic cloud resolving model. The experiment design includes a radiation parameterization to explicitly simulate radiative transfer through simulated crystals. Advanced Microphysics Prediction System (AMP) will be used to simulate microphysics by employing SHIPS (Spectral Habit Ice Prediction System) for ice, SLiPS (Spectral Liquid Prediction System) for droplets, and SAPS (Spectral Aerosol Prediction System) for aerosols. The ice scheme called SHIPS is unique in that ice particle properties (such as size, particle density, and crystal habitats) are explicitly predicted in a CRM (Hashino and Tripoli, 2007, 2008). The Advanced Microphysics Prediction System (AMPS) technology provides a particularly strong tool that effectively enables the explicit modeling of the TTL cloud microphysics and dynamical processes which has yet to be accomplished by more traditional bulk microphysics approaches. On going studies will be to compare the ice and aerosol properties simulated in the TTL by NMS/AMPS model to CloudSat and CALIPSO observations as well as the extensive in situ and remote sensed aircraft observations gathered during NASA's Tropical Composition, Clouds, and Climate Coupling experiment (TC4).

Session 14D, Convection III
Thursday, 13 May 2010, 1:15 PM-3:00 PM, Tucson Salon A-C

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