Name:
Email Address:
Dynamic Core: --- WRF-ARW WRF-NMM
Microphysics:
Microphysics: --- 0: No Microphysics 1: Kessler scheme 2: Lin et al. scheme 3: WSM 3-class simple ice scheme 4: WSM 5-class scheme 5: Ferrier scheme 6: WSM 6-class scheme 7: Goddard GCE scheme 8: Thompson graupel scheme 9: Milbrandt-Yau scheme 10: Morrison 2-moment scheme 13: SBU 5-class scheme 14: WDM 5-class scheme 16: WDM 6-class scheme 85: Etamp_hwrf scheme 98: Thompson (v3.0) scheme
Long-wave Radiation: --- 0: No long-wave radiation 1: RRTM scheme 3: CAM scheme 4: RRTMG scheme 5: Goddard scheme 99: GFDL scheme 98: Modified GFDL scheme
Short-wave Radiation: --- 0: No short-wave radiation 1: Dudhia scheme 2: Goddard shortwave scheme 3: CAM scheme 4: RRTMG scheme 5: Goddard scheme 99: GFDL scheme 98: Modified GFDL scheme
Surface-layer: --- 0: No surface layer scheme 1: Monin-Obukhov scheme 2: Janjic scheme 3: NCEP GFS scheme 4: QNSE 5: MYNN 7: Pleim-Xiu scheme 10: TEMF 88: GFDL scheme
Land Surface Model: --- 0: No surface temperature prediction 1: Thermal diffusion scheme 2: Noah LSM 3: RUC LSM 7: Pleim-Xiu LSM 88: GFDL slab LSM
Boundary-layer: --- 0: No boundary layer 1: YSU scheme 2: MYJ TKE scheme 3: NCEP GFS scheme 4: QNSE 5: MYNN 2.5 level TKE 6: MYNN 3rd level TKE 7: ACM scheme 8: BouLac TKE 9: UW TKE scheme 10: TEMF
Cumulus: --- 0: No cumulus 1: Kain-Fritsch scheme 2: BMJ scheme 3: Grell-Devenyi ensemble scheme 4: Simplified Arakawa-Schubert scheme 5: Grell 3d ensemble scheme 6: Tiedtke scheme 7: Zhang-McFarlane scheme 14: New GFS SAS
Application:
Describe the intended use of this configuration (e.g. general weather forecasting, convective weather, hurricane). Please provide enough details to help inform decisions on the cases to be run and the domain of interest. Also, please indicate a preference for how the model is initialized.
*The DTC has full authority in the final decision about which candidates are ultimately run and how they are configured.
