1) to determine the scaling correct scaling parameters for fengsha.
2) do multiple years to show that the aerosol predictions during events varies drastically from climatology. This is to add more proof to the need for prognostic aerosols.
The first simulation will go from April 1st 2020 (with MERRA2 ICs) to September 1 2020. Once this is completed multiple years with several different scaling parameters will be completed. This will allow us to better determine the scaling coefficient by statistical methods rather than trial and error.
Model Configuration Details
Resolution: C384
Begin Date: April 1st 2020
End Date: Sept 1st 2020
Cold Start: False (MERRA2 ICs)
Forecast length (FHMAX_GFS): 24 hours
FV3 output: every 6 hours
Aerosol Model Configuration
ANTHRO1 (surface emissions) : CEDS
ANTHRO2 (elevated emissions) : CEDS
SHIP : CEDS
Biomass Burning: QFED where GBBEPx isn't available
Aviation: HTAP
NH3 Emissions: CEDS
Dust : Fengsha
alpha: 2
gamma: 1
Sea Salt: 3
scaling factor: 1
AOD output: 3 hours
Column Mass output: 3 hours
Surface Concentrtation output: every 3 hours
please use the feature/albedo_drag branch of this repository
Case Details:
This simulation is for two things:
1) to determine the scaling correct scaling parameters for fengsha. 2) do multiple years to show that the aerosol predictions during events varies drastically from climatology. This is to add more proof to the need for prognostic aerosols.
The first simulation will go from April 1st 2020 (with MERRA2 ICs) to September 1 2020. Once this is completed multiple years with several different scaling parameters will be completed. This will allow us to better determine the scaling coefficient by statistical methods rather than trial and error.
Model Configuration Details
Aerosol Model Configuration
please use the feature/albedo_drag branch of this repository