UFS-dev PR#118

atmos_model.F90

@@ -2015,7 +2015,7 @@ subroutine assign_importdata(jdat, rc)
 
 ! get upward LW flux:  for sea ice covered area
 !----------------------------------------------
-          fldname = 'mean_up_lw_flx_ice'
+          fldname = 'lwup_flx_ice'
           if (trim(impfield_name) == trim(fldname)) then
             findex  = queryImportFields(fldname)
             if (importFieldsValid(findex)) then
@@ -2042,7 +2042,7 @@ subroutine assign_importdata(jdat, rc)
 
 ! get latent heat flux:  for sea ice covered area
 !------------------------------------------------
-          fldname = 'mean_laten_heat_flx_atm_into_ice'
+          fldname = 'laten_heat_flx_atm_into_ice'
           if (trim(impfield_name) == trim(fldname)) then
             findex  = queryImportFields(fldname)
             if (importFieldsValid(findex)) then
@@ -2062,7 +2062,7 @@ subroutine assign_importdata(jdat, rc)
 
 ! get sensible heat flux:  for sea ice covered area
 !--------------------------------------------------
-          fldname = 'mean_sensi_heat_flx_atm_into_ice'
+          fldname = 'sensi_heat_flx_atm_into_ice'
           if (trim(impfield_name) == trim(fldname)) then
             findex  = queryImportFields(fldname)
             if (importFieldsValid(findex)) then
@@ -2122,7 +2122,7 @@ subroutine assign_importdata(jdat, rc)
 
 ! get sea ice volume:  for sea ice covered area
 !----------------------------------------------
-          fldname = 'mean_ice_volume'
+          fldname = 'sea_ice_volume'
           if (trim(impfield_name) == trim(fldname)) then
             findex  = queryImportFields(fldname)
             if (importFieldsValid(findex)) then
@@ -2143,7 +2143,7 @@ subroutine assign_importdata(jdat, rc)
 
 ! get snow volume:  for sea ice covered area
 !-------------------------------------------
-          fldname = 'mean_snow_volume'
+          fldname = 'snow_volume_on_sea_ice'
           if (trim(impfield_name) == trim(fldname)) then
             findex  = queryImportFields(fldname)
             if (importFieldsValid(findex)) then
@@ -2251,7 +2251,7 @@ subroutine assign_importdata(jdat, rc)
 
 ! get upward LW flux:  for open ocean
 !----------------------------------------------
-          fldname = 'mean_up_lw_flx_ocn'
+          fldname = 'lwup_flx_ocn'
           if (trim(impfield_name) == trim(fldname) .and. GFS_control%use_med_flux) then
             findex  = queryImportFields(fldname)
             if (importFieldsValid(findex)) then
@@ -2271,7 +2271,7 @@ subroutine assign_importdata(jdat, rc)
 
 ! get latent heat flux:  for open ocean
 !------------------------------------------------
-          fldname = 'mean_laten_heat_flx_atm_into_ocn'
+          fldname = 'laten_heat_flx_atm_into_ocn'
           if (trim(impfield_name) == trim(fldname) .and. GFS_control%use_med_flux) then
             findex  = queryImportFields(fldname)
             if (importFieldsValid(findex)) then
@@ -2291,7 +2291,7 @@ subroutine assign_importdata(jdat, rc)
 
 ! get sensible heat flux:  for open ocean
 !--------------------------------------------------
-          fldname = 'mean_sensi_heat_flx_atm_into_ocn'
+          fldname = 'sensi_heat_flx_atm_into_ocn'
           if (trim(impfield_name) == trim(fldname) .and. GFS_control%use_med_flux) then
             findex  = queryImportFields(fldname)
             if (importFieldsValid(findex)) then
@@ -2936,6 +2936,15 @@ subroutine setup_exportdata(rc)
             ! Instantaneous Evap flux (kg/m**2/s)
             case ('inst_evap_rate')
               call block_data_copy(datar82d, GFS_data(nb)%coupling%dqsfci_cpl, Atm_block, nb, -revap, spval, rc=localrc)
+            ! Instantaneous precipitation rate (kg/m2/s)
+            case ('inst_prec_rate')
+              call block_data_copy(datar82d, GFS_data(nb)%coupling%rain_cpl, Atm_block, nb, rtimek, spval, rc=localrc)
+            ! Instantaneous convective precipitation rate (kg/m2/s)
+            case ('inst_prec_rate_conv')
+              call block_data_copy(datar82d, GFS_Data(nb)%Coupling%rainc_cpl, Atm_block, nb, rtimek, spval, rc=localrc)
+            ! Instaneous snow precipitation rate (kg/m2/s)
+            case ('inst_fprec_rate')
+              call block_data_copy(datar82d, GFS_data(nb)%coupling%snow_cpl, Atm_block, nb, rtimek, spval, rc=localrc)
             ! Instantaneous Downward long wave radiation flux (W/m**2)
             case ('inst_down_lw_flx')
               call block_data_copy(datar82d, GFS_data(nb)%coupling%dlwsfci_cpl, Atm_block, nb, rc=localrc)
@@ -3042,15 +3051,6 @@ subroutine setup_exportdata(rc)
             ! MEAN NET sfc uv+vis diffused flux (W/m**2)
             case ('mean_net_sw_vis_dif_flx')
               call block_data_copy(datar82d, GFS_data(nb)%coupling%nvisdf_cpl, Atm_block, nb, rtime, spval, rc=localrc)
-            ! MEAN precipitation rate (kg/m2/s)
-            case ('mean_prec_rate')
-              call block_data_copy(datar82d, GFS_data(nb)%coupling%rain_cpl, Atm_block, nb, rtimek, spval, rc=localrc)
-            ! MEAN convective precipitation rate (kg/m2/s)
-            case ('mean_prec_rate_conv')
-              call block_data_copy(datar82d, GFS_Data(nb)%Coupling%rainc_cpl, Atm_block, nb, rtimek, spval, rc=localrc)
-            ! MEAN snow precipitation rate (kg/m2/s)
-            case ('mean_fprec_rate')
-              call block_data_copy(datar82d, GFS_data(nb)%coupling%snow_cpl, Atm_block, nb, rtimek, spval, rc=localrc)
             ! oceanfrac used by atm to calculate fluxes
             case ('openwater_frac_in_atm')
               call block_data_combine_fractions(datar82d, GFS_data(nb)%sfcprop%oceanfrac, GFS_Data(nb)%sfcprop%fice, Atm_block, nb, rc=localrc)