| When |
Who |
What |
| 2008/08/07/12 |
Lin |
The 12z 6/13 change (use of the CPC daily gauge analysis in /dcom in the calculation of the
long-term water budget used to bias-adjust the precipitation analyses used in the NDAS) was implemented
into the operational NDAS as of this date.
|
| 2008/08/01/12 |
Wong, Mitchell, Rogers |
Changes to land-sfc physics:
- Let ETP (potential evaporation) decrease linearly with Bulk
Richardson # under stable condition, and weighted by snow coverage.
- Let DQSDT2 (slope of saturated humidity function wrt temperature)
decrease linearly with snow coverage.
Restarted using cycled land-states and satellite radiance bias-corrections from NDASX
|
| 2008/07/17/18 |
Rogers, Wu |
Due to a mirroring glitch, the observation error file used by the new GSI
analysis was not mirrored to mist until this cycle. For all parallel
runs on mist (12z 7/9/2008 - 00z 7/16/2008)
no conventional data except for surface pressure data was used.
|
| 2008/07/14/12 |
Carley, Ferrier, Rogers |
NDASEXP now running "partial" cycling, in which GDAS forecast (processed using WPS) is used for the atmospheric
first guess for the first (tm12) GSI analysis in the NDAS
In the radiation parameterization, the absorbtion coefficients for water and ice have been doubled to 1600 and
1000, respectively
Restarted using cycled land-states and satellite radiance bias-corrections from NDASY
|
| 2008/07/03/12 |
Janjic |
New shallow convection modified to use "swapsoft2" clouds. For soft2 clouds:
- RHref=RHmean[2w(p-ptop)/(pbot-ptop)+(1-w)], where
- w=.05
- RHmean=mean RH w.r.t. pressure between cloud base and cloud top
- "swapsoft" clouds : the new cloud is only used at swap points, at straight points the old cloud
is used
|
| 2008/06/30/18 |
Wu |
Begin use of METOP radiance data in the GSI analysis
|
| 2008/06/18/06 |
Gayno |
Begin use of the AFWA 1/16 bedient snow depth analysis and a new version of the
NAM_SNO2MDL code to process this data
Due to a script glitch while implementing this change, the 00z 6/18 NAMEXP did not
run, so the NDASEXP cycle was restarted from the ops NDAS.
|
| 2008/06/13/12 |
Lin |
In the calculation of the long-term water budget used to bias-adjust the precipitation
analyses used in the NDAS (as input to WRF-NMM land-sfc model), begin use of the CPC daily gauge analysis in /dcom.
The new script converts it to GRIB on the fly, then checks for size of the GRIB'd file to prevent a faulty analysis
from being used in long-term water budget calculation. Using the original CPC daily analysis, rather than the
pre-GRIB'd version (the conversion to GRIB is done twice a day on a fixed schedule), will allow late-arriving
or re-made CPC analyses to be used in the budget calculation. The additional screening performed in the new
script will prevent bad analysis files (nearly all of them are less than 95,000 bytes when GRIB'd) from
entering the long term budget calculations. These two changes will result in a more accurate long-term
budget array and a more precise adjustment to hourly precipitation input used in the NDAS data assimilation.
|
| 2008/06/10/18 |
Wu, Rogers |
Begin use of latest (4Q 2008) version of the GSI analysis code
Turn on assimilation of TAMDAR/AMDAR aircraft data
|
| 2008/06/09/18 |
Ferrier, Janjic |
Changes to WRF-NMM forecast model:
- The model for shallow convection is modified to be a plume,
or an ensemble of plumes extending from cloud base to cloud top that are determined
in the same way as in the current scheme. The air in the cloudy grid boxes is mixed
in such a way that RH does not change with height. The temperature gradient within
the cloud is a weighted mean of the ambient temperature gradient and the moist adiabatic
temperature gradient, where the weights depend on RH. Note that with a cloud like this
we cannot have almost saturated air with almost dry adiabatic temperature lapse rate that
we occasionally see with the current scheme. As before, the enthalpy is conserved.
- The WRF MYJPBL, PBL driver, and the NMM's TURBL subroutine were modified
to mix each hydrometeor species separately in the vertical. The current production code
only mixes cloud liquid water.
- To apply vertical diffusion for separate water species,
the subroutine VDIFH has been changed so that (a) it can handle an arbitrary number of species,
(b) the counter gradient option can be applied to some or all of the species
if desired, and (c) option to set to zero some or all of the surface
fluxes is also made available.
Use ops values of observation error covariance for AMSUA and MHS radiance data.
NDASEXP cycle restarted from ops NDAS restart file and satellite bias correction files.
|
| 2008/05/05/18 |
Rogers, Wu |
Revert back to current ops NDAS/NAM WRF-NMM model forecast
Increase observation errors for AMSUA and MHS instruments by a factor of 10, effectively
turning them off in the GSI analysis
NDASEXP cycle restarted from ops NDAS restart file and satellite bias correction files.
|
| 2008/04/28/12 |
Rogers |
Due to 18-h outage on dew, NDASEXP cycle was restarted
from the ops NDAS restart file and ops NDAS satellite bias correction files.
date.
|
| 2008/04/22/18 |
Rogers |
Assimilation of AIRS satellite radiance data was turned on in the operational
NDAS/NAM as of this cycle. It was not implemented as intended on 31 March 2008 due to a
script error. To ensure a clean comparison to this parallel, the cycled NDAS was restarted
from the ops NDAS restart file and ops NDAS satellite bias correction files as of this cycle
date.
|
| 2008/04/16/18 |
Janjic |
Revert back to current ops WRF-NMM version of the vertical advection scheme, but using the
upper/lower boundary condition treatment in the previous ops code.
NDASEXP cycle restarted from ops NDAS
|
| 2008/04/02/12 |
Rogers |
Until this cycle the previous ops version of the vertical advection ("VAD2") was
only running in the NDASEXP forecast, the 84-h free forecast was still running the new VAD2 now
in operations.
|
| 2008/03/31/18 |
Ferrier, Pyle, Rogers |
Revert back to previous ops WRF-NMM version of the vertical advection scheme
|