Modify Grib2toMdv.wrf_rr_ncep param file to read APCP1Hr. You will need to change the following:
param = "CICE", |
to instead say
param = "CIMIXR", |
and you will have to add the following input item to output_fields:
{ param = "APCP1Hr", level = "SFC", mdv_name = "APCP", units = NO_CHANGE, upper_range_limit = 100.0, lower_range_limit = 0, encoding_type = ENCODING_FLOAT32, qc_default_type = UNKNOWN_VALUE, qc_default_value = 0, vert_level_min = -1, vert_level_max = -1, vert_level_dz = 1 }, |
2. Modify the Hybrid2Pressure.wrf_rr_ncep param file to pass through APCP. Change this code:
include_input_field_names = { "CIN", "ACPCP", "NCPCP", "CAPE" }; |
to
include_input_field_names = { "CIN", "ACPCP", "APCP", "NCPCP", "CAPE" }; |
3. Modify the createModelMetars.cip param file to read APCP instead of NCPCP. Change the following:
ncpcp = "NCPCP1Hr" |
to
ncpcp = "APCP" |
4. Modify the CipAlgo.wrf_rr_ncep param file to use blended metars again. Change the following:
metar_info = { "METAR", "mdv/metar_mapper", 7200, "CLD_BASE_HGT", "CLOUD_COVER", "DIST_TO_CC", "DIST_TO_ZL", "DIST_TO_ZR", "DIST_TO_I P", "DIST_TO_RN", "DIST_TO_SN", "DIST_TO_DZ" }; |
to
metar_info = { "METAR", "mdv/metar_blend", 7200, "CLD_BASE_HGT", "CLOUD_COVER", "DIST_TO_CC", "DIST_TO_ZL", "DIST_TO_ZR", "DIST_TO_I P", "DIST_TO_RN", "DIST_TO_SN", "DIST_TO_DZ" }; |