netcdf RRA_WRF_midP_atmos_2dint_1_6898410025310759412 {
dimensions:
time = 365 ;
x = 280 ;
y = 216 ;
eta = 1 ;
nv = 2 ;
variables:
int crs ;
crs:grid_mapping_name = "lambert_conformal_conic" ;
crs:long_name = "coordinate reference system" ;
crs:units = "m" ;
crs:longitude_of_central_meridian = 83. ;
crs:longitude_of_prime_meridian = 0. ;
crs:latitude_of_projection_origin = 31.99998856 ;
crs:standard_parallel = 32., 38. ;
crs:false_easting = 0. ;
crs:false_northing = 0. ;
crs:semi_major_axis = 6370000. ;
crs:inverse_flattening = 0. ;
crs:epsg_code = "EPSG:9802" ;
crs:scale_factor_at_central_meridian = 1. ;
int vrs ;
vrs:long_name = "vertical reference system" ;
vrs:system_name = "WRF sphere" ;
float eta(eta) ;
eta:standard_name = "atmosphere_sigma_coordinate" ;
eta:long_name = "atmosphere sigma coordinate" ;
eta:axis = "Z" ;
eta:positive = "down" ;
eta:units = "1" ;
eta:bounds = "eta_bounds" ;
float eta_bounds(eta, nv) ;
int time(time) ;
time:standard_name = "time" ;
time:long_name = "time" ;
time:calendar = "proleptic_gregorian" ;
time:axis = "T" ;
time:units = "seconds since 1903-01-01 00:00:00 +00" ;
time:bounds = "time_bounds" ;
float x(x) ;
x:long_name = "distance to origin in x-direction" ;
x:axis = "X" ;
x:units = "m" ;
float y(y) ;
y:long_name = "distance to origin in y-direction" ;
y:axis = "Y" ;
y:units = "m" ;
float lon(y, x) ;
lon:standard_name = "longitude" ;
lon:long_name = "longitude" ;
lon:units = "degrees_east" ;
float lat(y, x) ;
lat:standard_name = "latitude" ;
lat:long_name = "latitude" ;
lat:units = "degrees_north" ;
float u_intliquidflux(time, eta, y, x) ;
u_intliquidflux:_FillValue = -9999.f ;
u_intliquidflux:long_name = "vertical integral of x-component of liquid water flux" ;
u_intliquidflux:wrf_var = "" ;
u_intliquidflux:remarks = "integrated over all model eta levels; calculated from WRF variables QCLOUD, QRAIN, U, T, P, PB" ;
u_intliquidflux:units = "kg m-1 s-1" ;
u_intliquidflux:coordinates = "lat lon x y time eta" ;
u_intliquidflux:grid_mapping = "crs" ;
u_intliquidflux:cell_methods = "time: mean" ;
int time_bounds(time, nv) ;
// global attributes:
:title = "RRA WRF mid-Pliocene atmospheric conditions daily atmos" ;
:source = "WRF V4.1.2" ;
:origin_lon = 83. ;
:origin_lat = 31.99998856 ;
:origin_x = 0. ;
:origin_y = 0. ;
:origin_z = 0. ;
:history = "27.08.2020 01:54:26: originally created by Xun Wang - xun.wang@
nulltu-berlin.de
, Benjamin Schmidt - benjamin.schmidt@
nulltu-berlin.de
(notes by original author: File generated with the output of successive model runs of 36H (first 12 hours discarded for spin-up)); 2021-06-24 13:20:50 +00: re-formatted using python conversion of old products to new products" ;
:creation_time = "2021-06-24 13:20:50 +00" ;
:origin_time = "1903-01-01 00:00:00 +00" ;
:domain = "1" ;
:software_notes = "IDL V8.7.0, WAVE post V0.1" ;
:Conventions = "CF-1.7" ;
:data_content = "WRF sim" ;
:dependencies = "" ;
:campaign = "" ;
:contact_person = "Otto, Marco, marco.otto@
nulltu-berlin.de
; Scherer, Dieter, dieter.scherer@
nulltu-berlin.de
" ;
:author = "Wang, Xun, xun.wang@
nulltu-berlin.de
; Schmidt, Benjamin, benjamin.schmidt@
nulltu-berlin.de
; Scherer, Dieter, dieter.scherer@
nulltu-berlin.de
" ;
:acronym = "TUBklima" ;
string :institution = "Technische Universität Berlin, Fachgebiet Klimatologie" ;
:location = "High Mountain Asia" ;
:version = 1LL ;
:references = "" ;
:comment = "" ;
:keywords = "regional climate simulation; WRF; model data; dynamical downscaling; refined analysis" ;
:licence = "[UC]2 Open Licence; see [UC]2 data policy available at www.uc2-program.org/uc2_data_policy.pdf" ;
:rotation_angle = 0. ;
}