source: LMDZ6/trunk/libf/phylmd/ecrad/practical/ecradplot/io.py @ 4945

Last change on this file since 4945 was 4773, checked in by idelkadi, 12 months ago
  • Update of Ecrad in LMDZ The same organization of the Ecrad offline version is retained in order to facilitate the updating of Ecrad in LMDZ and the comparison between online and offline results. version 1.6.1 of Ecrad (https://github.com/lguez/ecrad.git)
  • Implementation of the double call of Ecrad in LMDZ


File size: 4.3 KB
Line 
1"""
2Filename:     io.py
3Author:       Shannon Mason, shannon.mason@ecmwf.int
4Description:  I/O functions for loading IFS data
5"""
6
7#For loading and handling netCDF data
8import xarray as xr
9
10def load_inputs(input_srcfile):
11    """
12    Load ecRAD input files.
13    """
14
15    with xr.open_dataset(input_srcfile) as input_dset:
16        if 'lat' in input_dset:
17            input_dset = input_dset.rename({'lat':'latitude', 'lon':'longitude'})
18
19        input_dset['pressure_fl'] = xr.DataArray(
20                input_dset.pressure_hl[:,:-1] + 0.5*input_dset.pressure_hl.diff('half_level'),
21                coords={'column':input_dset.column, 'level':input_dset.level},
22                dims=['column', 'level']
23            )
24
25        #input_dset['p'] = input_dset.pressure_fl.median('column')
26        #input_dset['phl'] = input_dset.pressure_hl.median('column')
27
28        if 'aerosol_mmr' in input_dset.data_vars:
29            input_dset['sea_salt'] = input_dset.aerosol_mmr.sel(
30                    aerosol_type=slice(0,2)).sum('aerosol_type')
31            input_dset['dust'] = input_dset.aerosol_mmr.sel(
32                    aerosol_type=slice(3,5)).sum('aerosol_type')
33            input_dset['organics'] = input_dset.aerosol_mmr.sel(
34                    aerosol_type=slice(6,7)).sum('aerosol_type')
35            input_dset['black_carbon'] = input_dset.aerosol_mmr.sel(
36                    aerosol_type=slice(8,9)).sum('aerosol_type')
37            input_dset['sulphate'] = input_dset.aerosol_mmr.sel(aerosol_type=10)
38
39        input_dset = input_dset.set_coords(['latitude', 'longitude']) #, 'p', 'phl'])
40
41        return input_dset.swap_dims({'column':'latitude'})# 'half_level':'phl', 'level':'p'})
42
43
44def load_ecRAD(output_srcfile, input_srcfile):
45    """
46    Load an ecRAD output file and merge with inputs.
47    Calculate net fluxes and heating rates, including necessary pressures at full levels and half
48    levels.
49    """
50
51    with xr.open_dataset(output_srcfile) as rad_output, xr.open_dataset(input_srcfile) as ifs_input:
52
53        if 'lat' in ifs_input:
54            ifs_input = ifs_input.rename({'lat':'latitude', 'lon':'longitude'})
55
56        input_dset = rad_output.merge(ifs_input) #, compat='override')
57
58        input_dset['pressure_fl'] = xr.DataArray(
59                input_dset.pressure_hl[:,:-1] + 0.5*input_dset.pressure_hl.diff('half_level'),
60                coords={'column':input_dset.column, 'level':input_dset.level},
61                dims=['column', 'level']
62            )
63
64        #input_dset['p'] = input_dset.pressure_fl.median('column')
65        #input_dset['phl'] = input_dset.pressure_hl.median('column')
66
67        input_dset = input_dset.set_coords(['latitude', 'longitude']) #, 'p', 'phl'])
68
69        input_dset['cloud_radiative_effect_lw'] = (
70                (input_dset.flux_dn_lw - input_dset.flux_dn_lw_clear) -\
71                (input_dset.flux_up_lw - input_dset.flux_up_lw_clear)
72            )
73        input_dset['cloud_radiative_effect_sw'] = (
74                (input_dset.flux_dn_sw - input_dset.flux_dn_sw_clear) -\
75                (input_dset.flux_up_sw - input_dset.flux_up_sw_clear)
76            )
77        input_dset['flux_net_lw'] = input_dset.flux_dn_lw - input_dset.flux_up_lw
78        input_dset['flux_net_sw'] = input_dset.flux_dn_sw - input_dset.flux_up_sw
79
80        input_dset['flux_net_lw_clear'] = input_dset.flux_dn_lw_clear - input_dset.flux_up_lw_clear
81        input_dset['flux_net_sw_clear'] = input_dset.flux_dn_sw_clear - input_dset.flux_up_sw_clear
82
83        c_factor = 24*3600*(9.81/1004.)
84        input_dset['heating_rate_lw'] = (-1*c_factor*input_dset.flux_net_lw.diff('half_level')\
85                /input_dset.pressure_hl.diff('half_level')).rename({'half_level':'level'})
86        input_dset['heating_rate_sw'] = (-1*c_factor*input_dset.flux_net_sw.diff('half_level')\
87                /input_dset.pressure_hl.diff('half_level')).rename({'half_level':'level'})
88
89        input_dset['heating_rate_lw_clear'] = \
90                (-1*c_factor*input_dset.flux_net_lw_clear.diff('half_level')\
91                /input_dset.pressure_hl.diff('half_level')).rename({'half_level':'level'})
92        input_dset['heating_rate_sw_clear'] = \
93                (-1*c_factor*input_dset.flux_net_sw_clear.diff('half_level')\
94                /input_dset.pressure_hl.diff('half_level')).rename({'half_level':'level'})
95
96        return input_dset.swap_dims({'column':'latitude'}) # 'half_level':'phl', 'level':'p'})
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