Changeset 3085 for trunk/LMDZ.TITAN/deftank
- Timestamp:
- Oct 12, 2023, 3:41:02 PM (15 months ago)
- Location:
- trunk/LMDZ.TITAN/deftank
- Files:
-
- 1 added
- 2 deleted
- 2 edited
Legend:
- Unmodified
- Added
- Removed
-
trunk/LMDZ.TITAN/deftank/callphys.def
r2241 r3085 1 ## Orbit / general options2 ## ~~~~~~~~~~~~~~~~~~~~~~~1 ### Orbit / General options 2 ### ~~~~~~~~~~~~~~~~~~~~~~~ 3 3 # Run with or without tracer transport ? 4 tracer = . false.5 # Diurnal cycle ? if diurnal=false, diurnally averaged solar heating4 tracer = .true. 5 # Diurnal cycle ? If diurnal = .false., diurnally averaged solar heating 6 6 diurnal = .true. 7 # Seasonal cycle ? if season=false, Ls stays constant, to value set in "start"7 # Seasonal cycle ? If season = .false., Ls stays constant, to value set in "start" 8 8 season = .true. 9 # Tidally resonant orbit ? must have diurnal=false, correct rotation rate in newstart9 # Tidally resonant orbit ? Must have diurnal = .false., correct rotation rate in newstart 10 10 tlocked = .false. 11 # Tidal resonance ratio ? ratio T_orbit to T_rotation11 # Tidal resonance ratio ? Ratio T_orbit to T_rotation 12 12 nres = 1 13 13 # Write some more output on the screen ? … … 17 17 # Test energy conservation of model physics ? 18 18 enertest = .true. 19 # check if cpp matches gases.def (should be false in 1d)19 # Check if cpp matches gases.def (should be false in 1d) 20 20 check_cpp_match = .false. 21 # force cpp and mugaz values from gases.def (should be false in 1d)21 # Force cpp and mugaz values from gases.def (should be false in 1d) 22 22 force_cpp = .false. 23 # Compute effective variations of gravity field with altitude in physics ? 24 # Better be true if you run with chemistry 25 eff_gz = .false. 23 26 24 ## Directory where external input files are25 ## ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~26 datadir 27 ### Directory where external input files are 28 ### ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ 29 datadir = ../../datagcm 27 30 28 ## Radiative transfer options 29 ## ~~~~~~~~~~~~~~~~~~~~~~~~~~ 30 # call radiative transfer? 31 32 ### Radiative transfer options 33 ### ~~~~~~~~~~~~~~~~~~~~~~~~~~ 34 # Call radiative transfer? 31 35 callrad = .true. 32 # the rad. transfer is computed every "iradia" physical timestep33 iradia = 536 # The rad. transfer is computed every "iradia" physical timestep 37 iradia = 4 34 38 # Use blackbody for stellar spectrum ? 35 stelbbody 39 stelbbody = .false. 36 40 # Stellar blackbody temperature ? 37 stelTbb 38 # call multilayer correlated-k radiative transfer ?41 stelTbb = 2000.000 42 # Call multilayer correlated-k radiative transfer ? 39 43 corrk = .true. 40 # folder in which correlated-k data is stored ?41 corrkdir = 23x23 42 # use corr-k recombination instead of pre-mixed ?43 corrk_recombin = . false.44 # call visible gaseous absorption in radiative transfer ?44 # Folder in which correlated-k data is stored ? 45 corrkdir = recombin 46 # Use corr-k recombination instead of pre-mixed ? 47 corrk_recombin = .true. 48 # Call visible gaseous absorption in radiative transfer ? 45 49 callgasvis = .true. 46 # call continuum in radiative transfer ?47 Continuum = .true.50 # Call continuum in radiative transfer ? 51 Continuum = .true. 48 52 # Allow temperatures above kmatrix tmax 49 53 strictboundcorrk = .false. … … 51 55 rayleigh = .true. 52 56 # Uniform absorption coefficient in radiative transfer? 53 graybody 57 graybody = .false. 54 58 # Constant absorption coefficient in visible 55 59 # (in m^2/kg; only if graybody=true): 56 60 # tau_surf= kappa*P/g 57 kappa_VI = 0.61 kappa_VI = 0. 58 62 # Constant absorption coefficient in IR 59 63 # (in m^2/kg; only if graybody=true): 60 kappa_IR = 0.64 kappa_IR = 0. 61 65 # Use Newtonian cooling in place of radiative transfer ? 62 newtonian 66 newtonian = .false. 63 67 # Radiative timescale for Newtonian cooling ? [only if newtonian = T] 64 tau_relax 68 tau_relax = 30.00000 65 69 # Test physics timescale in 1D ? 66 70 testradtimes = .false. … … 73 77 meanOLR = .false. 74 78 # Remove lower boundary (e.g. for gas giant sims) 75 noradsurf = .false. 79 noradsurf = .false. 80 # Output optical diagnostics (in otpcv & optci) ? 81 diagdtau = .false. 76 82 77 83 78 # Compute effective variations of gravity field with altitude in physics ? 79 ## Better be true if you run with chemistry 80 eff_gz = .true. 84 ### Chemistry 85 ### ~~~~~~~~~ 86 # Call chemistry ? (must have tracer = .true.) 87 callchim = .true. 88 # Activate zonal mean ? 89 moyzon_ch = .true. 90 # Chemistry is computed every "ichim" phys. timestep 91 ichim = 20 92 # Infinite tank of CH4 ? 93 resCH4_inf = .false. 81 94 82 ## Chemistry83 ## ~~~~~~~~~84 # call chemistry ? (must have tracer=true)85 callchim = .false.86 # Activate zonal mean ?87 moyzon_ch = .false.88 # chemistry is computed every "ichim" phys. timestep89 ichim = 20090 95 91 ## Microphysics 92 ## ~~~~~~~~~~~~ 93 # use haze seasonal model ? ( if you run without coupled microphysics ) 94 seashaze = .false. 95 # call microphysics ? (must have tracer=true) 96 callmufi = .false. 97 ## If yes, compute clouds ? 98 callclouds = .false. 99 ### If yes, number of ices ? (must be compatible with traceur.def AND microphysical model ) 100 nices = 3 101 # Desactivate radiative coupling of microphysics ( i.e. use mean opacity profile ) 102 uncoupl_optic_haze = .true. 96 ### Microphysics 97 ### ~~~~~~~~~~~~ 98 # Call microphysics ? (must have tracer = .true.) 99 callmufi = .true. 100 # Activate zonal mean ? (must be .true. if callmufi by now ?) 101 moyzon_mu = .false. 102 # If yes, compute clouds ? 103 callclouds = .true. 104 # If yes, number of ices ? (must be compatible with traceur.def AND microphysical model) 105 nices = 4 106 # Use new optics for clouds ? 107 opt4clouds = .true. 108 # Cloudy fraction in the Clear / Dark column method ? 109 Fcloudy = 0.15 110 # Adjustment of ssca albedo for cloudy dropplet ? 111 Fssa = 0.90 112 # Adjustment of aerosol properties in the VIS ? 113 FHVIS = 1.0 114 # Adjustment of aerosol properties in the IR ? 115 FHIR = 1.0 116 # Desactivate radiative coupling of microphysics (i.e. use mean opacity profile) 117 uncoupl_optic_haze = .false. 118 # Use haze seasonal model ? (if you run without coupled microphysics) 119 seashaze = .false. 120 103 121 # ~~~~~ Parameters for microphysics ~~~~~ 104 122 # Path to microphys. config file ? 105 123 config_mufi = ../../datagcm/microphysics/config.ne15.cfg 106 124 # Pressure level of aer. production (Pa) ? 107 p_prod = 1.0125 p_prod = 1.0 108 126 # Aer. production rate (kg.m-2.s-1) ? 109 tx_prod = 3.5e-13127 tx_prod = 3.5e-13 110 128 # Equivalent radius production (m) ? 111 rc_prod = 2.0e-8129 rc_prod = 1.0e-8 112 130 # Radius of air (nitrogen) molecule (m) ? 113 air_rad = 1.75e-10131 air_rad = 1.75e-10 114 132 115 133 116 ## Star type117 ## ~~~~~~~~~134 ### Star type 135 ### ~~~~~~~~~ 118 136 startype = 1 119 137 # ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ 120 138 # The choices are: 121 139 # 122 # startype = 1Sol (G2V-class main sequence)140 # startype = 1 Sol (G2V-class main sequence) 123 141 # ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ 124 142 # Stellar flux at 1 AU. Examples: … … 127 145 Fat1AU = 1366.0 128 146 129 ## Other physics options 130 ## ~~~~~~~~~~~~~~~~~~~~~ 131 # call turbulent vertical diffusion ? 132 calldifv = .true. 133 # use turbdiff instead of vdifc ? 147 148 ### Other physics options 149 ### ~~~~~~~~~~~~~~~~~~~~~ 150 # Call turbulent vertical diffusion ? 151 calldifv = .true. 152 # Use turbdiff instead of vdifc ? 134 153 UseTurbDiff = .true. 135 # call convective adjustment ? 136 calladj = .true. 137 # call thermal conduction in the soil ? 138 callsoil = .true. 154 # Call convective adjustment ? 155 calladj = .true. 156 # Call thermal conduction in the soil ? 157 callsoil = .true. 158 # Call nudging of zonal wind ? 159 nudging_u = .true. 160 # Nudging relaxation time (secondes) ? 161 nudging_dt = 9.3e8 -
trunk/LMDZ.TITAN/deftank/context_lmdz_physics.xml
r1960 r3085 79 79 long_name="Mesh area" 80 80 unit="m2" /> 81 <!-- Surface diagnostics --> 81 82 <field id="tsurf" 82 83 long_name="Surface Temperature" … … 88 89 long_name="Surface Geopotential" 89 90 unit="m2/s2" /> 91 <!-- Surface diagnostics (Flux) --> 90 92 <field id="sensibFlux" 91 93 long_name="Sensible Heat Flux" 92 94 unit="W/m2" /> 95 <field id="fluxsurf_lw" 96 long_name="Incident LW flux to surf" 97 unit="W/m2" /> 98 <field id="fluxsurfabs_sw" 99 long_name="Absorbed SW flux by the surface" 100 unit="W/m2" /> 101 <field id="emis" 102 long_name="Long Wave emissivity" 103 unit="" /> 104 <!-- Surface diagnostics (Heating) --> 105 <field id="dtsurf" 106 long_name="Surface heating rate" 107 unit="K/s" /> 108 <field id="dtsdif" 109 long_name="Surface Turbdiff heating rate" 110 unit="K/s" /> 111 <!-- Surface diagnostics (Evaporation) --> 112 <field id="dtsurfevap" 113 long_name="Surface evaporation heating rate" 114 unit="K/s" /> 93 115 <field id="evapCH4" 94 116 long_name="Surface CH4 pseudo-evaporation rate" 95 117 unit="mol/mol/s" /> 96 <field id="ISR_TOA" 118 <field id="tankCH4" 119 long_name="Depth of CH4 tank" 120 unit="m" /> 121 <!-- Surface diagnostics (Precipitation) --> 122 <field id="aer_prec" 123 long_name="Total aerosols precipitations" 124 unit="m" /> 125 <field id="ccn_prec" 126 long_name="Total CCN precipitations" 127 unit="m" /> 128 <field id="iCH4_prec" 129 long_name="Total ice of CH4 precipitations" 130 unit="m" /> 131 <field id="iC2H2_prec" 132 long_name="Total ice of C2H2 precipitations" 133 unit="m" /> 134 <field id="iC2H6_prec" 135 long_name="Total ice of C2H6 precipitations" 136 unit="m" /> 137 <field id="iHCN_prec" 138 long_name="Total ice of HCN precipitations" 139 unit="m" /> 140 <!-- Top of atmosphere diagnostics --> 141 <field id="ISR_TOA" 97 142 long_name="Incoming Solar Radiation at TOA" 98 143 unit="W/m2" /> … … 104 149 <!-- 3D variables --> 105 150 <field_group id="fields_3D" grid_ref="grid_3d"> 151 <!-- General diagnostics --> 106 152 <field id="temp" 107 153 long_name="Atmospheric temperature" … … 125 171 long_name="Vertical wind" 126 172 unit="Pa/s" /> 173 <!-- Winds trends --> 174 <field id="dudyn" 175 long_name="Dynamics du" 176 unit="m/s2" /> 177 <field id="pdu" 178 long_name="Total du" 179 unit="m/s" /> 127 180 <field id="dudif" 128 181 long_name="Turbdiff du" 129 182 unit="m/s2" /> 130 <field id="du dyn"131 long_name=" Dynamicsdu"183 <field id="duadj" 184 long_name="Convadj du" 132 185 unit="m/s2" /> 186 <field id="dundg" 187 long_name="Nudging du" 188 unit="m/s2" /> 189 <field id="horizwind" 190 long_name="Horizontal Wind" 191 unit="m/s" /> 192 <!-- Heating trends --> 133 193 <field id="dtdyn" 134 194 long_name="Dynamics dT" 195 unit="K/s" /> 196 <field id="pdt" 197 long_name="Total dT" 198 unit="K/s" /> 199 <field id="dtrad" 200 long_name="Radiative dT" 201 unit="K/s" /> 202 <field id="dtdif" 203 long_name="Turbdiff dT" 204 unit="K/s" /> 205 <field id="dtadj" 206 long_name="Convadj dT" 207 unit="K/s" /> 208 <field id="dtlc" 209 long_name="Condensation dT" 135 210 unit="K/s" /> 136 211 <field id="dtsw" … … 140 215 long_name="LW radiation dT" 141 216 unit="K/s" /> 142 <field id="dtrad" 143 long_name="Radiative dT" 144 unit="K/s" /> 217 <!-- Optical properties of haze --> 218 <field id="tauhv_04" 219 long_name="Opacity of haze (VI)" 220 unit="" /> 221 <field id="khv_04" 222 long_name="Extinction of haze (VI)" 223 unit="m-1" /> 224 <field id="wbarhv_04" 225 long_name="Average single scattering albedo of haze (VI)" 226 unit="" /> 227 <field id="gbarhv_04" 228 long_name="Average asymmetry parameter of haze (VI)" 229 unit="" /> 230 <field id="tauhv_18" 231 long_name="Opacity of haze (VI)" 232 unit="" /> 233 <field id="khv_18" 234 long_name="Extinction of haze (VI)" 235 unit="m-1" /> 236 <field id="wbarhv_18" 237 long_name="Average single scattering albedo of haze (VI)" 238 unit="" /> 239 <field id="gbarhv_18" 240 long_name="Average asymmetry parameter of haze (VI)" 241 unit="" /> 242 <field id="tauhi_07" 243 long_name="Opacity of haze (IR)" 244 unit="" /> 245 <field id="khi_07" 246 long_name="Extinction of haze (IR)" 247 unit="m-1" /> 248 <field id="wbarhi_07" 249 long_name="Average single scattering albedo of haze (IR)" 250 unit="" /> 251 <field id="gbarhi_07" 252 long_name="Average asymmetry parameter of haze (IR)" 253 unit="" /> 254 <field id="tauhi_22" 255 long_name="Opacity of haze (IR)" 256 unit="" /> 257 <field id="khi_22" 258 long_name="Extinction of haze (IR)" 259 unit="m-1" /> 260 <field id="wbarhi_22" 261 long_name="Average single scattering albedo of haze (IR)" 262 unit="" /> 263 <field id="gbarhi_22" 264 long_name="Average asymmetry parameter of haze (IR)" 265 unit="" /> 266 <!-- Optics properties of haze + clouds --> 267 <field id="taucv_04" 268 long_name="Opacity of clouds (VI)" 269 unit="" /> 270 <field id="kcv_04" 271 long_name="Extinction of clouds (VI)" 272 unit="m-1" /> 273 <field id="wbarcv_04" 274 long_name="Average single scattering albedo of clouds (VI)" 275 unit="" /> 276 <field id="gbarcv_04" 277 long_name="Average asymmetry parameter of clouds (VI)" 278 unit="" /> 279 <field id="taucv_18" 280 long_name="Opacity of clouds (VI)" 281 unit="" /> 282 <field id="kcv_18" 283 long_name="Extinction of clouds (VI)" 284 unit="m-1" /> 285 <field id="wbarcv_18" 286 long_name="Average single scattering albedo of clouds (VI)" 287 unit="" /> 288 <field id="gbarcv_18" 289 long_name="Average asymmetry parameter of clouds (VI)" 290 unit="" /> 291 <field id="tauci_07" 292 long_name="Opacity of clouds (IR)" 293 unit="" /> 294 <field id="kci_07" 295 long_name="Extinction of clouds (IR)" 296 unit="m-1" /> 297 <field id="wbarci_07" 298 long_name="Average single scattering albedo of clouds (IR)" 299 unit="" /> 300 <field id="gbarci_07" 301 long_name="Average asymmetry parameter of clouds (IR)" 302 unit="" /> 303 <field id="tauci_22" 304 long_name="Opacity of clouds (IR)" 305 unit="" /> 306 <field id="kci_22" 307 long_name="Extinction of clouds (IR)" 308 unit="m-1" /> 309 <field id="wbarci_22" 310 long_name="Average single scattering albedo of clouds (IR)" 311 unit="" /> 312 <field id="gbarci_22" 313 long_name="Average asymmetry parameter of clouds (IR)" 314 unit="" /> 145 315 <!-- Microphysical moments --> 146 316 <field id="mu_m0as" … … 156 326 long_name="Fractal mode 3rd order moment" 157 327 unit="m3/m3" /> 328 <field id="mu_m0n" 329 long_name="Cloud condensation nucleus 0th order moment" 330 unit="m-3" /> 331 <field id="mu_m3n" 332 long_name="Cloud condensation nucleus 3rd order moment" 333 unit="m3/m3" /> 334 <field id="mu_m3CH4" 335 long_name="3rd order moment of CH4 condensed ice" 336 unit="m3/m3" /> 337 <field id="mu_m3C2H2" 338 long_name="3rd order moment of C2H2 condensed ice" 339 unit="m3/m3" /> 340 <field id="mu_m3C2H6" 341 long_name="3rd order moment of C2H6 condensed ice" 342 unit="m3/m3" /> 343 <field id="mu_m3HCN" 344 long_name="3rd order moment of HCN condensed ice" 345 unit="m3/m3" /> 346 <!-- Microphysical diagnostics --> 347 <field id="rc_sph" 348 long_name="Spherical mode characteristic radius" 349 unit="m" /> 350 <field id="rc_fra" 351 long_name="Fractal mode characteristic radius" 352 unit="m" /> 353 <field id="rc_cld" 354 long_name="Clouds characteristic radius" 355 unit="m" /> 356 <field id="vsed_aers" 357 long_name="Spherical aerosols sedimentation velocity" 358 unit="m.s-1" /> 359 <field id="vsed_aerf" 360 long_name="Fractal aerosols sedimentation velocity" 361 unit="m.s-1" /> 362 <field id="vsed_ccn" 363 long_name="Cloud condensation nucleus sedimentation velocity" 364 unit="m.s-1" /> 365 <field id="flux_aers" 366 long_name="Spherical aerosols sedimentation flux" 367 unit="kg.m-2.s-1" /> 368 <field id="flux_aerf" 369 long_name="Fractal aerosols sedimentation flux" 370 unit="kg.m-2.s-1" /> 371 <field id="flux_ccn" 372 long_name="Cloud condensation nucleus sedimentation flux" 373 unit="kg.m-2.s-1" /> 374 <field id="flux_iCH4" 375 long_name="Ice of CH4 sedimentation flux" 376 unit="kg.m-2.s-1" /> 377 <field id="flux_iC2H2" 378 long_name="Ice of C2H2 sedimentation flux" 379 unit="kg.m-2.s-1" /> 380 <field id="flux_iC2H6" 381 long_name="Ice of C2H6 sedimentation flux" 382 unit="kg.m-2.s-1" /> 383 <field id="flux_iHCN" 384 long_name="Ice of HCN sedimentation flux" 385 unit="kg.m-2.s-1" /> 386 <field id="CH4_sat" 387 long_name="CH4 saturation ratio" 388 unit="" /> 389 <field id="C2H2_sat" 390 long_name="C2H2 saturation ratio" 391 unit="" /> 392 <field id="C2H6_sat" 393 long_name="C2H6 saturation ratio" 394 unit="" /> 395 <field id="HCN_sat" 396 long_name="HCN saturation ratio" 397 unit="" /> 158 398 <!-- Chemical species --> 159 399 <field id="H" … … 290 530 unit="mol/mol" /> 291 531 <!-- Condensation tendencies --> 532 <field id="dmuficond_CH4" 533 long_name="CH4 condensation rate (mufi)" 534 unit="mol/mol/s" /> 535 <field id="dmuficond_C2H2" 536 long_name="C2H2 condensation rate (mufi)" 537 unit="mol/mol/s" /> 538 <field id="dmuficond_C2H6" 539 long_name="C2H6 condensation rate (mufi)" 540 unit="mol/mol/s" /> 541 <field id="dmuficond_HCN" 542 long_name="HCN condensation rate (mufi)" 543 unit="mol/mol/s" /> 292 544 <field id="dqcond_CH4" 293 545 long_name="CH4 condensation rate" … … 649 901 </file> 650 902 903 904 <!-- ======================================================== --> 651 905 <!-- averages outputs; every Tday --> 652 906 <file id="diurnalave" … … 654 908 output_freq="1d" 655 909 type="one_file" 656 output_level=" 3"657 enabled=". false.">910 output_level="2" 911 enabled=".true."> 658 912 659 913 <!-- VARS 0D --> 660 914 <field_group operation="average" 661 915 freq_op="1ts"> 662 <field field_ref="ls" level="2" /> 663 <field field_ref="Declin" level="3" /> 916 <field field_ref="ls" level="1" /> 917 <field field_ref="RA" level="4" /> 918 <field field_ref="Declin" level="4" /> 664 919 </field_group> 665 920 … … 667 922 <field_group operation="average" 668 923 freq_op="1ts"> 669 <field field_ref="area" level="3" operation="once" /> 924 <field field_ref="area" level="4" operation="once" /> 925 <!-- Surface diagnostics --> 670 926 <field field_ref="tsurf" level="1" /> 671 927 <field field_ref="ps" level="1" /> 928 <!-- Surface diagnostics (Flux) --> 929 <field field_ref="sensibFlux" level="3" /> 930 <field field_ref="fluxsurf_lw" level="3" /> 931 <field field_ref="fluxsurfabs_sw" level="3" /> 932 <field field_ref="emis" level="9" /> 933 <!-- Surface diagnostics (Heating) --> 934 <field field_ref="dtsurf" level="3" /> 935 <field field_ref="dtsdif" level="3" /> 936 <!-- Surface diagnostics (Evaporation) --> 937 <field field_ref="dtsurfevap" level="3" /> 938 <field field_ref="evapCH4" level="2" /> 939 <field field_ref="tankCH4" level="9" /> 940 <!-- Surface diagnostics (Precipitation) --> 941 <field field_ref="aer_prec" level="2" /> 942 <field field_ref="ccn_prec" level="2" /> 943 <field field_ref="iCH4_prec" level="2" /> 944 <field field_ref="iC2H2_prec" level="2" /> 945 <field field_ref="iC2H6_prec" level="3" /> 946 <field field_ref="iHCN_prec" level="3" /> 672 947 </field_group> 673 948 … … 675 950 <field_group operation="average" 676 951 freq_op="1ts"> 952 <!-- General diagnostics --> 677 953 <field field_ref="temp" level="1" /> 678 <field field_ref="teta" level=" 2" />954 <field field_ref="teta" level="9" /> 679 955 <field field_ref="p" level="1" /> 680 <field field_ref="pphi" level=" 1" />956 <field field_ref="pphi" level="9" /> 681 957 <field field_ref="u" level="1" /> 682 958 <field field_ref="v" level="1" /> 683 <field field_ref="w" level="2" /> 684 <field field_ref="HCN_tot" level="3" /> 685 <field field_ref="C2H2_tot" level="3" /> 686 <field field_ref="C2H6_tot" level="3" /> 687 <field field_ref="AC6H6_tot" level="3" /> 959 <field field_ref="w" level="1" /> 960 <!-- Winds trends --> 961 <field field_ref="dudyn" level="2" /> 962 <field field_ref="pdu" level="2" /> 963 <field field_ref="dudif" level="3" /> 964 <field field_ref="duadj" level="3" /> 965 <field field_ref="dundg" level="3" /> 966 <field field_ref="horizwind" level="3" /> 967 <!-- Heating trends --> 968 <field field_ref="dtdyn" level="2" /> 969 <field field_ref="pdt" level="2" /> 970 <field field_ref="dtrad" level="3" /> 971 <field field_ref="dtdif" level="3" /> 972 <field field_ref="dtadj" level="3" /> 973 <field field_ref="dtlc" level="3" /> 974 <field field_ref="dtsw" level="3" /> 975 <field field_ref="dtlw" level="3" /> 976 <!-- Optical diagnostics of haze --> 977 <field field_ref="tauhv_04" level="2" /> 978 <field field_ref="khv_04" level="1" /> 979 <field field_ref="wbarhv_04" level="2" /> 980 <field field_ref="gbarhv_04" level="3" /> 981 <field field_ref="tauhv_18" level="2" /> 982 <field field_ref="khv_18" level="1" /> 983 <field field_ref="wbarhv_18" level="2" /> 984 <field field_ref="gbarhv_18" level="3" /> 985 <field field_ref="tauhi_07" level="2" /> 986 <field field_ref="khi_07" level="1" /> 987 <field field_ref="wbarhi_07" level="2" /> 988 <field field_ref="gbarhi_07" level="3" /> 989 <field field_ref="tauhi_22" level="2" /> 990 <field field_ref="khi_22" level="1" /> 991 <field field_ref="wbarhi_22" level="2" /> 992 <field field_ref="gbarhi_22" level="3" /> 993 <!-- Optical diagnostics of haze + clouds --> 994 <field field_ref="taucv_04" level="2" /> 995 <field field_ref="kcv_04" level="1" /> 996 <field field_ref="wbarcv_04" level="2" /> 997 <field field_ref="gbarcv_04" level="3" /> 998 <field field_ref="taucv_18" level="2" /> 999 <field field_ref="kcv_18" level="1" /> 1000 <field field_ref="wbarcv_18" level="2" /> 1001 <field field_ref="gbarcv_18" level="3" /> 1002 <field field_ref="tauci_07" level="2" /> 1003 <field field_ref="kci_07" level="1" /> 1004 <field field_ref="wbarci_07" level="2" /> 1005 <field field_ref="gbarci_07" level="3" /> 1006 <field field_ref="tauci_22" level="2" /> 1007 <field field_ref="kci_22" level="1" /> 1008 <field field_ref="wbarci_22" level="2" /> 1009 <field field_ref="gbarci_22" level="3" /> 1010 <!-- Microphysical moments --> 1011 <field field_ref="mu_m0as" level="1" /> 1012 <field field_ref="mu_m3as" level="1" /> 1013 <field field_ref="mu_m0af" level="1" /> 1014 <field field_ref="mu_m3af" level="1" /> 1015 <field field_ref="mu_m0n" level="1" /> 1016 <field field_ref="mu_m3n" level="1" /> 1017 <field field_ref="mu_m3CH4" level="1" /> 1018 <field field_ref="mu_m3C2H2" level="1" /> 1019 <field field_ref="mu_m3C2H6" level="1" /> 1020 <field field_ref="mu_m3HCN" level="1" /> 1021 <!-- Microphysical diagnostics --> 1022 <field field_ref="rc_sph" level="2" /> 1023 <field field_ref="rc_fra" level="2" /> 1024 <field field_ref="rc_cld" level="2" /> 1025 <field field_ref="vsed_aers" level="2" /> 1026 <field field_ref="vsed_aerf" level="2" /> 1027 <field field_ref="vsed_ccn" level="2" /> 1028 <field field_ref="flux_aers" level="3" /> 1029 <field field_ref="flux_aerf" level="3" /> 1030 <field field_ref="flux_ccn" level="3" /> 1031 <field field_ref="flux_iCH4" level="3" /> 1032 <field field_ref="flux_iC2H2" level="3" /> 1033 <field field_ref="flux_iC2H6" level="3" /> 1034 <field field_ref="flux_iHCN" level="3" /> 1035 <field field_ref="CH4_sat" level="3" /> 1036 <field field_ref="C2H2_sat" level="3" /> 1037 <field field_ref="C2H6_sat" level="3" /> 1038 <field field_ref="HCN_sat" level="3" /> 1039 <!-- Chemical species --> 1040 <field field_ref="CH4" level="1" /> 1041 <field field_ref="C2H2" level="1" /> 1042 <field field_ref="C2H4" level="1" /> 1043 <field field_ref="C2H6" level="1" /> 1044 <field field_ref="HCN" level="1" /> 1045 <!-- Condensation tendencies --> 1046 <field field_ref="dmuficond_CH4" level="3" /> 1047 <field field_ref="dmuficond_C2H2" level="3" /> 1048 <field field_ref="dmuficond_C2H6" level="3" /> 1049 <field field_ref="dmuficond_HCN" level="3" /> 1050 <field field_ref="dqcond_HCN" level="3" /> 1051 <field field_ref="dqcond_C2H2" level="3" /> 1052 <field field_ref="dqcond_C2H6" level="3" /> 1053 <field field_ref="dqcond_CH4" level="3" /> 1054 <field field_ref="dqcond_AC6H6" level="3" /> 1055 <field field_ref="dqcond_C4H2" level="3" /> 1056 <field field_ref="dqcond_HC3N" level="3" /> 688 1057 </field_group> 689 1058 </file> 1059 <!-- ======================================================== --> 1060 690 1061 691 1062 <!-- Output file for DragonFly model intercomp - every Tday --> … … 695 1066 type="one_file" 696 1067 output_level="1" 697 enabled=". true.">1068 enabled=".false."> 698 1069 699 1070 <!-- VARS 0D --> … … 776 1147 <field field_ref="dqcond_CH4" name="dqcondCH4_max" level="1" /> 777 1148 </field_group> 778 779 1149 </file> 780 1150
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