Changes in namelists

 
Changes are detailed by contribution.
- New keys are in black
- Keys removed in red
- Keys modified (new options, options removed, changes of default values, name changed, change of namelist) in orange
- New namelist in green

ALADIN


no changes


CEN

  • NAM_ISBA_SNOWn :
    • LSNOWDRIFT is removed
    • CSNOWDRIFT: key to activate the snowdrift scheme, with 4 possible values (’NONE’,’DFLT’,’VI13’,’GA01’)
    • CSNOWRAD : key for radiative transfer scheme in snow in CROCUS. Options ’TAR’, ’TA1’ and ’TA2’ are removed. New value possible ’T17’.
    • LSNOWSYTRON: to activate the blowing snow module SYTRON (Vionnet et al, 2018)
    • CSNOWMETAMO: scheme of snow metamorphism (Crocus). 2 new options ’s-C’ and ’S-F’
    • CSNOWFALL: parameterization of falling snow density
    • CSNOWCOMP: parameterization of snow compaction
    • CSNOWCOND: parameterization of snow thermal conductivity from snow density
    • CSNOWHOLD: parameterization of maximum liquid water holding capacity in the bucket parameterization
    • LSNOWCOMPACT_BOOL: Activate grooming if True.
    • LSNOWTILLER: Switch for the activation of the tiller effect
    • LSNOWMAK_BOOL: Activate snowmaking if True.
    • LSNOWMAK_PROP: Activate machine made snow physical properties.
    • LSELF_PROD: Activate machine made snow physical properties.
    • CSNOWZREF: Reference heights for temperature and wind can be modified depending on snow depth when CSNOWZREF==’VAR’.
  • NAM_ISBAn
    • CSNOWRES: type of turbulent exchanges over snow.
    • XCVHEATF: Modify Cv to compensate biases in ground temperature.
  • NAM_SURF_ATM
    • LSLOPE: If True, correct parameterization of incoming radiations for homogeneous explicit slopes.
  • NAM_SURF_SNOW_CSTS
    • XPSR_SNOWMAK: Machine-made snow precipitation rate
    • XRHO_SNOWMAK: Machine-made snow density
    • XPTA_SEUIL: temperature threshold for machine-made snow production
    • XPROD_SCHEME: Snow production by machines in Crocus-RESORT
    • XSM_END: Month and day to stop grooming in Crocus-RESORT
    • XFREQ_GRO: Grooming frequency
    • XIMPUR_INIT(1): initial amount of black carbon present in the falling snow
    • XIMPUR_INIT(2): initial amount of dust present in the falling snow
    • XIMPUR_COEFF(1): dry deposition coefficient of black carbon over snow
    • XIMPUR_COEFF(2): dry deposition coefficient of dust over snow surface
  • NAM_PREP_ISBA_SNOW
    • NIMPUR : number of impurity
  • NAM_DIAG_ISBAn
    • LPROBANDS: Enable the spectral resolution of Crocus diagnostics
  • NAM_IO_OFFLINE
    • LWRITE_TOPO: If true, write metadata ZS, aspect, slope in the output file
    • CSPECSNOW: Enable spectral computation inside SURFEX/Crocus, necessary to run TARTES model.
    • LFORCIMP: If True, impurities are prescribed in the forcing file in variables IMPWET1, IMPDRY1, IMPWET2, IMPDRY2, etc.
    • NIMPUROF: Initialize the number of impurities in the OFFLINE module
    • LFORCATMOTARTES: to autorize forcing of total aerosol optical depth and ozone column


GMAP

  • NAM_SURF_ATM
    • LARP_PN: if True, to activate ARPEGE PN values for Cv and TAU_ICE
  • NAM_ZS
    • LORORAD: flag to activate orographic radiation parameters in PGD step (ORORAD)
    • NSECTORS: number of aspect sectors in ORORAD
    • XRFSSO: reduction factor for computing NFSSO
    • NFSSOMAX: max for NFSSO (limit for memory reasons)
    • XHALORADIUS: radius of the halo in which the horizon is computed (m)
    • CSVF: formula for SVF computation
    • LFSSOVF: compute SVF (sky view factor) on fractional slopes if possible
  • NAM_SSOn
    • LDSV: orographic shadowing, sky view factor (only if LORORAD = TRUE in PGD field)
    • LDSH:orographic shadowing, shadow factor (only if LORORAD = TRUE in PGD field)
    • LDSL:orographic shadowing, slope factor (only if LORORAD = TRUE in PGD field)
  • NAM_IO_OFFLINE
    • LFAGMAP: if TRUE, activate output files in GMAP FA format
  • NAM_ZS_FILTER
    • NOPTFILTER: Filtering option. If NOPTFILTER=1, new orographic filtering. If NOPTFILTER=0 (and RCOFILTER=1.0), orographic filtering is identical to before SURFEX V9.
    • RCOFILTER: Filter efficiency coefficient
    • RTHFILTER: Filtering threshold



TOPD

  • NAM_PGD_TOPD
    • LSUBCAT: If T, sub-catchments are defined (if LDUMMY_SUBCAT=F, they are defined automaticaly)
    • LDUMMY_SUBCAT: if T, sub-catchements are defined by the user.
    • NSUBCAT: Only if LDUMMY_SUBCAT=T, number of sub-catchments for the main catchment bv.
    • XLX: Only if LDUMMY_SUBCAT=T, X-coordinate (lambx for instance) of the outlet of the sub-catchement sbv of the main catchment bv. sbv is between 1 and NSUBCAT(bv)
    • XLY: Only if LDUMMY_SUBCAT=T, Y-coordinate (lamby for instance) of the outlet of the sub-catchement sbv of the main catchment bv. sbv is between 1 and NSUBCAT(bv)
    • CFILE_SUBCAT: File with information about the sub-catchments of the main catchment bv.
    • CSUBCAT: Name of the sub-catchments sbv of the main catchment bv.
    • LWRITE_SEVERITY_MAPS: If T, to produce some « severity maps »
  • NAM_TOPD
    • NFREQ_MAPS_RUNOFF: Frequency of writting saturated areas in files at specific format (.map)
    • XSPEEDH: Speed of water in the river for the catchment bv.
    • LSPEEDR_VAR: if T, the speed of water in the river is defined following the discharge value
    • XQINIT: Initial discharge for the catchment bv (in m³/s).
    • LPERT_PARAM: if T, the hydrodynamical parameters will be perturbed following the method of Edouard et al. 2016.
    • LPERT_INIT: If T, the initial conditions will be perturbed following the method of Edouard et al. 2016.



VEGEO - Irrigation

  • NAM_AGRI
    • LIRRIGMODE: flag to activate irrigation
    • NVEG_IRR: number of patch irrigated or/and with agricultural practices
    • NPATCH_TREE: tree patch distribution without irrigation/agricultural practices
    • XTHRESHOLD: successive threshold values to trigger the irrigation
    • NIRR_STOP_BTR:Number of days corresponding to the time when the irrigation stops before reaping.
  • NAM_DATA_ISBA
    Naming convention : XUNIF_*_C to give a constant value, identical for all vegetation types irrigated. XUNIF_*, to give a constant value, by vegetation types irrigated. XUNIF_*_CTIME, to give different values by decades (36 different for one year). CFNAME_* and CFTYP_* to indicate respectively the file name and the type of file.
    • NUNIF_VEG_IRR_USE: vegetation types irrigated or/and with agricultural practices
    • XUNIF_IRRIGTYPE_C, XUNIF_IRRIGTYPE, CFNAM_IRRIGTYPE, CFTYP_IRRIGTYPE: irrigation type (0 for none, 1 for sprinkling, 2 for dripping and 3 for flooding)
    • XUNIF_IRRIGFRAC_C, XUNIF_IRRIGFRAC, CFNAM_IRRIGFRAC, CFTYP_IRRIGFRAC: irrigation fraction [0-1] for each vegetation type
    • XUNIF_IRRIGFREQ_CTYPE: minimum time (in s) between two irrigation triggers or the 3 types of irrigation (sprinkling, dripping and flooding)
    • XUNIF_IRRIGFREQ_C, XUNIF_IRRIGFREQ, CFNAM_IRRIGFREQ, CFTYP_IRRIGFREQ: minimum time (in s) between two irrigation triggers
    • XUNIF_IRRIGTIME_C, XUNIF_IRRIGTIME, CFNAM_IRRIGTIME, CFTYP_IRRIGTIME: duration of irrigation (in s)
    • XUNIF_WATSUP_C, XUNIF_WATSUP_CTIME, XUNIF_WATSUP, CFNAM_WATSUP, CFTYP_WATSUP: irrigation amount (mm)
    • XUNIF_F2THRESHOLD_C, XUNIF_F2THRESHOLD_CTIME, XUNIF_F2THRESHOLD, CFNAM_F2THRESHOLD, CFTYP_F2THRESHOLD:threshold for irrigation triggering
    • XUNIF_SEED_M_C, XUNIF_SEED_M, CFNAM_SEED_M, CFTYP_SEED_M: seeding month and/or month of the beginning of irrigation
    • XUNIF_SEED_D_C, XUNIF_SEED_D, CFNAM_SEED_D, CFTYP_SEED_D: seeding day and/or day of the beginning of irrigation
    • XUNIF_REAP_M_C, XUNIF_REAP_M, CFNAM_REAP_M, CFTYP_REAP_M: reaping month and/or month corresponding to 2 weeks after the end of irrigation
    • XUNIF_REAP_D_C, XUNIF_REAP_D, CFNAM_REAP_D, CFTYP_REAP_D: reaping day and/or day corresponding to 2 weeks after the end of irrigation.
    • XUNIF_SEED_S2_M_C, XUNIF_SEED_S2_M, CFNAM_SEED_S2_M, CFTYP_SEED_S2_M, XUNIF_SEED_S2_D_C, XUNIF_SEED_S2_D, CFNAM_SEED_S2_D, CFTYP_SEED_S2_D, XUNIF_REAP_S2_M_C, XUNIF_REAP_S2_M, CFNAM_REAP_S2_M, CFTYP_REAP_S2_M, XUNIF_REAP_S2_D_C, XUNIF_REAP_S2_D, CFNAM_REAP_S2_D, CFTYP_REAP_S2_D, XUNIF_SEED_S3_M_C, XUNIF_SEED_S3_M, CFNAM_SEED_S3_M, CFTYP_SEED_S3_M, XUNIF_SEED_S3_D_C, XUNIF_SEED_S3_D, CFNAM_SEED_S3_D, CFTYP_SEED_S3_D, XUNIF_REAP_S3_M_C, XUNIF_REAP_S3_M, CFNAM_REAP_S3_M, CFTYP_REAP_S3_M, XUNIF_REAP_S3_D_C, XUNIF_REAP_S3_D, CFNAM_REAP_S3_D, CFTYP_REAP_S3_D: In a similar way to the previous keys, it is possible to define the dates for a second or third agricultural season. The nomenclature is identical, with “_S2” or “_S3” added.
    • XUNIF_SEED_D_DELTA: to change the seeding date by adding a delta value around the previously defined date.
    • XUNIF_REAP_D_DELTA: to change the reaping date by adding a delta value around the previously defined date.




OCEAN

  • NAM_PREP_SEAFLUX
    • CFILEWAVE_SEAFLX: name of the file used to define the significant wave height (Hs) and the peak period (Tp)
    • CTYPEWAVE: type of the CFILEWAVE_SEAFLX file if the latter is provided.
  • NAM_SEAFLUXn
    • LWAVEWIND: T for wave parameters computed from wind (default), put to F to take Hs or Tp values if initialized in PREP or if coupled.
    • NTIME_COUPLING: useless variable, the coupling time frequency between the surface and the 1D oceanic model is equal to the 1D oceanic model timestep, i.e. XOCEAN_TSTEP
    • CSEA_FLUX: new option ‘WASPV1’ and change in the default value, ‘ECUME’ => ‘ECUME6’
  • NAM_SFX_LAKE_CPL
    • CLAKE_WATF: net freshwater flux
  • NAM_SFX_SEA_CPL
    • CSEA_PRES: surface pressure over sea
  • NAM_SFX_WAVE_CPL
    • XTSTEP_CPL_WAVE: Coupling time step for waves
    • CWAVE_U10: zonal component of the wind at 10 meters
    • CWAVE_V10: meridian component of the wind at 10 meters
    • CWAVE_CHA: Charnock coefficient
    • CWAVE_UCU: zonal surface current (from wave model)
    • CWAVE_VCU: meridian surface current (from wave model)
    • CWAVE_HS: significant height
    • CWAVE_TP: peak period


MNH


no changes


TEB

  • NAM_DATA_TEB_HYDRO (New namelist if LURBHYDRO=T)
    • XUNIF_DENS_WASTE : waste water sewer depth
    • CFNAM_DENS_WASTE
    • CFTYP_DENS_WASTE
    • XUNIF_DENS_STORM
    • CFNAM_DENS_STORM
    • CFTYP_DENS_STORM
    • XUNIF_DSEWER
    • CFNAM_DSEWER
    • CFTYP_DSEWER
    • XIP_SEWER : parameter for parasite infiltrations into sewer
    • XCONNEX : impervious surfaces connexion rate to the sewer
    • XINFIL_ROAD : water infiltration through roads (kg/m2/s)
    • XWS_ROOF_MAX : max. capacity of surface roof water storage (mm)
    • XWS_ROAD_MAX : max. capacity of surface road water storage (mm)
    • XURBDRAIN : limitation of urban deep drainage
  • NAM_TEB_PANELn (New namelist if LSOLAR_PANEL=T)
    • CSOLAR_PANEL : solar panel option
  • NAM_SPARTACUS (New namelist if LSPARTACUS=T)
    • LDO_SW : Compute shortwave fluxes if activated
    • LDO_LW : Compute longwave fluxes if activated
    • LDO_VEGETATION : vegetation will be represented if activated
    • LDO_URBAN : urban areas will be represented if activated
    • LUSE_SW_DIRECT_ALBEDO : Specify ground and roof albedos separately for direct solar radiation
    • XMIN_VEGETATION_FRACTION : Minimum area fraction below which a vegetation region is removed completely
    • XMIN_BUILDING_FRACTION : Minimum area fraction below which a building region is removed completely
    • N_VEGETATION_REGION_URBAN : Number of regions used to describe urban vegetation (2 needed for heterogeneity)
    • N_STREAM_SW_URBAN : Number of streams per hemisphere to describe diffuse
      shortwave radiation, urban areas
    • N_STREAM_LW_URBAN : Number of streams per hemisphere to describe
      longwave radiation, urban areas
    • LUSE_SYMMETRIC_VEGETATION_SCALE_URBAN : If TRUE, tree crowns touch
      each other; Eq. 20 of Hogan et al. (2018). If FALSE, tree crowns separate (shyness); Eq. 19 of Hogan et al. (2018)
    • XVEGETATION_ISOLATION_FACTOR_URBAN : 0.0 = Dense vegetation region is embedded within sparse region and 1.0 = Dense vegetation is in physically isolated regions
  • NAM_TEB
    • CROAD_GRID : type of vertical grid for soil and roads
    • CURBTREE : TEB option for the high vegetation, street trees or green walls
    • NMASS_LAYER : Number of floor layers
    • NBEMCOMP : Number of compartments in BEM
    • NTIME_CHANGE : Number of time shifts during simulation (e.g. between winter time and daylight savings time)
    • LEXPLW : Key for explicit calculation of longwave radiation
    • LSPARTACUS : Key for SPARTACUS-Surface activation
    • LURBHYDRO : urban subsoil and hydrology processes (before LHYDRO)
    • LHYDRO : replaced by LURBHYDRO
    • NROAD_LAYER : replaced by CROAD_GRID
    • LCHECK_TEB : If True, verification of energy budget for TEB
    • XEPS_BDGT_GLOB : Difference allowed in energy budget for TEB for global processes.
    • XEPS_BDGT_FAC : Difference allowed in energy budget for TEB for facade processes.
  • NAM_DATA_TEB_GARDEN
    • CSHAPE_GARDEN_HVEG : shape of crown for urban trees
    • XUNIF_HTRUNK_HVEG : uniform value for height of TRUNK of trees (m)
    • CFNAM_HTRUNK_HVEG : file name for height of TRUNK of trees (m)
    • CFTYP_HTRUNK_HVEG : file type for height of TRUNK of trees (m)
    • XUNIF_WCROWN_HVEG : uniform value for width of crown of trees (m)
    • CFNAM_WCROWN_HVEG : file name for width of crown of trees (m)
    • CFTYP_WCROWN_HVEG : file type for width of crown of trees (m)
    • XUNIF_RE25 : uniform value for ecosystem respiration parameter (kg/m²/s)
    • CFNAM_RE25 : file name for ecosystem respiration parameter (kg/m²/s)
    • CFTYP_RE25 : file type for ecosystem respiration parameter (kg/m²/s)
    • XUNIF_FRAC_HVEG : is moved from NAM_DATA_TEB_GARDEN to NAM_DATA_TEB.
    • XUNIF_FRAC_LVEG : is moved from NAM_DATA_TEB_GARDEN to NAM_DATA_TEB.
    • XUNIF_FRAC_NVEG : is moved from NAM_DATA_TEB_GARDEN to NAM_DATA_TEB.
    • CFNAM_HVEG : is moved from NAM_DATA_TEB_GARDEN to NAM_DATA_TEB.
    • CFNAM_LVEG : is moved from NAM_DATA_TEB_GARDEN to NAM_DATA_TEB.
    • CFNAM_NVEG : is moved from NAM_DATA_TEB_GARDEN to NAM_DATA_TEB.
    • CFTYP_HVEG : is moved from NAM_DATA_TEB_GARDEN to NAM_DATA_TEB.
    • CFTYP_LVEG : is moved from NAM_DATA_TEB_GARDEN to NAM_DATA_TEB.
    • CFTYP_NVEG : is moved from NAM_DATA_TEB_GARDEN to NAM_DATA_TEB.
  • NAM_DATA_TEB
    Naming convention : XUNIF_* is to give a constant value for a parameter. CFNAME_* and CFTYP_* to indicate respectively the file name and the type of file for this parameter.
    • XUNIF_ROAD: vegetation types irrigated or/and with agricultural practices
    • CCSVFILEARCHI: CSV-file containing information on architectural characteristics of building archetypes.
    • CCSVFILECOMPO: CSV-file containing information on human behaviours as a function of building use.
    • NUNIF_BLDTYPE, CFNAM_BLDTYPE, CFTYP_BLDTYPE: Identifier for building type (see documentation for identifier of building type)
    • NUNIF_IND_BLD_AGE, CFNAM_IND_BLD_AGE, CFTYP_IND_BLD_AGE: building’s age (individual housing). See documentation for identifier of building construction period.
    • NUNIF_COL_BLD_AGE, CFNAM_COL_BLD_AGE, CFTYP_COL_BLD_AGE: building’s age (collective housing). See documentation for identifier of building construction period.
    • NUNIF_USETYPE, CFNAM_USETYPE, CFTYP_USETYPE: Identifier for building use. See documentation.
    • NUNIF_P1TERRITORY, CFNAM_P1TERRITORY, CFTYP_P1TERRITORY: historical building material territory (before 1948). See documentation for identifier of construction material regions.
    • NUNIF_PXTERRITORY, CFNAM_PXTERRITORY, CFTYP_PXTERRITORY: recent building material territory (before 1948). See documentation for identifier of construction material regions.
    • XUNIF_FRACIHS, CFNAM_FRACIHS, CFTYP_FRACIHS: individual housing fraction
    • XUNIF_FRACCHS, CFNAM_FRACCHS, CFTYP_FRACCHS: collective housing fraction
    • XUNIF_FRACCOM, CFNAM_FRACCOM, CFTYP_FRACCOM: commercial fraction
    • XUNIF_FRACTER, CFNAM_FRACTER, CFTYP_FRACTER: tertiary fraction
    • XUNIF_FRACIND, CFNAM_FRACIND, CFTYP_FRACIND: industrial fraction
    • XUNIF_FRACNHE, CFNAM_FRACNHE, CFTYP_FRACNHE: non or poor heated uses
    • XUNIF_FRACPAV, CFNAM_FRACPAV, CFTYP_FRACPAV: pavillionary building fraction
    • XUNIF_FRACMRI, CFNAM_FRACMRI, CFTYP_FRACMRI: mid-rise building fraction
    • XUNIF_FRACHRI, CFNAM_FRACHRI, CFTYP_FRACHRI: high-rise building fraction
    • XUNIF_FRACATB, CFNAM_FRACATB, CFTYP_FRACATB: activity building fraction
    • XUNIF_FOEQI_MAIS, CFNAM_FOEQI_MAIS, CFTYP_FOEQI_MAIS: fraction of strong equipment and use in individual housing.
    • XUNIF_FOEQI_APPT, CFNAM_FOEQI_APPT, CFTYP_FOEQI_APPT: fraction of strong equipment and use in collective housing.
    • XUNIF_FAEQI_MAIS, CFNAM_FAEQI_MAIS, CFTYP_FAEQI_MAIS: fraction of weak equipment and use in individual housing.
    • XUNIF_FAEQI_APPT, CFNAM_FAEQI_APPT, CFTYP_FAEQI_APPT: fraction of weak equipment and use in collective housing.
    • XUNIF_CRE_MAIS, CFNAM_CRE_MAIS, CFTYP_CRE_MAIS: fraction of high regulation in individual housing
    • XUNIF_CRE_APPT, CFNAM_CRE_APPT, CFTYP_CRE_APPT: fraction of high regulation in collective housing
    • XUNIF_HC_COATING_ROAD, CFNAM_HC_COATING_ROAD, CFTYP_HC_COATING_ROAD: road coating heat capacity (J/K/m3)
    • XUNIF_TC_COATING_ROAD, CFNAM_TC_COATING_ROAD, CFTYP_TC_COATING_ROAD: road coating thermal conductivity (W/K/m)
    • XUNIF_D_COATING_ROAD, CFNAM_D_COATING_ROAD, CFTYP_D_COATING_ROAD: depth of road coating (m).
    • XUNIF_HC_BASEMENT_ROAD, CFNAM_HC_BASEMENT_ROAD, CFTYP_HC_BASEMENT_ROAD: road basement heat capacity (J/K/m3)
    • XUNIF_TC_BASEMENT_ROAD, CFNAM_TC_COATING_ROAD, CFTYP_TC_BASEMENT_ROAD: road basement thermal conductivity (W/K/m)
    • XUNIF_FRAC_HVEG, CFNAM_FRAC_HVEG, CFTYP_FRAC_HVEG : fraction of high vegetation (before in NAM_DATA_TEB_GARDEN)
    • XUNIF_FRAC_LVEG, CFNAM_FRAC_LVEG, CFTYP_FRAC_LVEG : fraction of low vegetation (before in NAM_DATA_TEB_GARDEN)
    • XUNIF_FRAC_NVEG, CFNAM_FRAC_NVEG, CFTYP_FRAC_NVEG: fraction of bare soil (before in NAM_DATA_TEB_GARDEN)
    • XUNIF_NB_POP, CFNAM_NB_POP, CFTYP_NB_POP: uniform value for population per square kilometer
    • XUNIF_SFCO2_RD, CFNAM_SFCO2_RD, CFTYP_SFCO2_RD: uniform value for CO2 flux link to traffic roads (kg/m2 of town/s)
    • XUNIF_DELTA_LEGAL_TIME, CFNAM_DELTA_LEGAL_TIME, CFTYP_DELTA_LEGAL_TIME :difference between UTC and legal time (in hour)
    • XUNIF_TIME_OF_CHANGE: time of time change of the legal hour.
    • XPAR_TRAF_MONTHLY: monthly cycle of traffic
    • XPAR_TRAF_DAILY: daily cycle of traffic from monday to sunday
    • XPAR_TRAF_HOURLY: hourly cycle of traffic from 00h to 23h.
    • XPAR_POP_MONTHLY: monthly cycle of inhabitants density
    • XPAR_POP_DAILY: daily cycle of inhabitants density from monday to sunday
    • XPAR_POP_HOURLY: hourly cycle of inhabitants density from 00h to 23h
    • NPAR_ROAD_LAYER : removed
    • NUNIF_BLD_AGE,CFNAM_BLD_AGE, CFTYP_BLD_AGE : removed
    • CCSVDATAFILE : removed
    • XUNIF_GARDEN, CFNAM_GARDEN, CFTYP_GARDEN : removed
    • XUNIF_HC_ROAD, CFNAM_HC_ROAD, CFTYP_HC_ROAD : splitted into XUNIF_TC_COATING_ROAD & XUNIF_TC_BASEMENT_ROAD
    • XUNIF_TC_ROAD,CFNAM_TC_ROAD, CFTYP_TC_ROAD : splitted into XUNIF_HC_COATING_ROAD & XUNIF_HC_BASEMENT_ROAD
    • XUNIF_D_ROAD, CFNAM_D_ROAD, CFTYP_D_ROAD : replaced by XUNIF_D_COATING, CFNAM_D_COATING, CFTYP_D_COATING
  • NAM_DIAG_ISBAn
    • LUTCI : flag to compute UTCI quantities in rural areas
  • NAM_PREP_TEB
    • LATM_CANOPY : flag to replace canopy prognostic variables by atmospheric models prognostic variables
    • XTDEEP_TEB : deep temperature for TEB soil (K) (called XTI_ROAD before V9)
    • XTS_BLD : soil below buildings uniform temperature (K)
    • XTI_ROAD : removed and replace by XTDEEP_TEB
  • NAM_IO_OFFLINE
    • CINTERP_SW : method to temporal interpolation of SW forcing. The following options are currently available :
      • ‘ZEN’ : interpolation using theorical zenithal angle dependancy
      • ‘LIN’ : linear temporal interpolation of SW forcing (method used before when LINTERP_SW=FALSE)
      • ‘OLD’ : interpolation using simple zenithal angle dependancy (method used before when LINTERP_SW=TRUE)
    • LINTERP_SW : replaced by CINTERP_SW
  • NAM_DATA_BEM
    XUNIF_* : uniform value for…
    CFNAM_*: file name for…
    CFTYP_*: file type for…
    • NPAR_MASS_LAYER : Number of layers (up to 9) for the internal mass in input data. This does NOT refer to the computational grid. The mass properties are interpolated from the input grid to the computational grid.
    • XPAR_CF_CO2_ELEC : Emission factor CO2/electricity [KgCO2.J-1]
    • XPAR_CF_CO2_GAS : Emission factor CO2/gas [KgCO2.J-1]
    • XPAR_CF_CO2_FUEL : Emission factor CO2/fuel [KgCO2.J-1]
    • XPAR_CF_CO2_OTHER : Emission factor CO2/other source [KgCO2.J-1]. The defaults emission factor assumes wood.
    • XUNIF_HC_MASS / CFNAM_HC_MASS / CFTYP_HC_MASS : heat capacity of up to 9 mass layers [J/K/m3]
    • XUNIF_TC_MASS / CFNAM_TC_MASS / CFTYP_TC_MASS : thermal conductivity of up to 9 mass layers [W/m/K]
    • XUNIF_D_MASS / CFNAM_D_MASS / CFTYP_D_MASS : depth of up to 9 mass layers [m]
    • XUNIF_TCOOL_TARGET / CFNAM_TCOOL_TARGET / CFTYP_TCOOL_TARGET : removed and replaced by the more detailed design temperature
    • XUNIF_THEAT_TARGET / CFNAM_THEAT_TARGET / CFTYP_THEAT_TARGET : removed and replaced by the more detailed design temperature
    • XUNIF_EFF_HEAT / CFNAM_EFF_HEAT/ CFTYP_EFF_HEAT : removed, now the efficiency per type of heating combustible is specified in modd_bem_optionn.
    • XUNIF_DCS_AREA / CFNAM_DCS_AREA / CFTYP_DCS_AREA : presence of district cooling system
    • XUNIF_MODQIN_VCD / CFNAM_MODQIN_VCD / CFTYP_MODQIN_VCD : Modulation factor for internal heat release when the building is vacant for short duration
    • XUNIF_MODQIN_VLD / CFNAM_MODQIN_VLD / CFTYP_MODQIN_VLD : Modulation factor for internal heat release when the building is vacant for long duration (e.g. holiday home)
    • XUNIF_MODQIN_NIG / CFNAM_MODQIN_NIG / CFTYP_MODQIN_NIG : Modulation factor for internal heat release during the night
    • XUNIF_N50 / CFNAM_N50 / CFTYP_N50 : Airtightness of the building [vol.h-1 at 5O Pa] This parameter is used to calculate the infiltration rate.
    • XUNIF_COP_DCS / CFNAM_COP_DCS / CFTYP_COP_DCS : Rated COP of the district cooling system
    • XUNIF_INF / CFNAM_INF / CFTYP_INF : removed
    • XUNIF_V_VENT / CFNAM_V_VENT / CFTYP_V_VENT : removed
    • XUNIF_ISMECH / CFNAM_ISMECH / CFTYP_ISMECH : control variable for presence of mechanical ventilation (1=YES, 0=NO)
    • XUNIF_MECHRATE / CFNAM_MECHRATE / CFTYP_MECHRATE : air exchange due to mechanical ventilation [vol./h]. Replace the old keys XUNIF_V_VENT, CFNAM_V_VENT, CFTYPE_V_VENT.
    • XUNIF_SHADEARCHI / CFNAM_SHADEARCHI / CFTYP_SHADEARCHI : presence of shading devices (0= no shading devices, 1=adjustable shading devices, 2=permanent shading devices) Replace the old keys XUNIF_SHADE, CFNAM_SHADE, CFTYP_SHADE.
    • XUNIF_SHADE / CFNAM_SHADE / CFTYP_SHADE : removed and replaced by XUNIF_SHADEARCHI
    • XUNIF_FRACOMP / CFNAM_FRACOMP / CFTYP_FRACOMP : fractions of up to 9 tiles of building use/human behaviour. The sum of the fractions must equal 1.
    • XUNIF_NATVENT / CFNAM_NATVENT / CFTYP_NATVENT : change of dimension. Now NBEMCOMP (NBEMCOMP=1 by default)
    • XUNIF_RESIDENTIAL / CFNAM_RESIDENTIAL / CFTYP_RESIDENTIAL :residential fractions (only used for solar panel)
    • XUNIF_TDESV / CFNAM_TDESV / CFTYP_TDESV : indoor air temperature, people or automatic ventilation try to achieve by opening/closing of windows [K]
    • XUNIF_WIN_SW_MAX / CFNAM_WIN_SW_MAX / CFTYP_WIN_SW_MAX : threshold for shortwave radiation received by walls used for shading calculations [W/m²]
    • XUNIF_FOPEN / CFNAM_FOPEN / CFTYP_FOPEN : maximum fraction of windows opened in cas ventilation is made.
    • XUNIF_FVSUM / CFNAM_FVSUM / CFTYP_FVSUM : fraction of households using natural ventilation when the building during summer (warm conditions).
    • XUNIF_FVVAC / CFNAM_FVVAC / CFTYP_FVVAC : fraction of households using natural ventilation when the building is vacant.
    • XUNIF_FVNIG / CFNAM_FVNIG / CFTYP_FVNIG : fraction of households using natural ventilation during the night
    • XUNIF_FSSUM / CFNAM_FSSUM / CFTYP_FSSUM : fraction of households closing shading elements during summer (warm conditions)
    • XUNIF_FSVAC / CFNAM_FSVAC / CFTYP_FSVAC : fraction of households closing shading elements when the building is vacant.
    • XUNIF_FSNIG / CFNAM_FSNIG / CFTYP_FSNIG : fraction of households closing shading elements during the night.
    • XUNIF_DAYWBEG_SCHED / CFNAM_DAYWBEG_SCHED / CFTYP_DAYWBEG_SCHED : Day of the week for schedules on human behaviour. [1=Monday ; 7 = Saturday].
    • XUNIF_HOURBEG_SCHED / CFNAM_HOURBEG_SCHED / CFTYP_HOURBEG_SCHED : Hour of the day [solar time] for schedules of human behaviour
    • XUNIF_PROBOCC / CFNAM_PROBOCC / CFTYP_PROBOCC : Probability that the building is occupied for the schedules defined by DAYWBEG_SCHED and HOURBEG_SCHED
    • XUNIF_BEG_HOLIDAY / CFNAM_BEG_HOLIDAY / CFTYP_BEG_HOLIDAY : Julian day of year of the beginning of holiday period.
    • XUNIF_END_HOLIDAY / CFNAM_END_HOLIDAY / CFTYP_END_HOLIDAY :Julian day of year of the end of holiday period.
    • XUNIF_MOD_HOLIDAY / CFNAM_MOD_HOLIDAY / CFTYP_MOD_HOLIDAY : Modulation factor for internal heat release during holiday period
    • XUNIF_TCOOL_OCCD / CFNAM_TCOOL_OCCD / CFTYP_TCOOL_OCCD : Design temperature for air conditioning when the building is occupied (OCC) during the day (D) [K].
    • XUNIF_TCOOL_OCCN / CFNAM_TCOOL_OCCN / CFTYP_TCOOL_OCCN : Design temperature for air conditioning when the building is occupied (OCC) during the night (N) [K].
    • XUNIF_TCOOL_VCDD / CFNAM_TCOOL_VCDD / CFTYP_TCOOL_VCDD : Design temperature for air conditioning when the building is vacant (VC) During the Day (DD) [K].
    • XUNIF_TCOOL_VCDN / CFNAM_TCOOL_VCDN / CFTYP_TCOOL_VCDN : Design temperature for air conditioning when the building is vacant (VC) During the Night (DN) [K].
    • XUNIF_TCOOL_VCLD / CFNAM_TCOOL_VCLD / CFTYP_TCOOL_VCLD : Design temperature for air conditioning when the building is vacant (VC) for Long Duration (LD) [K].
    • XUNIF_THEAT_OCCD / CFNAM_THEAT_OCCD / CFTYP_THEAT_OCCD : Design temperature for heating when the building is occupied (OCC) during the day (D) [K].
    • XUNIF_THEAT_OCCN / CFNAM_THEAT_OCCN / CFTYP_THEAT_OCCN : Design temperature for heating when the building is occupied (OCC) during the night (N)
    • XUNIF_THEAT_VCDD / CFNAM_THEAT_VCDD / CFTYP_THEAT_VCDD : Design temperature for heating when the building is vacant (VC) During the Day (DD) [K].
    • XUNIF_THEAT_VCDN / CFNAM_THEAT_VCDN / CFTYP_THEAT_VCDN :Design temperature for heating when the building is vacant (VC) During the Night (DN) [K].
    • XUNIF_THEAT_VCLD / CFNAM_THEAT_VCLD / CFTYP_THEAT_VCLD : Design temperature for heating when the building is vacant (VC) for Long Duration (LD) [K].
    • XUNIF_QIN / CFNAM_QIN / CFTYP_QIN : Internal heat release [W/m²(floor)].
    • XUNIF_QIN_FRAD / CFNAM_QIN_FRAD / CFTYP_QIN_FRAD : Radiant fraction of internal heat gains
    • XUNIF_QIN_FLAT / CFNAM_QIN_FLAT / CFTYP_QIN_FLAT : Latent frantion of internal heat gains
    • XUNIF_FRAC_HEAT_ELEC / CFNAM_FRAC_HEAT_ELEC / CFTYP_FRAC_HEAT_ELEC : Fraction of households with electricity as heating combustible
    • XUNIF_FRAC_HEAT_GAS / CFNAM_FRAC_HEAT_GAS / CFTYP_FRAC_HEAT_GAS : Fraction of households with gas as heating combustible
    • XUNIF_FRAC_HEAT_FUEL / CFNAM_FRAC_HEAT_FUEL / CFTYP_FRAC_HEAT_FUEL :Fraction of households with fuel as heating combustible
    • XUNIF_FRAC_HEAT_OTHER / CFNAM_FRAC_HEAT_OTHER / CFTYP_FRAC_HEAT_OTHER : Fraction of households with other heating combustibles (e.g. wood)
    • XUNIF_HOTWAT / CFNAM_HOTWAT / CFTYP_HOTWAT :Energy consumption for domestic warm water [W/m²(floor)]. It can be specified for up to 9 tiles of building use and human behaviour.
    • XUNIF_F_HW_GAS / CFNAM_F_HW_GAS / CFTYP_F_HW_GAS : Fraction of domestic warm water heated with gas [1]. The remainder is assumed to be heated with electricity.
  • NAM_PGD_ARRANGE_COVER
    • LTOWN_TO_COVER : Option to replace (if TRUE) urban landuse by the ecoclimap cover ICOVER
    • NREPLACE_COVER: cover number to replace urban by this cover. If LTOWN_TO_COVER=TRUE and NREPLACE=ICOVER, the urban landuse is replaced by the ECOCLIMAP cover number ICOVER (ICOVER must be present in the domain)
  • NAM_TEBn
    • CURB_LM : option to compute urban mixing length
    • CZ0EFF_GD: TEB option for effective roughness length for low urban vegetation
    • XDT_RES
    • XDT_OFF



GMGEC

  • NAM_IO_OFFLINE
    • LLAND_USE is removed. Simplification of land use procedure, see new LLULCC key.
    • LGRID_MODE: To declare fields for xios with a grid rather than a domain
    • LNEW_TIME_INTERP_ATM: new forcing interpolation procedure
    • CTIME_INTERP_PRCP:if the new LNEW_TIME_INTERP_ATM is true, user can choose between 3 options to interpolate precipitation forcing
  • NAM_SURF_ATM
    • LCO2FOS: To add fossil fuel emissions to natural CO2 emissions from ISBA
  • NAM_SURF_ATMn
    • LDIAG_MIP: flag to perform intercomparison of land surface model diagnostics as required by several MIP
  • NAM_SEAFLUXn
    • CINTERPOL_SST: new option ’READAY’ to impose directly daily SST
    • CINTERPOL_SSS: new option ’READAY’ to impose directly daily SSS
    • CSEA_SFCO2: Empirical CO2 emission from sea surface (’NONE’ = no emission / ’WIND’ = Wanninkhof medium hypothesis using only wind speed as CO2 emission proxy (very empirical)
  • NAM_SEAICEn
    • CINTERPOL_SIC: new option ’READAY’ to impose directly daily SIC
    • CINTERPOL_SIT: new option ’READAY’ to impose directly daily SIT
  • NAM_ISBA_AGSn
    • LDOWNREGU: downregulation parameterization of CO2 assimilation for CPHOTO=’NCB’ option.
    • XCNLIM: carbon nitrogen limitation parameter used in both the LNITRO_DILU and the LDOWNREGU options.
  • NAM_PREP_ISBA_CARBON
    • CRESPSL: Soil respiration option. Options modified and one new option: ’DEF’ = no soil respiration / ’N92’ = old ’DEF’ option Norman et al. 1992 / ’DIF’activation of the carbon soil dynamics (discretization of soil carbon) from Morel et al. 2019 (JAMES)
    • LSOILGAS:activation of the soil gas diffusion module to simulate O2, CO2 and CH4 soil dynamics from Morel et al. 2019 (JAMES). !!! this scheme is actually a prototype !!!
  • NAM_DIAG_ISBAn
    • LLUTILES_BUDGET: flag to bring together diag from the ISBA patches into 4 surface covers type required for land-use-land-cover purpose (not implemented for ECOCLIMAP-SG)
  • NAM_SPINUP_CARBn is removed and replaced by the new namelist NAM_ISBA_CCn
  • NAM_ISBA_CCn : new namelist to control ISBA-CC scheme as published in Delire et al. 2020 (JAMES)
    • LSPINUPCARBS: to activate soil carbon spinup
    • XSPINMAXS: To define the spinup time step as the increase of the physical time step by a factor equal to XSPINMAXS
    • NNBYEARSPINS:number of years needed to reach soil equilibrium
    • XMISSFCO2:Missing carbon flux (cf. anthropic) required for ESM coupling in emission mode
    • LFIRE:flag to activate simple biomass fire module
    • LCLEACH:flag to activate soil carbon leaching that produce dissolved organic carbon that can be routed by CTRIP
    • LADVECT_SOC:flag to activate vertical advection scheme for soil dynamics carbon module, only if CRESPSL = DIF
    • LCRYOTURB:flag to activate vertical cryoturbation scheme if CRESPSL = DIF
    • LBIOTURB:flag to activate vertical bioturbation scheme if CRESPSL = DIF
  • NAM_ISBA_NUDGINGn : new namelist to control ISBA snow and soil moisture nudging.
    • LNUDG_SWE: to activate the snow’s nudging
    • LNUDG_SWE_MASK:to restric the snow nudging to a given region, that is the nudging can be only regional
    • XTRELAX_SWE:relaxation time for the snow’s nudging
    • CNUDG_WG:key to activate the soil water’s nudging (options are ’DEF = no nudging / ’DAY’ = daily nudging / ’MTH’ = monthly nudging)
    • LNUDG_WG_MASK:to restric the soil water’s nudging to a given region, that is the nudging can be only regional
    • XTRELAX_WG: relaxation time for the soil water’s nudging
    • XNUDG_Z_WG:vertical profile for the soil water’s nudging
  • NAM_SFW_LAND_CPL
    • CDOCFLUX:coupling DOC flux when LCLEACH = True
    • CTWS:coupling variable that allow to compute the Terrestrial Water Storage (TWS)
  • NAM_SFW_SEA_CPL
    • LSEAICE_2FLX:to activate a tile scheme to compute fluxes over sea and sea-ice separately
    • CSEA_CO2:coupling variable that allow to send cumulated atmospheric CO2 in ppm.s to ocean model
    • CSEA_FCO2: coupling variable that allow to get CO2 fluxes produces by the oceanic biogeochemistry scheme

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