NAM_BU_RTH

NAM_BU_RTH content

Fortran name

Fortran type

Default value

LBU_RTH

LOGICAL

.FALSE.

CBULIST_RTH

ARRAY(CHARACTER)

  • LBU_RTH : flag to activate budget for potential temperature

  • CBULIST_RTH : list of source terms

Note

Description of the names to be used for the different source terms in the CBULIST_RTH array and the conditions of their availability:

Source terms (except water microphysical schemes)

Name

Description

Condition(s)

ALL

all available source terms (separated, water microphysics included)

no condition

ASSE

time filter (Asselin)

CUVW_ADV_SCHEME(1:3)=’CEN’ and CTEMP_SCHEME=’LEFR’

NEST

nesting

NMODEL>1

VISC

viscosity

LVISC=T and LVISC_TH=T

OCEAN

radiative tendency due to SW penetrating ocean

LOCEAN .AND. (.NOT. LCOUPLES)

ADV

total advection

no condition

FRC

forcing

LFORCING=T

2DADV

advective forcing

L2D_ADV_FRC=T

2DREL

relaxation forcing

L2D_REL_FRC=T

NUD

nudging

LNUDGING=T

PREF

reference pressure

L1D=F and number of moist variables > 0

DIF

numerical diffusion

LNUMDIFTH=T

REL

relaxation

LHORELAX_UVWTH=T or LVE_RELAX=T or LVE_RELAX_GRD=T

RAD

radiation

CRAD/=’NONE’

DCONV

KAFR convection

CDCONV=’KAFR’ or CSCONV=’KAFR’

BLAZE

Blaze fire model

LBLAZE=T

DRAGB

heat released by buildings

LDRAGBLDG=T

HTURB

horizontal turbulent diffusion

CTURB=’TKEL’ and CTURBDIM=’3DIM’

VTURB

vertical turbulent diffusion

CTURB=’TKEL’

DISSH

dissipation

CTURB=’TKEL’

MAFL

mass flux

CSCONV=’EDKF’

SNSUB

blowing snow sublimation

LBLOWSNOW=T and LSNOWSUBL=T

LIMA source terms

Name

Description

Condition(s)

SEDI

heat transport by hydrometeors sedimentation

LPTSPLIT=T

HENU

heterogeneous nucleation

NMOM_C>=1 and LACTI=T and NMOD_CCN>0 and (LPTSPLIT=F or LSUBG_COND=F)

REVA

rain evaporation

LPTSPLIT=T or (NMOM_C>=1 and NMOM_R>=1)

HIN

heterogeneous ice nucleation

NMOM_I=1

HIND

heterogeneous nucleation by deposition

NMOM_I>=1 and LNUCL=T

HINC

heterogeneous nucleation by contact

NMOM_I>=1 and LNUCL=T

HONH

haze homogeneous nucleation

NMOM_I>=1 and LNUCL=T and LHHONI=T and NMOD_CCN>0

HONC

droplet homogeneous freezing

LPTSPLIT=T or (NMOM_I>=1 and NMOM_C>=1 and LNUCL=T)

HONR

rain homogeneous freezing

LPTSPLIT=T or (NMOM_I>=1 and NMOM_C>=1 and LNUCL=T and NMOM_R>=1)

DEPS

deposition on snow

LPTSPLIT=T or (NMOM_I>=1 and NMOM_S>=1)

DEPI

condensation/deposition on ice

LPTSPLIT=T

DEPG

deposition on graupel

LPTSPLIT=T or (NMOM_I>=1 and NMOM_C>=1 and NMOM_S>=1)

DEPH

deposition on hail

LPTSPLIT=T or NMOM_H>=1

IMLT

melting of ice

LPTSPLIT=T or (NMOM_I>=1 and NMOM_C>=1)

BERFI

Bergeron-Findeisen

LPTSPLIT=T or (NMOM_I>=1 and NMOM_C>=1)

RIM

riming of cloud water

LPTSPLIT=T or (NMOM_I>=1 and NMOM_C>=1 and NMOM_S>=1)

ACC

accretion of rain on aggregates

LPTSPLIT=T or (NMOM_I>=1 and NMOM_C>=1 and NMOM_S>=1 and NMOM_R>=1)

CFRZ

conversion freezing of rain

LPTSPLIT=T or (NMOM_I>=1 and NMOM_C>=1 and NMOM_S>=1)

WETG

wet growth of graupel

LPTSPLIT=T or (NMOM_I>=1 and NMOM_C>=1 and NMOM_S>=1)

DRYG

dry growth of graupel

LPTSPLIT=T or (NMOM_I>=1 and NMOM_C>=1 and NMOM_S>=1)

GMLT

graupel melting

LPTSPLIT=T or (NMOM_I>=1 and NMOM_C>=1 and NMOM_S>=1)

WETH

wet growth of hail

LPTSPLIT=T or (NMOM_H>=1 and NMOM_I>=1 and NMOM_C>=1 and NMOM_S>=1)

HMLT

melting of hail

LPTSPLIT=T or (NMOM_H>=1 and NMOM_I>=1 and NMOM_C>=1 and NMOM_S>=1)

CEDS

adjustment to saturation

no condition

NEGA

negativity correction

no condition

NETUR

negativity correction induced by turbulence

CTURB=’TKEL’

NEADV

negativity correction induced by advection

no condition

NECON

negativity correction induced by condensation

no condition

ICE3 / ICE4 source terms

Name

Description

Condition(s)

REVA

rain evaporation

NMOM_C>=1

HIN

heterogeneous ice nucleation

no condition

HON

homogeneous nucleation

no condition

SFR

spontaneous freezing

no condition

DEPS

deposition on snow

no condition

DEPG

deposition on graupel

no condition

DEPH

deposition on hail

CCLOUD=’ICE4’

IMLT

melting of ice

no condition

BERFI

Bergeron-Findeisen

no condition

RIM

riming of cloud water

no condition

ACC

accretion of rain on aggregates

no condition

CFRZ

conversion freezing of rain

no condition

WETG

wet growth of graupel

no condition

DRYG

dry growth of graupel

no condition

GMLT

graupel melting

no condition

WETH

wet growth of hail

CCLOUD=’ICE4’

DRYH

dry growth of hail

CCLOUD=’ICE4’ and LRED=T and CELEC=’NONE’

HMLT

melting of hail

CCLOUD=’ICE4’

ADJU

adjustment to saturation

LRED=T and LADJ_BEFORE=T and CELEC/=’ELE3’

DEPI

condensation/deposition on ice

LRED=F or ( LRED=T and LADJ_AFTER=T) or CELEC/=’NONE’

CORR

correction

LRED=T and CELEC/=’ELE3’

NEGA

negativity correction

no condition

NETUR

negativity correction induced by turbulence

CTURB=’TKEL’

NEADV

negativity correction induced by advection

no condition

NECON

negativity correction induced by condensation

no condition

C2R2 / KHKO source terms

Name

Description

Condition(s)

HENU

heterogeneous nucleation

LSUPSAT=F or (CACTCCN=’ABRK’ and (LORILAM=T or LDUST=T or LSALT=T))

REVA

rain evaporation

NMOM_R>=1

COND

vapor condensation or cloud water evaporation

no condition

NEGA

negativity correction

no condition

NETUR

negativity correction induced by turbulence

CTURB=’TKEL’

NEADV

negativity correction induced by advection

no condition

NECON

negativity correction induced by condensation

no condition

KESS source terms

Name

Description

Condition(s)

REVA

rain evaporation

no condition

COND

vapor condensation or cloud water evaporation

no condition

NEGA

negativity correction

no condition

NETUR

negativity correction induced by turbulence

CTURB=’TKEL’

NEADV

negativity correction induced by advection

no condition

NECON

negativity correction induced by condensation

no condition

REVE source terms

Name

Description

Condition(s)

COND

vapor condensation or cloud water evaporation

no condition