NAM_DIAG - Turbulence

  • define LVAR_TURB=T in NAM_DIAG to store following variables :

Name

Meaning [Unit]

Dimension

TKET

Turbulent Kinetic Energy (m2/s2)

3D

SIGS

Sigma_s from turbulence scheme (kg/kg2)

3D

SRCM

Normalized 2nd_order moment (kg/kg2)

3D

BL_DEPTH

Boundary Layer Depth if CTOM=’TM06’ (m)

3D

  • define LTURBDIAG=T in NAM_DIAG to store following variables :

Name

Meaning [Unit]

Dimension

AMOIST

  1. See Scientific documentation part III, chap 7 equation 7.29

3D

ATHETA

  1. See Scientific documentation part III, chap 7 equation 7.30

3D

RED_TH1, RED_R1, RED2_TH3, RED2_R3, RED2_THR3

Redelsperger numbers

3D

TKE_DP

dynamical production of TKE (m2/s3)

3D

TKE_TP

thermal production of TKE (m2/s3)

3D

TKE_TR

transport of TKE (m2/s3)

3D

TKE_DISS

dissipation of TKE (m2/s3)

3D

LM_CLEAR_SKY

mixing length in clear sky (m)

3D

COEF_AMPL

amplification of the mixing length (-)

3D

LM_CLOUD

mixing length in the clouds (m)

3D

LM

mixing length (m)

3D

THLM

conservative potential temperature (K)

3D

RNPM

conservative mixing ratio (kg/kg)

3D

RVCI

rv + rc + ri (kg/kg)

3D

GX_RVCI,GY_RVCI

x and y gradient of RVCI (kg/kg/m)

3D

GNORM_RVCI

Horizontal norm of the gradient of RVCI (kg/kg/m)

3D

QX_RVCI

x gradient of the advection of RVCI (kg/kg/m)

3D

QY_RVCI

y gradient of the advection of RVCI (kg/kg/m)

3D

QNORM_RVCI

Horizontal norm of the gradient of the advection of RVCI (kg/kg/m)

3D

CEI

Cloud entrainment instability index (kg/kg/m/s)

3D

  • define LTURBFLX=T in NAM_DIAG to store following variables :

Name

Meaning [Unit]

Dimension

PHI3

Turbulent Prandtl number (-)

3D

PSI3

Turbulent Schmidt number (-)

3D

PSI_SV_n

Turbulent Schmidt number for the scalar variables (-)

3D

  • define LTURBFLX=T in NAM_DIAG and if CTURBDIM=’1D’ in YINIFILE.des following variables will stored :

Name

Meaning [Unit]

Dimension

THW_FLX

theta vertical flux (K*m/s)

3D

RCONSW_FLX

rv vertical flux (kg*m/s/kg)

3D

RCW_FLX

liquid water mixing ratio vertical flux (kg*m/s/kg)

3D

THL_VVAR

< T Hl, T Hl > (K2)

3D

THLRCONS_VCOR

< T Hl, Rnp >( K*kg/kg)

3D

RTOT_VVAR

< Rnp, Rnp > ((kg/kg)2)

3D

UW_VFLX, VW_VFLX

wind component vertical flux (m2/s2)

3D

WSV_FLX_n

< W, SV th >(SVunit m/s)

3D

  • define LTURBFLX=T in NAM_DIAG and if CTURBDIM=’3D’ in YINIFILE.des following variables will stored :

Name

Meaning [Unit]

Dimension

THW_FLX

theta vertical flux (K*m/s)

3D

RCONSW_FLX

rv vertical flux (kg*m/s/kg)

3D

RCW_FLX

liquid water mixing ratio vertical flux (kg*m/s/kg)

3D

THL_VVAR

< T Hl, T Hl > (K2)

3D

THLRCONS_VCOR

< T Hl, Rnp >( K*kg/kg)

3D

RTOT_VVAR

< Rnp, Rnp > ((kg/kg)2)

3D

UW_VFLX, VW_VFLX

wind component vertical flux (m2/s2)

3D

WSV_FLX_n

< W, SV th >(SVunit m/s)

3D

U_VAR

U variance ((m/s)2)

3D

V_VAR

V variance ((m/s)2)

3D

W_VAR

W variance ((m/s)2)

3D

UV_FLX

< U, V >((m/s)2,)

3D

UW_HFLX

< U, W > ((m/s)2)

3D

VW_HFLX

< V, W > ((m/s)2)

3D

USV_FLX_n

< U, SV th > ( SVunit m/s)

3D

VSV_FLX_n

< V, SV th > ( SVunit m/s)

3D

THL_HVAR

< T Hl, T Hl > (K2)

3D

THLR_HCOR

< T Hl, Rnp > (K*kg/kg)

3D

R_HVAR

< Rnp, Rnp > ( (kg/kg)2)

3D

UTHL_FLX

horizontal < U, T Hl > (K*m/s)

3D

VTHL_FLX

horizontal < V, T Hl > (K*m/s)

3D

UR_FLX

horizontal < U, Rnp > (kg/kg*m/s)

3D

VR_FLX

horizontal < V, Rnp > (kg/kg*m/s)

3D