source: LMDZ6/branches/contrails/libf/phylmd/lmdz_atke_turbulence_ini.f90 @ 5440

Last change on this file since 5440 was 5268, checked in by abarral, 2 months ago

.f90 <-> .F90 depending on cpp key use

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1MODULE lmdz_atke_turbulence_ini
2
3implicit none
4
5! declaration of constants and parameters
6
7real, save, protected  :: rg, rd, rpi, rcpd, rv, viscom, viscoh       
8!$OMP THREADPRIVATE(rg, rd, rpi, rcpd, rv, viscom, viscoh)     
9
10integer, save, protected :: iflag_atke        ! flag that controls options in atke_compute_km_kh
11integer, save, protected :: iflag_atke_lmix   ! flag that controls the calculation of mixing length in atke
12integer, save, protected :: iflag_num_atke    ! flag that controls the numerical treatment of diffusion coeffiient calculation
13!$OMP THREADPRIVATE(iflag_atke, iflag_atke_lmix, iflag_num_atke)
14
15logical, save, protected :: atke_ok_vdiff    ! activate vertical diffusion of TKE or not
16logical, save, protected :: atke_ok_virtual  ! account for vapor for flottability
17!$OMP THREADPRIVATE(atke_ok_vdiff, atke_ok_virtual)
18
19real, save, protected :: kappa = 0.4         ! Von Karman constant
20real, save, protected :: cn                  ! Sm value at Ri=0
21real, save, protected :: cinf                ! Sm value at Ri=-Inf
22real, save, protected :: ri0                 ! Richardson number near zero to guarantee continuity in slope of Sm (stability function) at Ri=0
23real, save, protected :: ri1                 ! Richardson number near zero to guarantee continuity in slope of Pr (Prandlt's number) at Ri=0
24real, save, protected :: lmin = 0.01         ! minimum mixing length corresponding to the Kolmogov dissipation scale  in planetary atmospheres (Chen et al 2016, JGR Atmos)
25real, save, protected :: ctkes               ! coefficient for surface TKE
26real, save, protected :: clmixshear          ! coefficient for mixing length depending on local wind shear
27!$OMP THREADPRIVATE(kappa, cn, cinf, ri0, ri1, lmin, ctkes, clmixshear)
28
29
30! Tunable parameters for the ATKE scheme and their range of values
31!!-------------------------------------------------------------------------------------------------------------
32real, save, protected :: cepsilon            ! controls the value of the dissipation length scale, range [1.2 - 10]
33real, save, protected :: cke                 ! controls the value of the diffusion coefficient of TKE, range [1 - 5]
34real, save, protected :: l0                  ! asymptotic mixing length far from the ground [m] (Sun et al 2011, JAMC), range [15 - 75]
35real, save, protected :: clmix               ! controls the value of the mixing length in stratified conditions, range [0.1 - 2]
36real, save, protected :: ric                 ! critical Richardson number controlling the slope of Sm in stable conditions, range [0.19 - 0.25]
37real, save, protected :: smmin               ! minimum value of Sm in very stable conditions (defined here as minsqrt(Ez/Ek)) at large Ri, range [0.025 - 0.1]
38real, save, protected :: pr_neut             ! neutral value of the Prandtl number (Ri=0), range [0.7 - 1]
39real, save, protected :: pr_slope            ! linear slope of Pr with Ri in the very stable regime, range [3 - 5]
40real, save, protected :: cinffac             ! ratio between cinf and cn controlling the convective limit of Sm, range [1.2 - 5.0]
41real, save, protected :: pr_asym             ! value of Prandlt in the convective limit(Ri=-Inf), range [0.3 - 0.5]
42!$OMP THREADPRIVATE(cepsilon, cke, l0, clmix, ric, smmin, pr_neut, pr_slope, cinffac, pr_asym)
43!!-------------------------------------------------------------------------------------------------------------
44
45CONTAINS
46
47SUBROUTINE atke_ini(rg_in, rd_in, rpi_in, rcpd_in, rv_in, viscom_in, viscoh_in)
48      !!----------------------------------------------------------------------
49      !!                  ***  ROUTINE  atke_ini  ***
50      !!
51      !! ** Purpose :   Initialization of the atke module and choice of some constants
52      !!                Default values correspond to the  'best' configuration
53      !!                from tuning on GABLS1 in Vignon et al. 2024, JAMES
54      !!----------------------------------------------------------------------
55
56        USE ioipsl_getin_p_mod, ONLY : getin_p                                                                                                     
57
58      ! input arguments (universal constants for planet)
59      !-------------------------------------------------
60      real, intent(in) :: rg_in, rd_in, rpi_in, rcpd_in, rv_in, viscom_in, viscoh_in
61      !!----------------------------------------------------------------------
62     
63      rg=rg_in          ! gravity acceleration
64      rd=rd_in          ! dry gas constant (R/M, R=perfect gas constant and M is the molar mass of the fluid)
65      rpi=rpi_in        ! Pi number
66      rcpd=rcpd_in      ! cp per unit mass of the gas
67      rv=rv_in          ! water vapor constant (for simulations in Earth's atmosphere)
68      viscom=viscom_in  ! kinematic molecular viscosity for momentum
69      viscoh=viscoh_in  ! kinematic molecular viscosity for heat
70
71
72      ! Read flag values in .def files
73      !-------------------------------
74
75      ! flag that controls options in atke_compute_km_kh
76      iflag_atke=1
77      CALL getin_p('iflag_atke',iflag_atke)
78
79      ! flag that controls the calculation of mixing length in atke
80      iflag_atke_lmix=3
81      CALL getin_p('iflag_atke_lmix',iflag_atke_lmix)
82
83      if (iflag_atke .eq. 0 .and. iflag_atke_lmix>0) then
84            call abort_physic("atke_turbulence_ini", &
85            'stationary scheme must use mixing length formulation not depending on tke', 1)
86      endif
87
88      ! activate vertical diffusion of TKE or not
89      atke_ok_vdiff=.true.
90      CALL getin_p('atke_ok_vdiff',atke_ok_vdiff)
91
92      ! account for vapor for flottability
93      atke_ok_virtual=.true.
94      CALL getin_p('atke_ok_virtual',atke_ok_virtual)
95
96
97      ! flag that controls the numerical treatment of diffusion coeffiient calculation
98      iflag_num_atke=0
99      CALL getin_p('iflag_num_atke',iflag_num_atke)
100
101      ! asymptotic mixing length in neutral conditions [m]
102      ! Sun et al 2011, JAMC
103      ! between 10 and 40
104      l0=42.5279652116005
105      CALL getin_p('atke_l0',l0)
106
107      ! critical Richardson number
108      ric=0.190537327781655
109      CALL getin_p('atke_ric',ric)
110
111      ! constant for tke dissipation calculation
112      cepsilon=8.89273387537601
113      CALL getin_p('atke_cepsilon',cepsilon)
114
115      ! calculation of cn = Sm value at Ri=0
116      ! direct dependance on cepsilon to guarantee Fm=1 (first-order like stability function) at Ri=0
117      cn=(1./sqrt(cepsilon))**(2/3)
118
119      ! asymptotic value of Sm for Ri=-Inf
120      cinffac=2.0
121      CALL getin_p('atke_cinffac',cinffac)
122      cinf=cinffac*cn
123      if (cinf .le. cn) then
124            call abort_physic("atke_turbulence_ini", &
125            'cinf cannot be lower than cn', 1)
126      endif
127
128      ! coefficient for surface TKE
129      ! following Lenderink & Holtslag 2004, ctkes=(cepsilon)**(2/3)
130      ! (provided by limit condition in neutral conditions)
131      ctkes=(cepsilon)**(2./3.)
132
133      ! slope of Pr=f(Ri) for stable conditions
134      pr_slope=4.67885738180385
135      CALL getin_p('atke_pr_slope',pr_slope)
136      if (pr_slope .le. 1) then
137            call abort_physic("atke_turbulence_ini", &
138            'pr_slope has to be greater than 1 for consistency of the tke scheme', 1)
139      endif
140
141      ! value of turbulent prandtl number in neutral conditions (Ri=0)
142      pr_neut=0.837372701768868
143      CALL getin_p('atke_pr_neut',pr_neut)
144
145      ! asymptotic turbulent prandt number value for Ri=-Inf
146      pr_asym=0.4
147      CALL getin_p('atke_pr_asym',pr_asym)
148      if (pr_asym .ge. pr_neut) then
149            call abort_physic("atke_turbulence_ini", &
150            'pr_asym must be be lower than pr_neut', 1)
151      endif
152
153      ! coefficient for mixing length depending on local stratification
154      clmix=0.648055235325291
155      CALL getin_p('atke_clmix',clmix)
156
157      ! coefficient for mixing length depending on local wind shear
158      clmixshear=0.5
159      CALL getin_p('atke_clmixshear',clmixshear)
160
161      ! minimum anisotropy coefficient (defined here as minsqrt(Ez/Ek)) at large Ri.
162      ! From Zilitinkevich et al. 2013, it equals sqrt(0.03)~0.17 
163      smmin=0.0960838631869678
164      CALL getin_p('atke_smmin',smmin)
165
166      ! ratio between the eddy diffusivity coeff for tke wrt that for momentum
167      ! default value from Lenderink et al. 2004
168      cke=2.47069655134662
169      CALL getin_p('atke_cke',cke)
170
171      ! calculation of Ri0 such that continuity in slope of Sm at Ri=0
172      ri0=2./rpi*(cinf - cn)*ric/cn
173
174      ! calculation of Ri1 to guarantee continuity in slope of Prandlt number at Ri=0
175      ri1 = -2./rpi * (pr_asym - pr_neut)
176
177RETURN
178
179END SUBROUTINE atke_ini
180
181END MODULE  lmdz_atke_turbulence_ini
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