source: LMDZ6/trunk/libf/phylmd/Ocean_skin/bulk_flux_m.f90 @ 5447

Last change on this file since 5447 was 5268, checked in by abarral, 2 months ago

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

File size: 5.1 KB
Line 
1module bulk_flux_m
2
3  implicit none
4
5contains
6
7  subroutine bulk_flux(tkt, tks, taur, dter, dser, t_int, s_int, ds_ns, dt_ns, &
8       u, t_ocean_1, s1, rain, hf, hlb, rnl, tau, rhoa, xlv, rf, dtime, rns)
9
10    use config_ocean_skin_m, only: jwarm, jcool, rain_effect
11    use Microlayer_m, only: Microlayer
12    use mom_flux_rain_m, only: mom_flux_rain
13    use Near_Surface_m, only: Near_Surface, depth
14    use therm_expans_m, only: therm_expans
15
16    real, intent(out):: tkt(:)
17    ! thickness of cool skin (microlayer), in m
18
19    real, intent(out):: tks(:)
20    ! thickness of mass diffusion layer (microlayer), in m
21
22    real, intent(out):: taur(:) ! momentum flux due to rain, in Pa
23
24    real, intent(out):: dter(:)
25    ! Temperature variation in the diffusive microlayer, that is
26    ! ocean-air interface temperature minus subskin temperature. In K.
27
28    real, intent(out):: dser(:)
29    ! Salinity variation in the diffusive microlayer, that is ocean-air
30    ! interface salinity minus subskin salinity. In ppt.
31
32    real, intent(out):: t_int(:) ! interface temperature, in K
33    real, intent(out):: s_int(:) ! interface salinity, in ppt
34
35    real, intent(inout):: ds_ns(:)
36    ! "delta salinity near surface". Salinity variation in the
37    ! near-surface turbulent layer. That is subskin salinity minus
38    ! foundation salinity. In ppt.
39
40    real, intent(inout):: dt_ns(:)
41    ! "delta temperature near surface". Temperature variation in the
42    ! near-surface turbulent layer. That is subskin temperature minus
43    ! foundation temperature. (Can be negative.) In K.
44
45    real, intent(in):: u(:)
46    ! Wind speed relative to the sea surface, i. e. taking current
47    ! vector into account. In m s-1.
48
49    real, intent(in):: t_ocean_1(:) ! input sea temperature, at depth_1, in K
50    real, intent(in):: S1(:) ! salinity at depth_1, in ppt
51
52    real, intent(in):: rain(:)
53    ! rain mass flux, averaged on a timestep, in kg m-2 s-1
54
55    real, intent(in):: hf(:)
56    !  turbulent part of sensible heat flux, positive upward, in W m-2
57
58    real, intent(in):: hlb(:)
59    ! latent heat flux at the surface, positive upward (W m-2)
60
61    real, intent(in):: rnl(:)
62    ! net longwave radiation, positive upward, in W m-2
63
64    real, intent(in):: tau(:)
65    ! wind stress at the surface, turbulent part only, in Pa
66   
67    real, intent(in):: rhoa(:) ! density of moist air  (kg / m3)
68    real, intent(in):: xlv(:) ! latent heat of evaporation (J / kg)
69
70    real, intent(in):: rf(:)
71    ! sensible heat flux at the surface due to rainfall, in W m-2,
72    ! positive upward
73
74    real, intent(in):: dtime ! time step, in s
75    real, intent(in):: rns(:) ! net downward shortwave radiation, in W m-2
76
77    ! Local:
78   
79    real al(size(t_ocean_1)) ! water thermal expansion coefficient (in K-1)
80    real dels(size(t_ocean_1)), null_array(size(t_ocean_1))
81    integer iter
82    real t_subskin(size(t_ocean_1)) ! subskin temperature, in K
83    real s_subskin(size(t_ocean_1)) ! subskin salinity, in ppt
84
85    real, parameter:: fxp = 1. - (0.28 * 0.014 &
86         + 0.27 * 0.357 * (1. - exp(- depth / 0.357)) &
87         + .45 * 12.82 * (1.- exp(- depth / 12.82))) / depth
88    ! underflow ! fxp = 1. - (0.28 * 0.014 * (1. - exp(- depth / 0.014)) &
89    ! Soloviev solar absorption profile
90    ! H. Bellenger 2016
91
92    real tau_with_min(size(t_ocean_1))
93    ! modified wind stress, avoiding very low values
94   
95    real, parameter:: tau_0 = 1e-3 ! in N m-2
96
97    !-------------------------------------------------------------------
98
99    if (rain_effect) then
100       taur = mom_flux_rain(u, rain)
101    else
102       if (jwarm .or. jcool) null_array = 0.
103       taur = 0.
104    end if
105
106    if (jwarm .or. jcool) tau_with_min = tau + tau_0 * (1. - exp(- tau_0 / tau))
107
108    if (Jwarm) then
109       if (rain_effect) then
110          call Near_Surface(al, t_subskin, s_subskin, ds_ns, dt_ns, &
111               tau_with_min, taur, hlb, rhoa, xlv, dtime, t_ocean_1, s1, rain, &
112               q_pwp = fxp * rns - (hf + hlb + rnl + rf))
113       else
114          call Near_Surface(al, t_subskin, s_subskin, ds_ns, dt_ns, &
115               tau_with_min, taur, hlb, rhoa, xlv, dtime, t_ocean_1, s1, &
116               rain = null_array, q_pwp = fxp * rns - (hf + hlb + rnl))
117       end if
118    else
119       if (Jcool) al = therm_expans(t_ocean_1)
120       t_subskin = t_ocean_1
121       s_subskin = s1
122    end if
123
124    if (Jcool) then
125       ! First guess:
126       tkt = 0.001
127       tks = 5e-4
128
129       do iter = 1, 3
130          ! Cool skin
131          dels = rns * (0.065 + 11. * tkt - 6.6e-5 / tkt &
132               * (1. - exp(- tkt / 8e-4))) ! equation 16 Ohlmann
133          if (rain_effect) then
134             call Microlayer(dter, dser, tkt, tks, hlb, tau_with_min, &
135                  s_subskin, al, xlv, taur, rf, rain, &
136                  qcol = rnl + hf + hlb - dels)
137          else
138             call Microlayer(dter, dser, tkt, tks, hlb, tau_with_min, &
139                  s_subskin, al, xlv, taur, rf = null_array, &
140                  rain = null_array, qcol = rnl + hf + hlb - dels)
141          end if
142       end do
143    else
144       tkt = 0.
145       tks = 0.
146       dter = 0.
147       dser = 0.
148    end if
149
150    t_int = t_subskin + dter
151    s_int = s_subskin + dser
152
153  end subroutine bulk_flux
154
155end module bulk_flux_m
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