source: LMDZ6/trunk/libf/phylmd/Ocean_skin/microlayer_m.f90 @ 5435

Last change on this file since 5435 was 5268, checked in by abarral, 2 months ago

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

File size: 3.6 KB
RevLine 
[3816]1module Microlayer_m
2
3  Implicit none
4
5contains
6
7  subroutine Microlayer(dter, dser, tkt, tks, hlb, tau, s_subskin, al, &
8       xlv, taur, rf, rain, qcol)
9
10    ! H. Bellenger 2016
11
12    use const, only: beta, cpw, grav, rhow
13    use fv_m, only: fv
14
15    real, intent(out):: dter(:)
16    ! Temperature variation in the diffusive microlayer, that is
17    ! ocean-air interface temperature minus subskin temperature. In K.
18
19    real, intent(out):: dser(:)
20    ! Salinity variation in the diffusive microlayer, that is ocean-air
21    ! interface salinity minus subskin salinity. In ppt.
22
23    real, intent(inout):: tkt(:)
24    ! thickness of cool skin (microlayer), in m
25
26    real, intent(inout):: tks(:)
27    ! thickness of mass diffusion layer (microlayer), in m
28
29    real, intent(in):: hlb(:)
30    ! latent heat flux at the surface, positive upward (W m-2)
31
32    real, intent(in):: tau(:) ! wind stress, turbulent part only, in Pa
33    real, intent(in):: s_subskin(:) ! subskin salinity, in ppt
34    real, intent(in):: al(:) ! water thermal expansion coefficient (in K-1)
35    real, intent(in):: xlv(:) ! latent heat of evaporation (J/kg)
36    real, intent(in):: taur(:) ! momentum flux due to rainfall, in Pa
37
38    real, intent(in):: rf(:)
39    ! sensible heat flux at the surface due to rainfall, in W m-2
40
41    real, intent(in):: rain(:) ! rain mass flux, in kg m-2 s-1
42
43    real, intent(in):: qcol(:)
44    ! net flux at the surface, without sensible heat flux due to rain, in W m-2
45
46    ! Local:
47
48    real, dimension(size(qcol)):: usrk, usrct, usrcs, alq
49    real xlamx(size(qcol)) ! Saunders coefficient
50    real, parameter:: visw = 1e-6
51    real, parameter:: tcw = 0.6 ! thermal conductivity of water
52
53    real, parameter:: mu = 0.0129e-7 ! in m2 / s
54    ! molecular salinity diffusivity, Kraus and Businger, page 47
55
56    real, parameter:: kappa = 1.49e-7 ! thermal diffusivity, in m2 / s
57
58    real, parameter:: afk = 4e-4
59    real, parameter:: bfk = 1.3
60    ! a and b coefficient for the power function fitting the TKE flux
61    ! carried by rain:  Fk = a * R**b, derived form the exact solution
62    ! of Soloviev and Lukas 2006 (Schlussel et al 1997, Craeye and
63    ! Schlussel 1998)
64
65    !--------------------------------------------------------------------------
66
67    alq = al * (qcol + rf * (1 - fV(tkt, rain))) - beta * s_subskin * cpw &
68         * (hlb / xlv - rain * (1 - fV(tks, rain)))
69
70    usrk = (afk / rhow)**(1. / 3.) * (rain * 3600.)**(bfk / 3.)
71    ! Equivalent friction velocity due to the TKE input by the penetrating
72    ! raindrops Fk
73
74    ! Friction velocities in the air:
75    usrct = sqrt((tau + (1. - fV(tkt, rain)) * taur) / rhow &
76         + (fV(0., rain) - fV(tkt, rain)) * usrk**2)
77    usrcs = sqrt((tau + (1. - fV(tks, rain)) * taur) / rhow &
78         + (fV(0., rain) - fV(tks, rain)) * usrk**2)
79
80    where (alq > 0.)
81       ! Fairall 1996 982, equation (14):
82       xlamx = 6. * (1. + (16. * grav * cpw * rhow * visw**3 * alq &
83            / (tcw**2 * usrct**4 ))**0.75)**(- 1. / 3.)
84
85       ! Fairall 1996 982, equation (12):
86       tkt = xlamx * visw / usrct
87
88       tks = xlamx * mu * (kappa / mu)**(2. / 3.) &
89            * visw * cpw * rhow / ( tcw * usrcs)
90       ! From Saunders 1967 (4)
91    elsewhere
92       xlamx = 6. ! prevent excessive warm skins
93       tkt = min(.01, xlamx * visw / usrct) ! Limit tkt
94       tks = min(.001, xlamx * mu * (kappa / mu)**(2. / 3.) * visw * cpw &
95            * rhow / (tcw * usrcs))
96    end where
97
98    ! Fairall 1996 982, equation (13):
99    dter = - (qcol + rf * (1 - fV(tkt, rain))) * tkt / tcw
100
101    dser = s_subskin * (hlb / xlv - rain * (1 - fV(tks, rain))) * tks &
102         / (rhow * mu) ! eq. fresh skin
103
104  end subroutine Microlayer
105
106end module Microlayer_m
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