CTBTO FLEXPART WO4 (2015-10-15)
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hanna_short.f90
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1 !**********************************************************************
2 ! Copyright 1998,1999,2000,2001,2002,2005,2007,2008,2009,2010 *
3 ! Andreas Stohl, Petra Seibert, A. Frank, Gerhard Wotawa, *
4 ! Caroline Forster, Sabine Eckhardt, John Burkhart, Harald Sodemann *
5 ! *
6 ! This file is part of FLEXPART. *
7 ! *
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11 ! (at your option) any later version. *
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16 ! GNU General Public License for more details. *
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20 !**********************************************************************
21 
22 subroutine hanna_short(z)
23  ! i
24  !*****************************************************************************
25  ! *
26  ! Computation of \sigma_i and \tau_L based on the scheme of Hanna (1982) *
27  ! *
28  ! Author: A. Stohl *
29  ! *
30  ! 4 December 1997 *
31  ! *
32  !*****************************************************************************
33  ! *
34  ! Variables: *
35  ! dsigwdz [1/s] vertical gradient of sigw *
36  ! ol [m] Obukhov length *
37  ! sigu, sigv, sigw standard deviations of turbulent velocity fluctuations *
38  ! tlu [s] Lagrangian time scale for the along wind component. *
39  ! tlv [s] Lagrangian time scale for the cross wind component. *
40  ! tlw [s] Lagrangian time scale for the vertical wind component. *
41  ! ust, ustar [m/s] friction velocity *
42  ! wst, wstar [m/s] convective velocity scale *
43  ! *
44  !*****************************************************************************
45 
46  use par_mod
47  use com_mod
48  use hanna_mod
49 
50  implicit none
51 
52  real :: z
53 
54 
55 
56  !**********************
57  ! 1. Neutral conditions
58  !**********************
59 
60  if (h/abs(ol).lt.1.) then
61  ust=max(1.e-4,ust)
62  sigw=1.3*exp(-2.e-4*z/ust)
63  dsigwdz=-2.e-4*sigw
64  sigw=sigw*ust+1.e-2
65  tlw=0.5*z/sigw/(1.+1.5e-3*z/ust)
66 
67 
68  !***********************
69  ! 2. Unstable conditions
70  !***********************
71 
72  else if (ol.lt.0.) then
73 
74 
75  ! Determine sigmas
76  !*****************
77 
78  sigw=sqrt(1.2*wst**2*(1.-.9*zeta)*zeta**0.66666+ &
79  (1.8-1.4*zeta)*ust**2)+1.e-2
80  dsigwdz=0.5/sigw/h*(-1.4*ust**2+wst**2* &
81  (0.8*max(zeta,1.e-3)**(-.33333)-1.8*zeta**0.66666))
82 
83 
84  ! Determine average Lagrangian time scale
85  !****************************************
86 
87  if (z.lt.abs(ol)) then
88  tlw=0.1*z/(sigw*(0.55-0.38*abs(z/ol)))
89  else if (zeta.lt.0.1) then
90  tlw=0.59*z/sigw
91  else
92  tlw=0.15*h/sigw*(1.-exp(-5*zeta))
93  endif
94 
95 
96  !*********************
97  ! 3. Stable conditions
98  !*********************
99 
100  else
101  sigw=1.e-2+1.3*ust*(1.-zeta)
102  dsigwdz=-1.3*ust/h
103  tlw=0.1*h/sigw*zeta**0.8
104  endif
105 
106 
107  tlu=max(10.,tlu)
108  tlv=max(10.,tlv)
109  tlw=max(30.,tlw)
110  if (dsigwdz.eq.0.) dsigwdz=1.e-10
111 
112 end subroutine hanna_short
hanna_short
subroutine hanna_short(z)
Definition: hanna_short.f90:22
par_mod
Definition: par_mod.F90:34
hanna_mod
Definition: hanna_mod.f90:1
com_mod
Definition: com_mod.f90:13
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