/[MITgcm]/MITgcm/pkg/mom_fluxform/mom_v_xviscflux.F
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Revision 1.6 - (hide annotations) (download)
Mon Sep 26 15:27:11 2005 UTC (18 years, 8 months ago) by baylor
Branch: MAIN
CVS Tags: checkpoint58b_post, checkpoint57y_post, checkpoint58, checkpoint58f_post, checkpoint58d_post, checkpoint58a_post, checkpoint57z_post, checkpoint58m_post, checkpoint57t_post, checkpoint57v_post, checkpoint57y_pre, checkpoint58o_post, checkpoint58p_post, checkpoint58q_post, checkpoint58e_post, checkpoint58r_post, checkpoint58n_post, checkpint57u_post, checkpoint58k_post, checkpoint58l_post, checkpoint58g_post, checkpoint58h_post, checkpoint58j_post, checkpoint57w_post, checkpoint58i_post, checkpoint57x_post, checkpoint58c_post
Changes since 1.5: +2 -4 lines 
Passing viscosities to sidedrag.
1 baylor 1.6 C $Header: /u/gcmpack/MITgcm/pkg/mom_fluxform/mom_v_xviscflux.F,v 1.5 2005/09/16 20:57:09 baylor Exp $
2 adcroft 1.3 C $Name: $
3 adcroft 1.2
4 edhill 1.4 #include "MOM_FLUXFORM_OPTIONS.h"
5 adcroft 1.2
6 adcroft 1.3 CBOP
7     C !ROUTINE: MOM_V_XVISCFLUX
8    
9     C !INTERFACE: ==========================================================
10 adcroft 1.2 SUBROUTINE MOM_V_XVISCFLUX(
11     I bi,bj,k,
12     I vFld, del2v, hFacZ,
13     O xViscFluxV,
14 baylor 1.6 I viscAh_Z,viscA4_Z,
15 adcroft 1.2 I myThid)
16 adcroft 1.3
17     C !DESCRIPTION:
18     C Calculates the area integrated zonal viscous fluxes of V:
19     C \begin{equation*}
20     C F^x = - \frac{ \Delta x_u \Delta r_f h_z }{\Delta x_v}
21     C ( A_h \delta_i v - A_4 \delta_i \nabla^2 v )
22     C \end{equation*}
23    
24     C !USES: ===============================================================
25 adcroft 1.2 IMPLICIT NONE
26     #include "SIZE.h"
27     #include "EEPARAMS.h"
28     #include "PARAMS.h"
29     #include "GRID.h"
30    
31 adcroft 1.3 C !INPUT PARAMETERS: ===================================================
32     C bi,bj :: tile indices
33     C k :: vertical level
34     C vFld :: meridional flow
35     C del2v :: Laplacian of meridional flow
36     C myThid :: thread number
37 adcroft 1.2 INTEGER bi,bj,k
38     _RL vFld(1-OLx:sNx+OLx,1-OLy:sNy+OLy)
39     _RL del2v(1-OLx:sNx+OLx,1-OLy:sNy+OLy)
40     _RS hFacZ(1-OLx:sNx+OLx,1-OLy:sNy+OLy)
41 baylor 1.5 _RL viscAh_Z(1-OLx:sNx+OLx,1-OLy:sNy+OLy)
42     _RL viscA4_Z(1-OLx:sNx+OLx,1-OLy:sNy+OLy)
43 adcroft 1.3 INTEGER myThid
44    
45     C !OUTPUT PARAMETERS: ==================================================
46     C xViscFluxU :: viscous fluxes
47 adcroft 1.2 _RL xViscFluxV(1-OLx:sNx+OLx,1-OLy:sNy+OLy)
48    
49 adcroft 1.3 C !LOCAL VARIABLES: ====================================================
50     C i,j :: loop indices
51 adcroft 1.2 INTEGER I,J
52 adcroft 1.3 CEOP
53 adcroft 1.2
54     C - Laplacian and bi-harmonic terms
55     DO j=1-Oly,sNy+Oly
56     DO i=1-Olx+1,sNx+Olx
57     xViscFluxV(i,j) =
58     & _dyU(i,j,bi,bj)*drF(k)*hFacZ(i,j)
59     & *(
60 baylor 1.5 & -viscAh_Z(i,j)*(vFld(i,j)-vFld(i-1,j))
61 adcroft 1.2 & *cosFacV(J,bi,bj)
62 baylor 1.5 & +viscA4_Z(i,j)*(del2v(i,j) -del2v(i-1,j) )
63 adcroft 1.2 #ifdef COSINEMETH_III
64     & *sqcosFacV(J,bi,bj)
65     #else
66     & *cosFacV(J,bi,bj)
67     #endif
68     & )*_recip_dxV(i,j,bi,bj)
69     ENDDO
70     ENDDO
71    
72     RETURN
73     END
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