phylmd/Radlwsw/lwbv.f

module lwbv_m

  IMPLICIT NONE

contains

  SUBROUTINE lwbv(klim, pdt0, pemis, ppmb, ptl, ptave, pabcu, pfluc, &
       pbint, pbsui, pcts, pcntrb)

    USE dimens_m
    USE dimphy
    use lwv_m, only: lwv
    USE suphec_m
    USE raddim
    USE raddimlw

    ! PURPOSE.
    ! --------
    ! TO COMPUTE THE PLANCK FUNCTION AND PERFORM THE
    ! VERTICAL INTEGRATION. SPLIT OUT FROM LW FOR MEMORY
    ! SAVING

    ! METHOD.
    ! -------

    ! 1. COMPUTES THE PLANCK FUNCTIONS ON THE INTERFACES AND THE
    ! GRADIENT OF PLANCK FUNCTIONS IN THE LAYERS.
    ! 2. PERFORMS THE VERTICAL INTEGRATION DISTINGUISHING THE CON-
    ! TRIBUTIONS OF THE ADJACENT AND DISTANT LAYERS AND THOSE FROM THE
    ! BOUNDARIES.
    ! 3. COMPUTES THE CLEAR-SKY COOLING RATES.

    ! REFERENCE.
    ! ----------

    ! SEE RADIATION'S PART OF THE MODEL'S DOCUMENTATION AND
    ! ECMWF RESEARCH DEPARTMENT DOCUMENTATION OF THE IFS

    ! AUTHOR.
    ! -------
    ! JEAN-JACQUES MORCRETTE  *ECMWF*

    ! MODIFICATIONS.
    ! --------------
    ! ORIGINAL : 89-07-14
    ! MODIFICATION : 93-10-15 M.HAMRUD (SPLIT OUT FROM LW TO SAVE
    ! MEMORY)
    ! -----------------------------------------------------------------------
    ! * ARGUMENTS:
    INTEGER klim

    DOUBLE PRECISION pdt0(kdlon)
    DOUBLE PRECISION pemis(kdlon)
    DOUBLE PRECISION ppmb(kdlon, kflev+1)
    DOUBLE PRECISION ptl(kdlon, kflev+1)
    DOUBLE PRECISION ptave(kdlon, kflev)

    DOUBLE PRECISION pfluc(kdlon, 2, kflev+1)

    DOUBLE PRECISION pabcu(kdlon, nua, 3*kflev+1)
    DOUBLE PRECISION pbint(kdlon, kflev+1)
    DOUBLE PRECISION pbsui(kdlon)
    DOUBLE PRECISION pcts(kdlon, kflev)
    DOUBLE PRECISION pcntrb(kdlon, kflev+1, kflev+1)

    ! -------------------------------------------------------------------------

    ! * LOCAL VARIABLES:
    DOUBLE PRECISION zb(kdlon, ninter, kflev+1)
    DOUBLE PRECISION zbsur(kdlon, ninter)
    DOUBLE PRECISION zbtop(kdlon, ninter)
    DOUBLE PRECISION zdbsl(kdlon, ninter, kflev*2)
    DOUBLE PRECISION zga(kdlon, 8, 2, kflev)
    DOUBLE PRECISION zgb(kdlon, 8, 2, kflev)
    DOUBLE PRECISION zgasur(kdlon, 8, 2)
    DOUBLE PRECISION zgbsur(kdlon, 8, 2)
    DOUBLE PRECISION zgatop(kdlon, 8, 2)
    DOUBLE PRECISION zgbtop(kdlon, 8, 2)

    INTEGER nuaer, ntraer
    ! ------------------------------------------------------------------
    ! * COMPUTES PLANCK FUNCTIONS:
    CALL lwb(pdt0, ptave, ptl, zb, pbint, pbsui, zbsur, zbtop, zdbsl, zga, &
         zgb, zgasur, zgbsur, zgatop, zgbtop)
    ! ------------------------------------------------------------------
    ! * PERFORMS THE VERTICAL INTEGRATION:
    nuaer = nua
    ntraer = ntra
    CALL lwv(nuaer, ntraer, klim, pabcu, zb, pbint, pbsui, zbsur, zbtop, &
         zdbsl, pemis, ppmb, zga, zgb, zgasur, zgbsur, zgatop, zgbtop, pcntrb, &
         pcts, pfluc)

  END SUBROUTINE lwbv

end module lwbv_m
1	guez	155	module lwbv_m
2
3	guez	81	IMPLICIT NONE
4
5	guez	155	contains
6	guez	81
7	guez	155	SUBROUTINE lwbv(klim, pdt0, pemis, ppmb, ptl, ptave, pabcu, pfluc, &
8			pbint, pbsui, pcts, pcntrb)
9	guez	168
10	guez	155	USE dimens_m
11			USE dimphy
12			use lwv_m, only: lwv
13			USE suphec_m
14			USE raddim
15			USE raddimlw
16	guez	81
17	guez	155	! PURPOSE.
18			! --------
19			! TO COMPUTE THE PLANCK FUNCTION AND PERFORM THE
20			! VERTICAL INTEGRATION. SPLIT OUT FROM LW FOR MEMORY
21			! SAVING
22	guez	81
23	guez	155	! METHOD.
24			! -------
25	guez	81
26	guez	155	! 1. COMPUTES THE PLANCK FUNCTIONS ON THE INTERFACES AND THE
27			! GRADIENT OF PLANCK FUNCTIONS IN THE LAYERS.
28			! 2. PERFORMS THE VERTICAL INTEGRATION DISTINGUISHING THE CON-
29			! TRIBUTIONS OF THE ADJACENT AND DISTANT LAYERS AND THOSE FROM THE
30			! BOUNDARIES.
31			! 3. COMPUTES THE CLEAR-SKY COOLING RATES.
32	guez	81
33	guez	155	! REFERENCE.
34			! ----------
35	guez	81
36	guez	155	! SEE RADIATION'S PART OF THE MODEL'S DOCUMENTATION AND
37			! ECMWF RESEARCH DEPARTMENT DOCUMENTATION OF THE IFS
38	guez	81
39	guez	155	! AUTHOR.
40			! -------
41			! JEAN-JACQUES MORCRETTE ECMWF
42	guez	81
43	guez	155	! MODIFICATIONS.
44			! --------------
45			! ORIGINAL : 89-07-14
46			! MODIFICATION : 93-10-15 M.HAMRUD (SPLIT OUT FROM LW TO SAVE
47			! MEMORY)
48			! -----------------------------------------------------------------------
49			! * ARGUMENTS:
50			INTEGER klim
51	guez	81
52	guez	155	DOUBLE PRECISION pdt0(kdlon)
53			DOUBLE PRECISION pemis(kdlon)
54			DOUBLE PRECISION ppmb(kdlon, kflev+1)
55			DOUBLE PRECISION ptl(kdlon, kflev+1)
56			DOUBLE PRECISION ptave(kdlon, kflev)
57	guez	81
58	guez	155	DOUBLE PRECISION pfluc(kdlon, 2, kflev+1)
59	guez	81
60	guez	155	DOUBLE PRECISION pabcu(kdlon, nua, 3*kflev+1)
61			DOUBLE PRECISION pbint(kdlon, kflev+1)
62			DOUBLE PRECISION pbsui(kdlon)
63			DOUBLE PRECISION pcts(kdlon, kflev)
64			DOUBLE PRECISION pcntrb(kdlon, kflev+1, kflev+1)
65	guez	81
66	guez	155	! -------------------------------------------------------------------------
67
68			! * LOCAL VARIABLES:
69			DOUBLE PRECISION zb(kdlon, ninter, kflev+1)
70			DOUBLE PRECISION zbsur(kdlon, ninter)
71			DOUBLE PRECISION zbtop(kdlon, ninter)
72			DOUBLE PRECISION zdbsl(kdlon, ninter, kflev*2)
73			DOUBLE PRECISION zga(kdlon, 8, 2, kflev)
74			DOUBLE PRECISION zgb(kdlon, 8, 2, kflev)
75			DOUBLE PRECISION zgasur(kdlon, 8, 2)
76			DOUBLE PRECISION zgbsur(kdlon, 8, 2)
77			DOUBLE PRECISION zgatop(kdlon, 8, 2)
78			DOUBLE PRECISION zgbtop(kdlon, 8, 2)
79
80			INTEGER nuaer, ntraer
81			! ------------------------------------------------------------------
82			! * COMPUTES PLANCK FUNCTIONS:
83	guez	213	CALL lwb(pdt0, ptave, ptl, zb, pbint, pbsui, zbsur, zbtop, zdbsl, zga, &
84			zgb, zgasur, zgbsur, zgatop, zgbtop)
85	guez	155	! ------------------------------------------------------------------
86			! * PERFORMS THE VERTICAL INTEGRATION:
87			nuaer = nua
88			ntraer = ntra
89			CALL lwv(nuaer, ntraer, klim, pabcu, zb, pbint, pbsui, zbsur, zbtop, &
90			zdbsl, pemis, ppmb, zga, zgb, zgasur, zgbsur, zgatop, zgbtop, pcntrb, &
91			pcts, pfluc)
92
93			END SUBROUTINE lwbv
94
95			end module lwbv_m