| [3] | 1 | SUBROUTINE SUGWD(NLON,NLEV,paprs,pplay) |
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| 2 | C |
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| 3 | C |
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| 4 | C**** *SUGWD* INITIALIZE COMMON YOEGWD CONTROLLING GRAVITY WAVE DRAG |
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| 5 | C |
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| 6 | C PURPOSE. |
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| 7 | C -------- |
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| 8 | C INITIALIZE YOEGWD, THE COMMON THAT CONTROLS THE |
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| 9 | C GRAVITY WAVE DRAG PARAMETRIZATION. |
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| 10 | C VERY IMPORTANT: |
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| 11 | C ______________ |
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| 12 | C THIS ROUTINE SET_UP THE "TUNABLE PARAMETERS" OF THE |
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| 13 | C VARIOUS SSO SCHEMES |
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| 14 | C |
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| 15 | C** INTERFACE. |
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| 16 | C ---------- |
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| 17 | C CALL *SUGWD* FROM *SUPHEC* |
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| 18 | C ----- ------ |
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| 19 | C (called not from suphec but from first call of physiq.F) |
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| 20 | C |
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| 21 | C EXPLICIT ARGUMENTS : |
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| 22 | C -------------------- |
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| 23 | C PAPRS,PPLAY : Pressure at semi and full model levels |
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| 24 | C NLEV : number of model levels |
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| 25 | c NLON : number of points treated in the physics |
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| 26 | C |
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| 27 | C IMPLICIT ARGUMENTS : |
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| 28 | C -------------------- |
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| 29 | C COMMON YOEGWD |
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| 30 | C-GFRCRIT-R: Critical Non-dimensional mountain Height |
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| 31 | C (HNC in (1), LOTT 1999) |
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| 32 | C-GKWAKE--R: Bluff-body drag coefficient for low level wake |
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| 33 | C (Cd in (2), LOTT 1999) |
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| 34 | C-GRCRIT--R: Critical Richardson Number |
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| 35 | C (Ric, End of first column p791 of LOTT 1999) |
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| 36 | C-GKDRAG--R: Gravity wave drag coefficient |
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| 37 | C (G in (3), LOTT 1999) |
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| 38 | C-GKLIFT--R: Mountain Lift coefficient |
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| 39 | C (Cl in (4), LOTT 1999) |
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| 40 | C-GHMAX---R: Not used |
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| 41 | C-GRAHILO-R: Set-up the trapped waves fraction |
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| 42 | C (Beta , End of first column, LOTT 1999) |
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| 43 | C |
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| 44 | C-GSIGCR--R: Security value for blocked flow depth |
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| 45 | C-NKTOPG--I: Security value for blocked flow level |
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| 46 | C-NTOP----I: An estimate to qualify the upper levels of |
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| 47 | C the model where one wants to impose strees |
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| 48 | C profiles |
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| 49 | C-GSSECC--R: Security min value for low-level B-V frequency |
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| 50 | C-GTSEC---R: Security min value for anisotropy and GW stress. |
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| 51 | C-GVSEC---R: Security min value for ulow |
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| 52 | C |
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| 53 | C |
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| 54 | C METHOD. |
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| 55 | C ------- |
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| 56 | C SEE DOCUMENTATION |
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| 57 | C |
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| 58 | C EXTERNALS. |
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| 59 | C ---------- |
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| 60 | C NONE |
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| 61 | C |
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| 62 | C REFERENCE. |
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| 63 | C ---------- |
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| 64 | C Lott, 1999: Alleviation of stationary biases in a GCM through... |
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| 65 | C Monthly Weather Review, 127, pp 788-801. |
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| 66 | C |
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| 67 | C AUTHOR. |
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| 68 | C ------- |
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| 69 | C FRANCOIS LOTT *LMD* |
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| 70 | C |
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| 71 | C MODIFICATIONS. |
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| 72 | C -------------- |
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| 73 | C ORIGINAL : 90-01-01 (MARTIN MILLER, ECMWF) |
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| 74 | C LAST: 99-07-09 (FRANCOIS LOTT,LMD) |
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| 75 | C ------------------------------------------------------------------ |
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| [101] | 76 | use dimphy |
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| [3] | 77 | IMPLICIT NONE |
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| 78 | |
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| 79 | #include "YOEGWD.h" |
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| 80 | C |
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| 81 | C ARGUMENTS |
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| 82 | integer nlon,nlev |
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| 83 | REAL paprs(nlon,nlev+1) |
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| 84 | REAL pplay(nlon,nlev) |
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| 85 | C |
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| 86 | INTEGER JK |
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| 87 | REAL ZPR,ZTOP,ZSIGT,ZPM1R |
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| 88 | |
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| 89 | C |
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| 90 | C* 1. SET THE VALUES OF THE PARAMETERS |
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| 91 | C -------------------------------- |
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| 92 | C |
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| 93 | 100 CONTINUE |
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| 94 | C |
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| 95 | PRINT *,' DANS SUGWD NLEV=',NLEV |
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| 96 | GHMAX=10000. |
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| 97 | C |
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| 98 | ZPR=100000. |
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| 99 | ZTOP=0.001 |
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| 100 | c valeurs dans la dernière routine de FLott |
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| 101 | c ZSIGT=0.94 |
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| 102 | c valeurs dans les routines Mars |
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| 103 | ZSIGT=0.85 |
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| 104 | C |
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| 105 | Coff CALL gather(pplay,pplay_glo) |
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| 106 | Coff CALL bcast(pplay_glo) |
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| 107 | Coff CALL gather(paprs,paprs_glo) |
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| 108 | Coff CALL bcast(paprs_glo) |
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| 109 | |
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| 110 | DO 110 JK=1,NLEV |
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| 111 | Coff ZPM1R=pplay_glo(klon_glo/2,jk)/paprs_glo(klon_glo/2,1) |
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| 112 | ZPM1R=pplay(klon/2,jk)/paprs(klon/2,1) |
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| 113 | IF(ZPM1R.GE.ZSIGT)THEN |
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| 114 | nktopg=JK |
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| 115 | ENDIF |
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| 116 | Coff ZPM1R=pplay_glo(klon_glo/2,jk)/paprs_glo(klon_glo/2,1) |
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| 117 | ZPM1R=pplay(klon/2,jk)/paprs(klon/2,1) |
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| 118 | IF(ZPM1R.GE.ZTOP)THEN |
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| 119 | ntop=JK |
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| 120 | ENDIF |
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| 121 | 110 CONTINUE |
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| 122 | c |
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| 123 | c inversion car dans orodrag on compte les niveaux a l'envers |
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| 124 | nktopg=nlev-nktopg+1 |
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| 125 | ntop=nlev-ntop |
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| 126 | print *,' DANS SUGWD nktopg=', nktopg |
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| 127 | print *,' DANS SUGWD ntop=', ntop |
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| 128 | C |
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| 129 | GSIGCR=0.80 |
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| 130 | C |
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| 131 | c valeurs dans la dernière routine de FLott |
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| 132 | c GKDRAG=0.1875 |
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| 133 | c GRAHILO=0.1 |
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| 134 | c GRCRIT=1.00 |
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| 135 | c GFRCRIT=1.00 |
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| 136 | c GKWAKE=0.50 |
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| 137 | C |
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| 138 | c GKLIFT=0.25 |
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| 139 | c GVCRIT =0.1 |
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| 140 | |
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| 141 | c valeurs dans les routines Mars |
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| [2047] | 142 | c GKDRAG=0.1 |
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| 143 | c GRAHILO=1.0 |
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| 144 | c GRCRIT=0.25 |
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| 145 | c GFRCRIT=1.00 |
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| 146 | c GKWAKE=1.0 |
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| [3] | 147 | C |
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| [2047] | 148 | C VENUS |
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| 149 | GKDRAG=0.5 ! G |
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| 150 | GRAHILO=1.0 ! beta - useless |
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| 151 | GRCRIT=0.25 ! Ric - useless |
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| 152 | GFRCRIT=1.0 ! Hnc |
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| 153 | GKWAKE=1.0 ! Cd |
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| 154 | TAUBS=2.0 ! VENUS: stress threshold is 2 Pa |
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| 155 | !TAUBS=1.0 ! VENUS: stress threshold is 1 Pa |
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| 156 | !TAUBS=0.5 ! VENUS: stress threshold is 0.5 Pa |
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| 157 | LEVBS=nlev-9 ! VENUS: level release is 9 |
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| 158 | !LEVBS=nlev-19 ! VENUS: level release is 19 |
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| 159 | !LEVBS=nlev-13 ! VENUS: level release is 13 |
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| 160 | |
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| [3] | 161 | GKLIFT=0.25 |
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| 162 | GVCRIT =0.0 |
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| 163 | |
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| 164 | WRITE(UNIT=6,FMT='('' *** SSO essential constants ***'')') |
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| 165 | WRITE(UNIT=6,FMT='('' *** SPECIFIED IN SUGWD ***'')') |
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| [2047] | 166 | WRITE(UNIT=6,FMT='('' Gravity wave ct '',E14.7,'' '')')GKDRAG |
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| 167 | WRITE(UNIT=6,FMT='('' Trapped/total wave dag '',E14.7,'' '')') |
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| 168 | S GRAHILO |
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| 169 | WRITE(UNIT=6,FMT='('' Critical Richardson = '',E14.7,'' '')') |
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| [3] | 170 | S GRCRIT |
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| [2047] | 171 | WRITE(UNIT=6,FMT='('' Critical Froude'',e14.7)') GFRCRIT |
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| 172 | WRITE(UNIT=6,FMT='('' Low level Wake bluff cte'',e14.7)') GKWAKE |
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| 173 | WRITE(UNIT=6,FMT='('' Low level lift cte'',e14.7)') GKLIFT |
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| [3] | 174 | |
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| [2047] | 175 | WRITE(UNIT=6,FMT='('' VENUS: Mountain stress threshold'',E14.7)') |
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| 176 | S TAUBS |
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| 177 | WRITE(UNIT=6,FMT='('' VENUS: Level release'',I5)') nlev - LEVBS |
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| [3] | 178 | C |
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| 179 | C |
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| 180 | C ---------------------------------------------------------------- |
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| 181 | C |
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| 182 | C* 2. SET VALUES OF SECURITY PARAMETERS |
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| 183 | C --------------------------------- |
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| 184 | C |
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| 185 | 200 CONTINUE |
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| 186 | C |
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| 187 | c valeurs dans la dernière routine de FLott |
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| 188 | c GVSEC=0.10 |
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| 189 | c GSSEC=0.0001 |
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| 190 | C |
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| 191 | c GTSEC=0.00001 |
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| 192 | C |
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| 193 | c valeurs dans les routines Mars |
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| 194 | GVSEC=0.10 |
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| 195 | GSSEC=1.e-12 |
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| 196 | C |
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| 197 | GTSEC=1.e-7 |
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| 198 | C |
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| 199 | RETURN |
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| 200 | END |
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| 201 | |
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