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module gwprofil_m |
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IMPLICIT NONE |
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contains |
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SUBROUTINE gwprofil(nlon, nlev, ktest, kkcrith, kcrit, paphm1, prho, pstab, & |
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pvph, pri, ptau, pdmod, psig, pvar) |
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! Method. The stress profile for gravity waves is computed as |
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! follows: it is constant (no gwd) at the levels between the |
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! ground and the top of the blocked layer (kkenvh). It decreases |
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! linearly with height from the top of the blocked layer to 3 * |
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! varor (kknu), to simulate lee waves or nonlinear gravity wave |
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! breaking. Above it is constant, except when the wave encounters |
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! a critical level (kcrit) or when it breaks. |
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! Reference. See ECMWF research department documentation of the |
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! "I.F.S." |
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! Modifications. Passage of the new gwdrag TO I.F.S. (F. LOTT, |
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! 22/11/93) |
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USE dimphy, ONLY : klev, klon |
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USE yoegwd, ONLY : gkdrag, grahilo, grcrit, gssec, gtsec, nstra |
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INTEGER, intent(in):: nlon, nlev |
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INTEGER, intent(in):: ktest(nlon), kkcrith(nlon), kcrit(nlon) |
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REAL, intent(in):: paphm1(nlon, nlev+1), prho(nlon, nlev+1) |
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REAL, intent(in):: pstab(nlon, nlev+1) |
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real, intent(in):: pvph(nlon, nlev+1), pri(nlon, nlev+1) |
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real ptau(nlon, nlev+1) |
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REAL, intent(in):: pdmod(nlon) |
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REAL, INTENT (IN) :: psig(nlon) |
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REAL, INTENT (IN) :: pvar(nlon) |
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! Local: |
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INTEGER jl, jk |
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REAL zsqr, zalfa, zriw, zdel, zb, zalpha, zdz2n |
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REAL zdelp, zdelpt |
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REAL zdz2(klon, klev), znorm(klon), zoro(klon) |
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REAL ztau(klon, klev+1) |
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!----------------------------------------------------------------------- |
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! 1. INITIALIZATION |
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! COMPUTATIONAL CONSTANTS. |
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DO jl = 1, klon |
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IF (ktest(jl)==1) THEN |
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zoro(jl) = psig(jl)*pdmod(jl)/4./max(pvar(jl), 1.0) |
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ztau(jl, klev+1) = ptau(jl, klev+1) |
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END IF |
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end DO |
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DO jk = klev, 2, -1 |
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! 4.1 CONSTANT WAVE STRESS UNTIL TOP OF THE |
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! BLOCKING LAYER. |
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DO jl = 1, klon |
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IF (ktest(jl)==1) THEN |
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IF (jk>kkcrith(jl)) THEN |
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ptau(jl, jk) = ztau(jl, klev+1) |
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ELSE |
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ptau(jl, jk) = grahilo*ztau(jl, klev+1) |
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END IF |
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END IF |
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end DO |
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! 4.2 WAVE DISPLACEMENT AT NEXT LEVEL. |
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DO jl = 1, klon |
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IF (ktest(jl)==1) THEN |
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IF (jk<kkcrith(jl)) THEN |
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znorm(jl) = gkdrag * prho(jl, jk) * sqrt(pstab(jl, jk)) & |
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* pvph(jl, jk)* zoro(jl) |
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zdz2(jl, jk) = ptau(jl, jk+1)/max(znorm(jl), gssec) |
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END IF |
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END IF |
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end DO |
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! 4.3 WAVE RICHARDSON NUMBER, NEW WAVE DISPLACEMENT |
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! AND STRESS: BREAKING EVALUATION AND CRITICAL |
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! LEVEL |
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DO jl = 1, klon |
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IF (ktest(jl)==1) THEN |
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IF (jk<kkcrith(jl)) THEN |
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IF ((ptau(jl, jk+1)<gtsec) .OR. (jk<=kcrit(jl))) THEN |
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ptau(jl, jk) = 0.0 |
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ELSE |
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zsqr = sqrt(pri(jl, jk)) |
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zalfa = sqrt(pstab(jl, jk)*zdz2(jl, jk))/pvph(jl, jk) |
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zriw = pri(jl, jk)*(1.-zalfa)/(1+zalfa*zsqr)**2 |
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IF (zriw<grcrit) THEN |
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zdel = 4./zsqr/grcrit + 1./grcrit**2 + 4./grcrit |
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zb = 1./grcrit + 2./zsqr |
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zalpha = 0.5*(-zb+sqrt(zdel)) |
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zdz2n = (pvph(jl, jk)*zalpha)**2/pstab(jl, jk) |
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ptau(jl, jk) = znorm(jl)*zdz2n |
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ELSE |
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ptau(jl, jk) = znorm(jl)*zdz2(jl, jk) |
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END IF |
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ptau(jl, jk) = min(ptau(jl, jk), ptau(jl, jk+1)) |
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END IF |
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END IF |
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END IF |
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end DO |
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end DO |
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! REORGANISATION OF THE STRESS PROFILE AT LOW LEVEL |
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DO jl = 1, klon |
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IF (ktest(jl)==1) THEN |
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ztau(jl, kkcrith(jl)) = ptau(jl, kkcrith(jl)) |
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ztau(jl, nstra) = ptau(jl, nstra) |
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END IF |
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end DO |
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DO jk = 1, klev |
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DO jl = 1, klon |
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IF (ktest(jl)==1) THEN |
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IF (jk>kkcrith(jl)) THEN |
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zdelp = paphm1(jl, jk) - paphm1(jl, klev+1) |
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zdelpt = paphm1(jl, kkcrith(jl)) - paphm1(jl, klev+1) |
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ptau(jl, jk) = ztau(jl, klev+1) & |
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+ (ztau(jl, kkcrith(jl)) - ztau(jl, klev+1))*zdelp/zdelpt |
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END IF |
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END IF |
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end DO |
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! REORGANISATION IN THE STRATOSPHERE |
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DO jl = 1, klon |
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IF (ktest(jl)==1) THEN |
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IF (jk < nstra) THEN |
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zdelp = paphm1(jl, nstra) |
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zdelpt = paphm1(jl, jk) |
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ptau(jl, jk) = ztau(jl, nstra) * zdelpt / zdelp |
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END IF |
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END IF |
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end DO |
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! REORGANISATION IN THE TROPOSPHERE |
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DO jl = 1, klon |
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IF (ktest(jl)==1) THEN |
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IF (jk<kkcrith(jl) .AND. jk > nstra) THEN |
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zdelp = paphm1(jl, jk) - paphm1(jl, kkcrith(jl)) |
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zdelpt = paphm1(jl, nstra) - paphm1(jl, kkcrith(jl)) |
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ptau(jl, jk) = ztau(jl, kkcrith(jl)) & |
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+ (ztau(jl, nstra) - ztau(jl, kkcrith(jl)))*zdelp/zdelpt |
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END IF |
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END IF |
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end DO |
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end DO |
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END SUBROUTINE gwprofil |
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end module gwprofil_m |