! $Id: calwake.F90 2160 2014-11-28 15:36:29Z jbmadeleine $ SUBROUTINE calwake(paprs, pplay, dtime, t, q, omgb, dt_dwn, dq_dwn, m_dwn, & m_up, dt_a, dq_a, sigd, wdt_pbl, wdq_pbl, udt_pbl, udq_pbl, wake_deltat, & wake_deltaq, wake_dth, wake_h, wake_s, wake_dens, wake_pe, wake_fip, & wake_gfl, dt_wake, dq_wake, wake_k, undi_t, undi_q, wake_omgbdth, & wake_dp_omgb, wake_dtke, wake_dqke, wake_dtpbl, wake_dqpbl, wake_omg, & wake_dp_deltomg, wake_spread, wake_cstar, wake_d_deltat_gw, wake_ddeltat, & wake_ddeltaq) ! ************************************************************** ! * ! CALWAKE * ! interface avec le schema de calcul de la poche * ! froide * ! * ! written by : CHERUY Frederique, 13/03/2000, 10.31.05 * ! modified by : ROEHRIG Romain, 01/30/2007 * ! ************************************************************** USE dimphy IMPLICIT NONE ! ====================================================================== include "dimensions.h" ! #include "dimphy.h" include "YOMCST.h" ! Arguments ! ---------- INTEGER i, l, ktopw(klon) REAL dtime REAL paprs(klon, klev+1), pplay(klon, klev) REAL t(klon, klev), q(klon, klev), omgb(klon, klev) REAL dt_dwn(klon, klev), dq_dwn(klon, klev), m_dwn(klon, klev) REAL m_up(klon, klev) REAL dt_a(klon, klev), dq_a(klon, klev) REAL wdt_pbl(klon, klev), wdq_pbl(klon, klev) REAL udt_pbl(klon, klev), udq_pbl(klon, klev) REAL wake_deltat(klon, klev), wake_deltaq(klon, klev) REAL dt_wake(klon, klev), dq_wake(klon, klev) REAL wake_d_deltat_gw(klon, klev) REAL wake_h(klon), wake_s(klon) REAL wake_dth(klon, klev) REAL wake_pe(klon), wake_fip(klon), wake_gfl(klon) REAL undi_t(klon, klev), undi_q(klon, klev) REAL wake_omgbdth(klon, klev), wake_dp_omgb(klon, klev) REAL wake_dtke(klon, klev), wake_dqke(klon, klev) REAL wake_dtpbl(klon, klev), wake_dqpbl(klon, klev) REAL wake_omg(klon, klev), wake_dp_deltomg(klon, klev) REAL wake_spread(klon, klev), wake_cstar(klon) REAL wake_ddeltat(klon, klev), wake_ddeltaq(klon, klev) REAL d_deltatw(klon, klev), d_deltaqw(klon, klev) INTEGER wake_k(klon) REAL sigd(klon) REAL wake_dens(klon) ! Variable internes ! ----------------- REAL aire REAL p(klon, klev), ph(klon, klev+1), pi(klon, klev) REAL te(klon, klev), qe(klon, klev), omgbe(klon, klev+1) REAL dtdwn(klon, klev), dqdwn(klon, klev) REAL dta(klon, klev), dqa(klon, klev) REAL wdtpbl(klon, klev), wdqpbl(klon, klev) REAL udtpbl(klon, klev), udqpbl(klon, klev) REAL amdwn(klon, klev), amup(klon, klev) REAL dtw(klon, klev), dqw(klon, klev), dth(klon, klev) REAL d_deltat_gw(klon, klev) REAL dtls(klon, klev), dqls(klon, klev) REAL tu(klon, klev), qu(klon, klev) REAL hw(klon), sigmaw(klon), wape(klon), fip(klon), gfl(klon) REAL omgbdth(klon, klev+1), dp_omgb(klon, klev) REAL dtke(klon, klev), dqke(klon, klev) REAL dtpbl(klon, klev), dqpbl(klon, klev) REAL omg(klon, klev+1), dp_deltomg(klon, klev), spread(klon, klev) REAL cstar(klon) REAL sigd0(klon), wdens(klon) REAL rdcp ! print *, '-> calwake, wake_s ', wake_s(1) rdcp = 1./3.5 ! ----------------------------------------------------------- ! IM 290108 DO 999 i=1,klon ! a vectoriser ! ---------------------------------------------------------- DO l = 1, klev DO i = 1, klon p(i, l) = pplay(i, l) ph(i, l) = paprs(i, l) pi(i, l) = (pplay(i,l)/100000.)**rdcp te(i, l) = t(i, l) qe(i, l) = q(i, l) omgbe(i, l) = omgb(i, l) dtdwn(i, l) = dt_dwn(i, l) dqdwn(i, l) = dq_dwn(i, l) dta(i, l) = dt_a(i, l) dqa(i, l) = dq_a(i, l) wdtpbl(i, l) = wdt_pbl(i, l) wdqpbl(i, l) = wdq_pbl(i, l) udtpbl(i, l) = udt_pbl(i, l) udqpbl(i, l) = udq_pbl(i, l) END DO END DO omgbe(:, klev+1) = 0. DO i = 1, klon sigd0(i) = sigd(i) END DO ! print*, 'sigd0,sigd', sigd0, sigd(i) DO i = 1, klon ph(i, klev+1) = 0. END DO DO i = 1, klon ktopw(i) = wake_k(i) END DO DO l = 1, klev DO i = 1, klon dtw(i, l) = wake_deltat(i, l) dqw(i, l) = wake_deltaq(i, l) END DO END DO DO l = 1, klev DO i = 1, klon dtls(i, l) = dt_wake(i, l) dqls(i, l) = dq_wake(i, l) END DO END DO DO i = 1, klon hw(i) = wake_h(i) sigmaw(i) = wake_s(i) END DO ! fkc les flux de masses sont evalues aux niveaux et valent 0 a la surface ! fkc on veut le flux de masse au milieu des couches DO l = 1, klev - 1 DO i = 1, klon amdwn(i, l) = 0.5*(m_dwn(i,l)+m_dwn(i,l+1)) amdwn(i, l) = (m_dwn(i,l+1)) END DO END DO ! au sommet le flux de masse est nul DO i = 1, klon amdwn(i, klev) = 0.5*m_dwn(i, klev) END DO DO l = 1, klev DO i = 1, klon amup(i, l) = m_up(i, l) END DO END DO CALL wake(p, ph, pi, dtime, sigd0, te, qe, omgbe, dtdwn, dqdwn, amdwn, & amup, dta, dqa, wdtpbl, wdqpbl, udtpbl, udqpbl, dtw, dqw, dth, hw, & sigmaw, wape, fip, gfl, dtls, dqls, ktopw, omgbdth, dp_omgb, wdens, tu, & qu, dtke, dqke, dtpbl, dqpbl, omg, dp_deltomg, spread, cstar, & d_deltat_gw, d_deltatw, d_deltaqw) DO l = 1, klev DO i = 1, klon IF (ktopw(i)>0) THEN wake_deltat(i, l) = dtw(i, l) wake_deltaq(i, l) = dqw(i, l) wake_d_deltat_gw(i, l) = d_deltat_gw(i, l) wake_omgbdth(i, l) = omgbdth(i, l) wake_dp_omgb(i, l) = dp_omgb(i, l) wake_dtke(i, l) = dtke(i, l) wake_dqke(i, l) = dqke(i, l) wake_dtpbl(i, l) = dtpbl(i, l) wake_dqpbl(i, l) = dqpbl(i, l) wake_omg(i, l) = omg(i, l) wake_dp_deltomg(i, l) = dp_deltomg(i, l) wake_spread(i, l) = spread(i, l) wake_dth(i, l) = dth(i, l) dt_wake(i, l) = dtls(i, l) dq_wake(i, l) = dqls(i, l) undi_t(i, l) = tu(i, l) undi_q(i, l) = qu(i, l) wake_ddeltat(i, l) = d_deltatw(i, l) wake_ddeltaq(i, l) = d_deltaqw(i, l) ELSE wake_deltat(i, l) = 0. wake_deltaq(i, l) = 0. wake_d_deltat_gw(i, l) = 0. wake_omgbdth(i, l) = 0. wake_dp_omgb(i, l) = 0. wake_dtke(i, l) = 0. wake_dqke(i, l) = 0. wake_dtpbl(i, l) = 0. wake_dqpbl(i, l) = 0. wake_omg(i, l) = 0. wake_dp_deltomg(i, l) = 0. wake_spread(i, l) = 0. wake_dth(i, l) = 0. dt_wake(i, l) = 0. dq_wake(i, l) = 0. undi_t(i, l) = te(i, l) undi_q(i, l) = qe(i, l) wake_ddeltat(i, l) = 0. wake_ddeltaq(i, l) = 0. END IF END DO END DO DO i = 1, klon wake_h(i) = hw(i) wake_s(i) = sigmaw(i) wake_pe(i) = wape(i) wake_fip(i) = fip(i) wake_gfl(i) = gfl(i) wake_k(i) = ktopw(i) wake_cstar(i) = cstar(i) wake_dens(i) = wdens(i) END DO RETURN END SUBROUTINE calwake