SUBROUTINE CALCUL_CLOUD_OVERLAP_DECORR_LEN & & (KIDIA, KFDIA, KLON, KLEV, & & driver_config, & & pressure_hl, & & PDECORR_LEN_EDGES_M, PDECORR_LEN_WATER_M, PDECORR_LEN_RATIO) ! A Idelkadi ! ------------- ! 04 2024 ! Depart de la routine de l' IFS ! But : calcul de la Ld (longueur de decorrelation) ! Dans le cas overlap_scheme_name=="Exp-Ran" ! 3 cas en fonction de kdecolat (namelist_ecrad) : ! 0 => Ld=overlap_decorr_length (namelist_ecrad) ! 1 => Ld=f(latitude) Shonk et al. (2010) Eq. 13 formula ! 2 => Ld=f(latitude) Shonk et al. (2010) lissee a l equateur ! 3 => Ld=f(pres) : ! Ld=low_decorrelation_length si pres >= 680hPa ! Ld=mid_decorrelation_length si pres entre [440,680] ! Ld=high_decorrelation_length si pres < 440hPa ! ! TO DO ! Que faire de PDECORR_LEN_WATER_M ? ! ------------------------------------------------------------------- USE PARKIND1 , ONLY : JPIM, JPRB USE YOMHOOK , ONLY : LHOOK, DR_HOOK, JPHOOK USE YOMCST , ONLY : RPI USE geometry_mod, ONLY: latitude_deg USE lmdz_cloud_optics_prop_ini , ONLY : prmhc, prlmc USE setup_config_from_lmdz, ONLY : driver_config_type USE write_field_phy ! ------------------------------------------------------------------- IMPLICIT NONE ! INPUT ARGUMENTS ! *** Array dimensions and ranges INTEGER(KIND=JPIM),INTENT(IN) :: KIDIA ! Start column to process INTEGER(KIND=JPIM),INTENT(IN) :: KFDIA ! End column to process INTEGER(KIND=JPIM),INTENT(IN) :: KLON ! Number of columns ! AI 04 2024 INTEGER(KIND=JPIM),INTENT(IN) :: KLEV ! *** Single-level variables !AI 04 2024 REAL(KIND=JPRB), intent(in) :: pressure_hl(KLON,KLEV+1) type(driver_config_type),intent(in) :: driver_config ! OUTPUT ARGUMENTS ! *** Decorrelation lengths for cloud edges and cloud water content, in m ! A.I 04 2024 REAL(KIND=JPRB), INTENT(OUT) :: PDECORR_LEN_EDGES_M(KLON,KLEV) REAL(KIND=JPRB), INTENT(OUT), OPTIONAL :: PDECORR_LEN_WATER_M(KLON,KLEV) ! Ratio of water-content to cloud-edge decorrelation lengths REAL(KIND=JPRB), INTENT(OUT), OPTIONAL :: PDECORR_LEN_RATIO ! LOCAL VARIABLES REAL(KIND=JPRB) :: ZRADIANS_TO_DEGREES, ZABS_LAT_DEG, ZCOS_LAT ! AI 04 2024 REAL(KIND=JPRB) :: PGEMU(KLON) ! Sine of latitude REAL(KIND=JPRB) :: RDECORR_CF REAL(KIND=JPRB) :: RDECORR_CW = 1.0_JPRB INTEGER(KIND=JPIM) :: JL, JK REAL(KIND=JPHOOK) :: ZHOOK_HANDLE ! ------------------------------------------------------------------- IF (LHOOK) CALL DR_HOOK('CLOUD_OVERLAP_DECORR_LEN',0,ZHOOK_HANDLE) ! ------------------------------------------------------------------- print*,'driver_config%kdecolat = ', driver_config%kdecolat IF (driver_config%kdecolat == 0) THEN ! Decorrelation lengths are constant values ! overlap_decorr_length lu dans namelist en m RDECORR_CF = driver_config%overlap_decorr_length / 1000.0_JPRB PDECORR_LEN_EDGES_M(KIDIA:KFDIA,:) = driver_config%overlap_decorr_length ! IF (PRESENT(PDECORR_LEN_WATER_M)) THEN ! PDECORR_LEN_WATER_M = RDECORR_CW * 1000.0_JPRB ! ENDIF ! IF (PRESENT(PDECORR_LEN_RATIO)) THEN ! PDECORR_LEN_RATIO = RDECORR_CW / RDECORR_CF ! ENDIF ELSE ZRADIANS_TO_DEGREES = 180.0_JPRB / RPI PGEMU = SIN(latitude_deg) IF (driver_config%kdecolat == 1) THEN ! Shonk et al. (2010) Eq. 13 formula DO JL = KIDIA,KFDIA ZABS_LAT_DEG = ABS(ASIN(PGEMU(JL)) * ZRADIANS_TO_DEGREES) PDECORR_LEN_EDGES_M(JL,:) = (2.899_JPRB - 0.02759_JPRB * ZABS_LAT_DEG) * 1000.0_JPRB ENDDO ELSE ! KDECOLAT == 2 DO JL = KIDIA,KFDIA ! Shonk et al. (2010) but smoothed over the equator ZCOS_LAT = COS(ASIN(PGEMU(JL))) PDECORR_LEN_EDGES_M(JL,:) = (0.75_JPRB + 2.149_JPRB * ZCOS_LAT*ZCOS_LAT) * 1000.0_JPRB ENDDO ENDIF ! Both KDECOLAT = 1 and 2 assume that the decorrelation length for ! cloud water content is half that for cloud edges ! IF (PRESENT(PDECORR_LEN_WATER_M)) THEN ! PDECORR_LEN_WATER_M(KIDIA:KFDIA,:) = PDECORR_LEN_EDGES_M(KIDIA:KFDIA,:) * 0.5_JPRB ! ENDIF ! IF (PRESENT(PDECORR_LEN_RATIO)) THEN ! PDECORR_LEN_RATIO = 0.5_JPRB ! ENDIF ENDIF !AI 04 2024 IF (driver_config%kdecolat == 3) THEN DO jk = 1, klev DO JL = 1, klon IF (pressure_hl(JL,jk)<prmhc) THEN PDECORR_LEN_EDGES_M(JL,jk) = driver_config%high_decorrelation_length ELSE IF (pressure_hl(JL,jk)>=prmhc .AND. pressure_hl(JL,jk)<prlmc) THEN PDECORR_LEN_EDGES_M(JL,jk) = driver_config%mid_decorrelation_length ELSE IF (pressure_hl(JL,jk)>=prlmc) THEN PDECORR_LEN_EDGES_M(JL,jk) = driver_config%low_decorrelation_length ENDIF ENDDO ENDDO ! Both KDECOLAT = 1 and 2 assume that the decorrelation length for ! cloud water content is half that for cloud edges ! IF (PRESENT(PDECORR_LEN_WATER_M)) THEN ! PDECORR_LEN_WATER_M(KIDIA:KFDIA,:) = PDECORR_LEN_EDGES_M(KIDIA:KFDIA,:) * 0.5_JPRB ! ENDIF ! IF (PRESENT(PDECORR_LEN_RATIO)) THEN ! PDECORR_LEN_RATIO = 0.5_JPRB ! ENDIF ENDIF !CALL writefield_phy('latitude',latitude_deg,1) !CALL writefield_phy('pressure_hl',pressure_hl,klev+1) !CALL writefield_phy('Ldecorel',PDECORR_LEN_EDGES_M,klev) ! ------------------------------------------------------------------- IF (LHOOK) CALL DR_HOOK('CLOUD_OVERLAP_DECORR_LEN',1,ZHOOK_HANDLE) END SUBROUTINE CALCUL_CLOUD_OVERLAP_DECORR_LEN