- Timestamp:
- Nov 13, 2017 2:04:26 PM (7 years ago)
- Location:
- palm/trunk
- Files:
-
- 1 added
- 7 edited
Legend:
- Unmodified
- Added
- Removed
-
palm/trunk/INSTALL/ex_lsm_clearsky_rc
r2556 r2608 1 1 2 2 ****************************** -------------------------------------------- 3 * PALM 4.0 Rev: 2 532* atmosphere - run without 1D - prerun3 * PALM 4.0 Rev: 2603:26 * atmosphere - run without 1D - prerun 4 4 ****************************** -------------------------------------------- 5 5 6 Date: 1 8-10-17 Run: ex_lsm_clearsky7 Time: 1 7:42:56Run-No.: 008 Run on host: imuk6 Date: 13-11-17 Run: ex_lsm_clearsky 7 Time: 14:31:43 Run-No.: 00 8 Run on host: lcmuk 9 9 Number of PEs: 4 Processor grid (x,y): ( 2, 2) calculated 10 10 ------------------------------------------------------------------------------ … … 88 88 89 89 Albedo is set for land surface type: mixed farming, tall grassland 90 Geograph. longitude : lambda = 0.0 degr91 Day of the year at model start : day_init = 17292 UTC time at model start : time_utc_init = 43200.0 s93 90 Timestep: dt_radiation = 60.00 s 94 91 … … 237 234 ------------------- 238 235 239 Geograph. latitude : phi = 55.0 degr 236 Geograph. latitude : latitude = 55.0 degr 237 Geograph. longitude : longitude = 0.0 degr 240 238 Angular velocity : omega = 0.729E-04 rad/s 241 239 Coriolis parameter : f = 0.000119 1/s 242 240 f* = 0.000084 1/s 241 Day of the year at model start : day_init = 172 242 UTC time at model start : time_utc_init = 43200.0 s 243 243 244 244 Gravity : g = 9.8 m/s**2 … … 284 284 0 0 00:00:00.00 8.6700A 5.1898D -0.2288D 0.1182 0.100 0.00 0.200E-11 800. 0.119E+02 0.103E-02 0.611E-03 0.888E-13 9 9 23 11 7 19 5 26 7 0.000 0.000 0 285 285 0 1 00:00:08.67 8.6900A 5.1806 0.2159 0.1162 0.001 0.00 0.000E+00 550. 0.119E+02 0.867E-03 0.287E-05 0.440E-15 9 9 24 4 5 26 5 26 8 0.000 0.000 0 286 0 2 00:00:17.35 8.6900A 5.1762 0.1915 0.1151 0.021 1. 11 -0.474E+02 100. 0.119E+02 0.793E-03 0.759E-05 0.407E-15 5 16 32 4 5 27 5 26 9 0.000 0.000 0287 0 3 00:00:26.04 8.7000A 5.1723 0.1786 0.1113 0.021 0.7 2 -0.545E+01 100. 0.119E+02 0.751E-03 0.253E-05 0.386E-15 5 16 33 4 5 28 5 26 10 0.000 0.000 0288 0 4 00:00:34.75 8.7000A 5.1732 -0.1675 0.1061 0.02 8 0.70 -0.372E+01 100. 0.119E+02 0.721E-03 0.408E-05 0.358E-15 5 16 34 8 29 32 5 26 11 0.000 0.000 0289 0 5 00:00:43.45 8.7000A 5.1719 -0.1671 0.1028 0.034 0.9 4 -0.297E+01 250. 0.119E+02 0.698E-03 0.487E-05 0.337E-15 5 16 35 8 29 33 5 26 11 0.000 0.000 0290 0 6 00:00:52.15 8.7000A 5.1701 -0.1621 0.1039 0.0 40 0.94 -0.250E+01 250. 0.119E+02 0.680E-03 0.567E-05 0.321E-15 5 16 36 8 29 34 5 26 12 0.000 0.000 0291 0 7 00:01:00.85 8.7100A 5.1675 -0.1565 0.1043 0.04 6 1.22 -0.218E+01 550. 0.119E+02 0.665E-03 0.649E-05 0.306E-15 5 16 37 8 29 35 5 26 13 0.000 0.000 0292 0 8 00:01:09.56 8.7100A 5.1643 0.1515 0.1040 0.051 1.2 3 -0.195E+01 550. 0.119E+02 0.652E-03 0.733E-05 0.295E-15 5 16 38 11 3 22 5 26 14 0.000 0.000 0293 0 9 00:01:18.27 8.7100A 5.1636 -0.1506 0.1034 0.05 7 1.21 -0.172E+01 550. 0.119E+02 0.640E-03 0.812E-05 0.282E-15 5 16 38 8 29 36 5 26 15 0.000 0.000 0294 0 10 00:01:26.98 8.7100A 5.163 6 -0.1516 0.1024 0.062 1.22 -0.158E+01 550. 0.119E+02 0.630E-03 0.898E-05 0.270E-15 5 16 39 8 29 37 5 26 16 0.000 0.000 0295 0 11 00:01:35.69 8.7200A 5.1632 -0.1516 0.1013 0.067 1.2 2 -0.148E+01 550. 0.119E+02 0.620E-03 0.980E-05 0.260E-15 5 16 0 8 29 38 5 26 17 0.000 0.000 0296 0 12 00:01:44.41 8.7200A 5.162 5 -0.1506 0.0999 0.072 1.23 -0.139E+01 550. 0.119E+02 0.612E-03 0.106E-04 0.250E-15 5 16 1 8 29 39 5 26 18 0.000 0.000 0297 0 13 00:01:53.13 8.7200A 5.1614 -0.1488 0.098 4 0.077 1.23 -0.132E+01 550. 0.119E+02 0.604E-03 0.115E-04 0.239E-15 5 16 2 8 29 0 5 26 19 0.000 0.000 0298 0 14 00:02:01.85 8.7200A 5.1600 -0.1462 0.0966 0.08 2 1.24 -0.126E+01 550. 0.119E+02 0.596E-03 0.123E-04 0.231E-15 5 16 3 8 29 1 5 26 20 0.000 0.000 0286 0 2 00:00:17.35 8.6900A 5.1762 0.1915 0.1151 0.021 1.06 -0.495E+02 100. 0.119E+02 0.793E-03 0.744E-05 0.407E-15 5 16 32 4 5 27 5 26 9 0.000 0.000 0 287 0 3 00:00:26.04 8.7000A 5.1723 0.1786 0.1113 0.021 0.70 -0.516E+01 100. 0.119E+02 0.751E-03 0.247E-05 0.385E-15 5 16 33 4 5 28 5 26 10 0.000 0.000 0 288 0 4 00:00:34.75 8.7000A 5.1732 -0.1675 0.1061 0.027 0.69 -0.360E+01 100. 0.119E+02 0.721E-03 0.396E-05 0.358E-15 5 16 34 8 29 32 5 26 11 0.000 0.000 0 289 0 5 00:00:43.45 8.7000A 5.1719 -0.1671 0.1028 0.034 0.93 -0.287E+01 250. 0.119E+02 0.698E-03 0.471E-05 0.337E-15 5 16 35 8 29 33 5 26 11 0.000 0.000 0 290 0 6 00:00:52.15 8.7000A 5.1701 -0.1621 0.1039 0.039 0.93 -0.242E+01 250. 0.119E+02 0.680E-03 0.548E-05 0.321E-15 5 16 36 8 29 34 5 26 12 0.000 0.000 0 291 0 7 00:01:00.85 8.7100A 5.1675 -0.1565 0.1043 0.045 1.21 -0.211E+01 550. 0.119E+02 0.665E-03 0.627E-05 0.306E-15 5 16 37 8 29 35 5 26 13 0.000 0.000 0 292 0 8 00:01:09.56 8.7100A 5.1643 0.1515 0.1040 0.051 1.21 -0.189E+01 550. 0.119E+02 0.652E-03 0.709E-05 0.294E-15 5 16 38 11 3 22 5 26 14 0.000 0.000 0 293 0 9 00:01:18.27 8.7100A 5.1636 -0.1506 0.1034 0.056 1.20 -0.166E+01 550. 0.119E+02 0.640E-03 0.785E-05 0.282E-15 5 16 38 8 29 36 5 26 15 0.000 0.000 0 294 0 10 00:01:26.98 8.7100A 5.1635 -0.1516 0.1024 0.061 1.20 -0.153E+01 550. 0.119E+02 0.630E-03 0.868E-05 0.269E-15 5 16 39 8 29 37 5 26 16 0.000 0.000 0 295 0 11 00:01:35.69 8.7200A 5.1632 -0.1516 0.1013 0.067 1.20 -0.143E+01 550. 0.119E+02 0.620E-03 0.949E-05 0.260E-15 5 16 0 8 29 38 5 26 17 0.000 0.000 0 296 0 12 00:01:44.41 8.7200A 5.1624 -0.1506 0.0999 0.072 1.21 -0.135E+01 550. 0.119E+02 0.612E-03 0.103E-04 0.249E-15 5 16 1 8 29 39 5 26 18 0.000 0.000 0 297 0 13 00:01:53.13 8.7200A 5.1614 -0.1488 0.0983 0.077 1.22 -0.128E+01 550. 0.119E+02 0.604E-03 0.111E-04 0.239E-15 5 16 2 8 29 0 5 26 19 0.000 0.000 0 298 0 14 00:02:01.85 8.7200A 5.1600 -0.1462 0.0966 0.081 1.22 -0.122E+01 550. 0.119E+02 0.596E-03 0.119E-04 0.230E-15 5 16 3 8 29 1 5 26 20 0.000 0.000 0 -
palm/trunk/SOURCE/Makefile
r2600 r2608 25 25 # ----------------- 26 26 # $Id$ 27 # Added diagnostic_quantities_mod 28 # 29 # 2600 2017-11-01 14:11:20Z raasch 27 30 # comment line concerning bound checks removed 28 31 # … … 384 387 data_output_ptseries.f90 data_output_spectra.f90 data_output_flight.f90\ 385 388 data_output_tseries.f90 data_output_2d.f90 data_output_3d.f90 \ 386 date_and_time_mod.f90 \389 date_and_time_mod.f90 diagnostic_quantities_mod.f90 \ 387 390 diffusion_e.f90 diffusion_s.f90 diffusion_u.f90 diffusion_v.f90 \ 388 391 diffusion_w.f90 diffusivities.f90 disturb_field.f90 \ … … 482 485 buoyancy.o: modules.o mod_kinds.o 483 486 calc_mean_profile.o: modules.o mod_kinds.o 484 calc_liquid_water_content.o: modules.o mod_kinds.o 487 calc_liquid_water_content.o: modules.o mod_kinds.o diagnostic_quantities_mod.o 485 488 calc_radiation.o: modules.o mod_kinds.o 486 489 check_for_restart.o: modules.o mod_kinds.o pmc_interface_mod.o … … 513 516 netcdf_interface_mod.o land_surface_model_mod.o urban_surface_mod.o 514 517 date_and_time_mod.o: modules.o mod_kinds.o 518 diagnostic_quantities_mod.o: modules.o mod_kinds.o 515 519 diffusion_e.o: modules.o mod_kinds.o microphysics_mod.o \ 516 520 mod_particle_attributes.o surface_mod.o … … 552 556 init_slope.o: modules.o mod_kinds.o 553 557 interaction_droplets_ptq.o: modules.o mod_kinds.o 554 land_surface_model_mod.o: modules.o mod_kinds.o radiation_model_mod.o surface_mod.o 558 land_surface_model_mod.o: modules.o mod_kinds.o radiation_model_mod.o surface_mod.o diagnostic_quantities_mod.o 555 559 large_scale_forcing_nudging_mod.o: modules.o cpulog_mod.o mod_kinds.o surface_mod.o 556 560 local_stop.o: modules.o mod_kinds.o pmc_interface_mod.o … … 570 574 mod_kinds.o mod_particle_attributes.o 571 575 lpm_droplet_condensation.o: modules.o cpulog_mod.o lpm_collision_kernels.o \ 572 mod_kinds.o mod_particle_attributes.o 576 mod_kinds.o mod_particle_attributes.o diagnostic_quantities_mod.o 573 577 lpm_exchange_horiz.o: modules.o cpulog_mod.o lpm_pack_arrays.o mod_kinds.o \ 574 578 mod_particle_attributes.o netcdf_interface_mod.o … … 576 580 netcdf_interface_mod.o random_function_mod.o mod_particle_attributes.o \ 577 581 lpm_exchange_horiz.o lpm_pack_arrays.o random_generator_parallel_mod.o \ 578 surface_mod.o 582 surface_mod.o diagnostic_quantities_mod.o 579 583 lpm_init_sgs_tke.o: modules.o mod_kinds.o mod_particle_attributes.o surface_mod.o 580 584 lpm_merging.o: modules.o cpulog_mod.o mod_kinds.o mod_particle_attributes.o … … 588 592 lpm_write_restart_file.o: modules.o mod_kinds.o mod_particle_attributes.o 589 593 message.o: modules.o mod_kinds.o pmc_interface_mod.o 590 microphysics_mod.o: modules.o cpulog_mod.o mod_kinds.o surface_mod.o 594 microphysics_mod.o: modules.o cpulog_mod.o mod_kinds.o surface_mod.o diagnostic_quantities_mod.o 591 595 model_1d_mod.o: modules.o mod_kinds.o 592 596 modules.o: modules.f90 mod_kinds.o -
palm/trunk/SOURCE/calc_liquid_water_content.f90
r2292 r2608 25 25 ! ----------------- 26 26 ! $Id$ 27 ! Calculation of supersaturation in external module (diagnostic_quantities_mod). 28 ! Change: correct calculation of saturation specific humidity to saturation 29 ! mixing ratio (the factor of 0.378 vanishes). 30 ! 31 ! 2292 2017-06-20 09:51:42Z schwenkel 27 32 ! Implementation of new microphysic scheme: cloud_scheme = 'morrison' 28 33 ! includes two more prognostic equations for cloud drop concentration (nc) … … 82 87 83 88 USE arrays_3d, & 84 ONLY: hyp, pt, q, qc, ql, qr 85 86 USE cloud_parameters, & 87 ONLY: l_d_cp, l_d_r, t_d_pt 89 ONLY: q, qc, ql, qr 88 90 89 91 USE control_parameters, & 90 92 ONLY: microphysics_morrison, microphysics_seifert 93 94 USE diagnostic_quantities_mod, & 95 ONLY: e_s, magnus, q_s, sat, supersaturation, t_l 91 96 92 97 USE indices, & … … 104 109 INTEGER(iwp) :: k !< 105 110 106 REAL(wp) :: alpha !<107 REAL(wp) :: e_s !<108 REAL(wp) :: q_s !<109 REAL(wp) :: t_l !<110 111 111 112 DO i = nxlg, nxrg … … 114 115 115 116 ! 116 !-- Compute the liquid water temperature 117 t_l = t_d_pt(k) * pt(k,j,i) 118 119 ! 120 !-- Compute saturation water vapor pressure at t_l 121 e_s = 610.78_wp * EXP( 17.269_wp * ( t_l - 273.16_wp ) / & 122 ( t_l - 35.86_wp ) ) 123 124 ! 125 !-- Compute approximation of saturation humidity 126 q_s = 0.622_wp * e_s / ( hyp(k) - 0.378_wp * e_s ) 127 128 ! 129 !-- Correction factor 130 alpha = 0.622_wp * l_d_r * l_d_cp / ( t_l * t_l ) 131 132 ! 133 !-- Correction of the approximated value 134 !-- (see: Cuijpers + Duynkerke, 1993, JAS, 23) 135 q_s = q_s * ( 1.0_wp + alpha * q(k,j,i) ) / ( 1.0_wp + alpha * q_s ) 117 !-- Call calculation of supersaturation located 118 !-- in diagnostic_quantities_mod 119 CALL supersaturation ( i, j, k ) 136 120 137 121 ! -
palm/trunk/SOURCE/land_surface_model_mod.f90
r2575 r2608 25 25 ! ----------------- 26 26 ! $Id$ 27 ! Calculation of magnus equation in external module (diagnostic_quantities_mod). 28 ! Adjust calculation of vapor pressure and saturation mixing ratio that it is 29 ! consistent with formulations in other parts of PALM. 30 ! 31 ! 2575 2017-10-24 09:57:58Z maronga 27 32 ! Pavement parameterization revised 28 33 ! … … 1410 1415 SUBROUTINE lsm_energy_balance( horizontal, l ) 1411 1416 1412 1417 USE diagnostic_quantities_mod, & 1418 ONLY: magnus 1419 1413 1420 USE pegrid 1414 1421 … … 1648 1655 f2 = 1.0E-20_wp 1649 1656 ENDIF 1650 ! 1651 !-- Calculate water vapour pressure at saturation 1652 e_s = 0.01_wp * 610.78_wp * EXP( 17.269_wp * ( surf_t_surface%var_1d(m) & 1653 - 273.16_wp ) / ( surf_t_surface%var_1d(m) - 35.86_wp ) ) 1657 1658 ! 1659 !-- Calculate water vapour pressure at saturation and convert to hPa 1660 e_s = 0.01_wp * magnus( surf_t_surface%var_1d(m) ) 1661 1654 1662 ! 1655 1663 !-- f3: correction for vapour pressure deficit … … 1657 1665 ! 1658 1666 !-- Calculate vapour pressure 1659 e = qv1 * surface_pressure / 0.622_wp1667 e = qv1 * surface_pressure / ( qv1 + 0.622_wp ) 1660 1668 f3 = EXP ( - surf%g_d(m) * (e_s - e) ) 1661 1669 ELSE … … 1698 1706 ! 1699 1707 !-- Calculate saturation specific humidity 1700 q_s = 0.622_wp * e_s / surface_pressure1708 q_s = 0.622_wp * e_s / ( surface_pressure - e_s ) 1701 1709 ! 1702 1710 !-- In case of dewfall, set evapotranspiration to zero … … 1733 1741 ! 1734 1742 !-- Calculate derivative of q_s for Taylor series expansion 1735 e_s_dt = e_s * ( 17. 269_wp / ( surf_t_surface%var_1d(m) - 35.86_wp) - &1736 17. 269_wp*( surf_t_surface%var_1d(m) - 273.16_wp) &1737 / ( surf_t_surface%var_1d(m) - 35.86_wp)**2 )1738 1739 dq_s_dt = 0.622_wp * e_s_dt / surface_pressure1743 e_s_dt = e_s * ( 17.62_wp / ( surf_t_surface%var_1d(m) - 29.65_wp) - & 1744 17.62_wp*( surf_t_surface%var_1d(m) - 273.15_wp) & 1745 / ( surf_t_surface%var_1d(m) - 29.65_wp)**2 ) 1746 1747 dq_s_dt = 0.622_wp * e_s_dt / ( surface_pressure - e_s_dt ) 1740 1748 ! 1741 1749 !-- Add LW up so that it can be removed in prognostic equation … … 1988 1996 SUBROUTINE calc_q_surface 1989 1997 1998 USE diagnostic_quantities_mod 1999 1990 2000 IMPLICIT NONE 1991 2001 … … 1997 2007 j = surf%j(m) 1998 2008 k = surf%k(m) 1999 2000 ! 2001 !-- Calculate water vapour pressure at saturation 2002 e_s = 0.01_wp * 610.78_wp * EXP( 17.269_wp * & 2003 ( surf_t_surface_p%var_1d(m) - 273.16_wp ) / & 2004 ( surf_t_surface_p%var_1d(m) - 35.86_wp ) & 2005 ) 2009 ! 2010 !-- Calculate water vapour pressure at saturation and convert to hPa 2011 e_s = 0.01_wp * magnus( surf_t_surface_p%var_1d(m) ) 2006 2012 2007 2013 ! 2008 2014 !-- Calculate specific humidity at saturation 2009 q_s = 0.622_wp * e_s / surface_pressure2015 q_s = 0.622_wp * e_s / ( surface_pressure - e_s ) 2010 2016 2011 2017 resistance = surf%r_a(m) / ( surf%r_a(m) + surf%r_s(m) ) -
palm/trunk/SOURCE/lpm_droplet_condensation.f90
r2375 r2608 25 25 ! ----------------- 26 26 ! $Id$ 27 ! Calculation of magnus equation in external module (diagnostic_quantities_mod). 28 ! 29 ! 2375 2017-08-29 14:10:28Z schwenkel 27 30 ! Changed ONLY-dependencies 28 31 ! … … 129 132 USE cpulog, & 130 133 ONLY: cpu_log, log_point_s 134 135 USE diagnostic_quantities_mod, & 136 ONLY: magnus 131 137 132 138 USE grid_variables, & … … 199 205 ! 200 206 !-- Saturation vapor pressure (Eq. 10 in Bolton, 1980) 201 e_s = 611.2_wp * EXP( 17.62_wp * ( t_int - 273.15_wp ) / ( t_int - 29.65_wp ))207 e_s = magnus( t_int ) 202 208 ! 203 209 !-- Current vapor pressure -
palm/trunk/SOURCE/lpm_init.f90
r2606 r2608 25 25 ! ----------------- 26 26 ! $Id$ 27 ! Calculation of magnus equation in external module (diagnostic_quantities_mod). 28 ! 29 ! 2606 2017-11-10 10:36:31Z schwenkel 27 30 ! Changed particle box locations: center of particle box now coincides 28 31 ! with scalar grid point of same index. … … 986 989 USE constants, & 987 990 ONLY: pi 991 992 USE diagnostic_quantities_mod, & 993 ONLY: magnus 994 988 995 989 996 USE kinds … … 1124 1131 t_int = pt(kp,jp,ip) * ( hyp(kp) / 100000.0_wp )**0.286_wp 1125 1132 1126 e_s = 611.0_wp * EXP( l_d_rv * ( 3.6609E-3_wp - 1.0_wp / t_int ))1127 e_a = q(kp,jp,ip) * hyp(kp) / ( 0.378_wp *q(kp,jp,ip) + 0.622_wp )1133 e_s = magnus( t_int ) 1134 e_a = q(kp,jp,ip) * hyp(kp) / ( q(kp,jp,ip) + 0.622_wp ) 1128 1135 1129 1136 sigma = 0.0761_wp - 0.000155_wp * ( t_int - 273.15_wp ) -
palm/trunk/SOURCE/microphysics_mod.f90
r2522 r2608 25 25 ! ----------------- 26 26 ! $Id$ 27 ! Calculation of supersaturation in external module (diagnostic_quantities_mod). 28 ! Change: correct calculation of saturation specific humidity to saturation 29 ! mixing ratio (the factor of 0.378 vanishes). 30 ! 31 ! 2522 2017-10-05 14:20:37Z schwenkel 27 32 ! Minor bugfix 28 33 ! … … 548 553 ONLY: cpu_log, log_point_s 549 554 555 USE diagnostic_quantities_mod, & 556 ONLY: e_s, magnus, q_s, sat, supersaturation, t_l 557 550 558 USE indices, & 551 559 ONLY: nxlg, nxrg, nysg, nyng, nzb, nzt … … 564 572 REAL(wp) :: activ !< 565 573 REAL(wp) :: afactor !< 566 REAL(wp) :: alpha !<567 574 REAL(wp) :: beta_act !< 568 575 REAL(wp) :: bfactor !< 569 REAL(wp) :: e_s !<570 576 REAL(wp) :: k_act !< 571 577 REAL(wp) :: n_act !< 572 578 REAL(wp) :: n_ccn !< 573 REAL(wp) :: q_s !<574 579 REAL(wp) :: s_0 !< 575 REAL(wp) :: sat !<576 580 REAL(wp) :: sat_max !< 577 581 REAL(wp) :: sigma !< 578 582 REAL(wp) :: sigma_act !< 579 REAL(wp) :: t_int !<580 REAL(wp) :: t_l !<581 583 582 584 CALL cpu_log( log_point_s(65), 'activation', 'start' ) … … 587 589 588 590 ! 589 !-- Actual liquid water temperature: 590 t_l = t_d_pt(k) * pt(k,j,i) 591 592 ! 593 !-- Calculate actual temperature 594 t_int = pt(k,j,i) * ( hyp(k) / 100000.0_wp )**0.286_wp 595 ! 596 !-- Saturation vapor pressure at t_l: 597 e_s = 610.78_wp * EXP( 17.269_wp * ( t_l - 273.16_wp ) / & 598 ( t_l - 35.86_wp ) & 599 ) 600 ! 601 !-- Computation of saturation humidity: 602 q_s = 0.622_wp * e_s / ( hyp(k) - 0.378_wp * e_s ) 603 alpha = 0.622_wp * l_d_r * l_d_cp / ( t_l * t_l ) 604 q_s = q_s * ( 1.0_wp + alpha * q(k,j,i) ) / & 605 ( 1.0_wp + alpha * q_s ) 606 607 !-- Supersaturation: 608 sat = ( q(k,j,i) - qr(k,j,i) - qc(k,j,i) ) / q_s - 1.0_wp 609 591 !-- Call calculation of supersaturation located 592 !-- in diagnostic_quantities_mod 593 CALL supersaturation ( i, j, k ) 610 594 ! 611 595 !-- Prescribe parameters for activation … … 636 620 !-- Curvature effect (afactor) with surface tension 637 621 !-- parameterization by Straka (2009) 638 sigma = 0.0761_wp - 0.000155_wp * ( t_ int- 273.15_wp )639 afactor = 2.0_wp * sigma / ( rho_l * r_v * t_ int)622 sigma = 0.0761_wp - 0.000155_wp * ( t_l - 273.15_wp ) 623 afactor = 2.0_wp * sigma / ( rho_l * r_v * t_l ) 640 624 ! 641 625 !-- Solute effect (bfactor) … … 695 679 ONLY: cpu_log, log_point_s 696 680 681 USE diagnostic_quantities_mod, & 682 ONLY: e_s, magnus, q_s, sat, supersaturation, t_l 683 697 684 USE indices, & 698 685 ONLY: nxlg, nxrg, nysg, nyng, nzb, nzt … … 709 696 INTEGER(iwp) :: k !< 710 697 711 REAL(wp) :: alpha !<712 698 REAL(wp) :: cond !< 713 699 REAL(wp) :: cond_max !< 714 700 REAL(wp) :: dc !< 715 REAL(wp) :: e_s !<716 701 REAL(wp) :: evap !< 717 702 REAL(wp) :: evap_nc !< 718 703 REAL(wp) :: g_fac !< 719 704 REAL(wp) :: nc_0 !< 720 REAL(wp) :: q_s !<721 REAL(wp) :: sat !<722 REAL(wp) :: t_l !<723 705 REAL(wp) :: temp !< 724 706 REAL(wp) :: xc !< … … 730 712 DO k = nzb+1, nzt 731 713 ! 732 !-- Actual liquid water temperature: 733 t_l = t_d_pt(k) * pt(k,j,i) 734 ! 735 !-- Saturation vapor pressure at t_l: 736 e_s = 610.78_wp * EXP( 17.269_wp * ( t_l - 273.16_wp ) / & 737 ( t_l - 35.86_wp ) & 738 ) 739 ! 740 !-- Computation of saturation humidity: 741 q_s = 0.622_wp * e_s / ( hyp(k) - 0.378_wp * e_s ) 742 alpha = 0.622_wp * l_d_r * l_d_cp / ( t_l * t_l ) 743 q_s = q_s * ( 1.0_wp + alpha * q(k,j,i) ) / & 744 ( 1.0_wp + alpha * q_s ) 745 746 !-- Supersaturation: 747 sat = ( q(k,j,i) - qr(k,j,i) - qc(k,j,i) ) / q_s - 1.0_wp 748 714 !-- Call calculation of supersaturation located 715 !-- in diagnostic_quantities_mod 716 CALL supersaturation ( i, j, k ) 749 717 ! 750 718 !-- Actual temperature: … … 1200 1168 ONLY: cpu_log, log_point_s 1201 1169 1170 USE diagnostic_quantities_mod, & 1171 ONLY: e_s, magnus, q_s, sat, supersaturation, t_l 1172 1202 1173 USE indices, & 1203 1174 ONLY: nxlg, nxrg, nyng, nysg, nzb, nzt, wall_flags_0 … … 1211 1182 INTEGER(iwp) :: k !< 1212 1183 1213 REAL(wp) :: alpha !<1214 1184 REAL(wp) :: dr !< 1215 REAL(wp) :: e_s !<1216 1185 REAL(wp) :: evap !< 1217 1186 REAL(wp) :: evap_nr !< … … 1224 1193 REAL(wp) :: mu_r_5d2 !< 1225 1194 REAL(wp) :: nr_0 !< 1226 REAL(wp) :: q_s !<1227 REAL(wp) :: sat !<1228 REAL(wp) :: t_l !<1229 1195 REAL(wp) :: temp !< 1230 1196 REAL(wp) :: xr !< … … 1240 1206 1241 1207 IF ( qr(k,j,i) > eps_sb ) THEN 1242 ! 1243 !-- Actual liquid water temperature: 1244 t_l = t_d_pt(k) * pt(k,j,i) 1245 ! 1246 !-- Saturation vapor pressure at t_l: 1247 e_s = 610.78_wp * EXP( 17.269_wp * ( t_l - 273.16_wp ) / & 1248 ( t_l - 35.86_wp ) & 1249 ) 1250 ! 1251 !-- Computation of saturation humidity: 1252 q_s = 0.622_wp * e_s / ( hyp(k) - 0.378_wp * e_s ) 1253 alpha = 0.622_wp * l_d_r * l_d_cp / ( t_l * t_l ) 1254 q_s = q_s * ( 1.0_wp + alpha * q(k,j,i) ) / & 1255 ( 1.0_wp + alpha * q_s ) 1256 ! 1257 !-- Supersaturation: 1258 sat = ( q(k,j,i) - qr(k,j,i) - qc(k,j,i) ) / q_s - 1.0_wp 1208 1209 ! 1210 !-- Call calculation of supersaturation located 1211 !-- in diagnostic_quantities_mod 1212 CALL supersaturation ( i, j, k ) 1259 1213 ! 1260 1214 !-- Evaporation needs only to be calculated in subsaturated regions
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