[2296] | 1 | !> @file time_integration_spinup.f90 |
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| 2 | !------------------------------------------------------------------------------! |
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[2696] | 3 | ! This file is part of the PALM model system. |
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[2296] | 4 | ! |
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| 5 | ! PALM is free software: you can redistribute it and/or modify it under the |
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| 6 | ! terms of the GNU General Public License as published by the Free Software |
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| 7 | ! Foundation, either version 3 of the License, or (at your option) any later |
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| 8 | ! version. |
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| 9 | ! |
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| 10 | ! PALM is distributed in the hope that it will be useful, but WITHOUT ANY |
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| 11 | ! WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR |
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| 12 | ! A PARTICULAR PURPOSE. See the GNU General Public License for more details. |
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| 13 | ! |
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| 14 | ! You should have received a copy of the GNU General Public License along with |
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| 15 | ! PALM. If not, see <http://www.gnu.org/licenses/>. |
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| 16 | ! |
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[4360] | 17 | ! Copyright 1997-2020 Leibniz Universitaet Hannover |
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[2296] | 18 | !------------------------------------------------------------------------------! |
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| 19 | ! |
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| 20 | ! Current revisions: |
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| 21 | ! ------------------ |
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| 22 | ! |
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| 23 | ! |
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| 24 | ! Former revisions: |
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| 25 | ! ----------------- |
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| 26 | ! $Id: time_integration_spinup.f90 4457 2020-03-11 14:20:43Z maronga $ |
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[4457] | 27 | ! use statement for exchange horiz added |
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| 28 | ! |
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| 29 | ! 4444 2020-03-05 15:59:50Z raasch |
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[4444] | 30 | ! bugfix: cpp-directives for serial mode added |
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| 31 | ! |
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| 32 | ! 4360 2020-01-07 11:25:50Z suehring |
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[4331] | 33 | ! Enable output of diagnostic quantities, e.g. 2-m temperature |
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| 34 | ! |
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| 35 | ! 4227 2019-09-10 18:04:34Z gronemeier |
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[4227] | 36 | ! implement new palm_date_time_mod |
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| 37 | ! |
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| 38 | ! 4223 2019-09-10 09:20:47Z gronemeier |
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[4182] | 39 | ! Corrected "Former revisions" section |
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| 40 | ! |
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| 41 | ! 4064 2019-07-01 05:33:33Z gronemeier |
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[4064] | 42 | ! Moved call to radiation module out of intermediate time loop |
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| 43 | ! |
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| 44 | ! 4023 2019-06-12 13:20:01Z maronga |
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[4023] | 45 | ! Time stamps are now negative in run control output |
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| 46 | ! |
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| 47 | ! 3885 2019-04-11 11:29:34Z kanani |
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[3885] | 48 | ! Changes related to global restructuring of location messages and introduction |
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| 49 | ! of additional debug messages |
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| 50 | ! |
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| 51 | ! 3766 2019-02-26 16:23:41Z raasch |
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[3766] | 52 | ! unused variable removed |
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| 53 | ! |
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| 54 | ! 3719 2019-02-06 13:10:18Z kanani |
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[3719] | 55 | ! Removed log_point(19,54,74,50,75), since they count together with same log |
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| 56 | ! points in time_integration, impossible to separate the contributions. |
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| 57 | ! Instead, the entire spinup gets an individual log_point in palm.f90 |
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| 58 | ! |
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| 59 | ! 3655 2019-01-07 16:51:22Z knoop |
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[3597] | 60 | ! Removed call to calculation of near air (10 cm) potential temperature (now in |
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| 61 | ! surface layer fluxes) |
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| 62 | ! |
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[4182] | 63 | ! 2296 2017-06-28 07:53:56Z maronga |
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| 64 | ! Initial revision |
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[2296] | 65 | ! |
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[4182] | 66 | ! |
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[2296] | 67 | ! Description: |
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| 68 | ! ------------ |
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| 69 | !> Integration in time of the non-atmospheric model components such as land |
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| 70 | !> surface model and urban surface model |
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| 71 | !------------------------------------------------------------------------------! |
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| 72 | SUBROUTINE time_integration_spinup |
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| 73 | |
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| 74 | USE arrays_3d, & |
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[2818] | 75 | ONLY: pt, pt_p, u, u_init, v, v_init |
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[2296] | 76 | |
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| 77 | USE control_parameters, & |
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[2881] | 78 | ONLY: averaging_interval_pr, calc_soil_moisture_during_spinup, & |
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[3241] | 79 | constant_diffusion, constant_flux_layer, coupling_start_time, & |
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| 80 | data_output_during_spinup, dopr_n, do_sum, & |
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[2728] | 81 | dt_averaging_input_pr, dt_dopr, dt_dots, dt_do2d_xy, dt_do3d, & |
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[3241] | 82 | dt_spinup, dt_3d, humidity, intermediate_timestep_count, & |
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[2297] | 83 | intermediate_timestep_count_max, land_surface, & |
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[3241] | 84 | simulated_time, simulated_time_chr, skip_time_dopr, & |
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| 85 | skip_time_do2d_xy, skip_time_do3d, spinup_pt_amplitude, & |
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| 86 | spinup_pt_mean, spinup_time, timestep_count, time_dopr, & |
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| 87 | time_dopr_av, time_dots, time_do2d_xy, time_do3d, & |
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| 88 | time_run_control, time_since_reference_point, urban_surface |
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[2296] | 89 | |
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| 90 | USE cpulog, & |
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[3766] | 91 | ONLY: cpu_log, log_point_s |
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[2296] | 92 | |
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[4331] | 93 | USE diagnostic_output_quantities_mod, & |
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| 94 | ONLY: doq_calculate |
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| 95 | |
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[4457] | 96 | USE exchange_horiz_mod, & |
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| 97 | ONLY: exchange_horiz |
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| 98 | |
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[2296] | 99 | USE indices, & |
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| 100 | ONLY: nbgp, nzb, nzt, nysg, nyng, nxlg, nxrg |
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| 101 | |
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| 102 | USE land_surface_model_mod, & |
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[2299] | 103 | ONLY: lsm_energy_balance, lsm_soil_model, lsm_swap_timelevel |
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[4227] | 104 | |
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[2934] | 105 | USE pegrid |
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[2296] | 106 | |
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[4444] | 107 | #if defined( __parallel ) |
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[2934] | 108 | USE pmc_interface, & |
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| 109 | ONLY: nested_run |
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[4444] | 110 | #endif |
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[2934] | 111 | |
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[2296] | 112 | USE kinds |
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| 113 | |
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[4227] | 114 | USE palm_date_time_mod, & |
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| 115 | ONLY: get_date_time, seconds_per_hour |
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| 116 | |
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[2296] | 117 | USE radiation_model_mod, & |
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[3241] | 118 | ONLY: force_radiation_call, radiation, radiation_control, & |
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| 119 | radiation_interaction, radiation_interactions, time_radiation |
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[2296] | 120 | |
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| 121 | USE statistics, & |
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| 122 | ONLY: flow_statistics_called |
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| 123 | |
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| 124 | USE surface_layer_fluxes_mod, & |
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| 125 | ONLY: surface_layer_fluxes |
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| 126 | |
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[2297] | 127 | USE surface_mod, & |
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[3241] | 128 | ONLY : surf_lsm_h, surf_lsm_v, surf_usm_h, & |
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[2296] | 129 | surf_usm_v |
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| 130 | |
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| 131 | USE urban_surface_mod, & |
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| 132 | ONLY: usm_material_heat_model, usm_material_model, & |
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[2696] | 133 | usm_surface_energy_balance, usm_swap_timelevel, & |
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[3597] | 134 | usm_green_heat_model |
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[2296] | 135 | |
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| 136 | |
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| 137 | |
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| 138 | |
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| 139 | IMPLICIT NONE |
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| 140 | |
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[4023] | 141 | CHARACTER (LEN=9) :: time_to_string !< |
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[2296] | 142 | |
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[4023] | 143 | |
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| 144 | CHARACTER (LEN=1) :: sign_chr !< String containing '-' or ' ' |
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| 145 | CHARACTER (LEN=9) :: time_since_reference_point_chr !< time since reference point, i.e., negative during spinup |
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| 146 | |
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[2299] | 147 | INTEGER(iwp) :: i !< running index |
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| 148 | INTEGER(iwp) :: j !< running index |
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| 149 | INTEGER(iwp) :: k !< running index |
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| 150 | INTEGER(iwp) :: l !< running index |
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| 151 | INTEGER(iwp) :: m !< running index |
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| 152 | |
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| 153 | INTEGER(iwp) :: current_timestep_number_spinup = 0 !< number if timestep during spinup |
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[4227] | 154 | INTEGER(iwp) :: day_of_year !< day of the year |
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[2296] | 155 | |
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[2299] | 156 | LOGICAL :: run_control_header_spinup = .FALSE. !< flag parameter for steering whether the header information must be output |
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| 157 | |
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[4227] | 158 | REAL(wp) :: pt_spinup !< temporary storage of temperature |
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| 159 | REAL(wp) :: dt_save !< temporary storage for time step |
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| 160 | REAL(wp) :: second_of_day !< second of the day |
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[2296] | 161 | |
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[2728] | 162 | REAL(wp), DIMENSION(:,:,:), ALLOCATABLE :: pt_save !< temporary storage of temperature |
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| 163 | REAL(wp), DIMENSION(:,:,:), ALLOCATABLE :: u_save !< temporary storage of u wind component |
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| 164 | REAL(wp), DIMENSION(:,:,:), ALLOCATABLE :: v_save !< temporary storage of v wind component |
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[2296] | 165 | |
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[2728] | 166 | |
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| 167 | ! |
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| 168 | !-- Save 3D arrays because they are to be changed for spinup purpose |
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[2296] | 169 | ALLOCATE( pt_save(nzb:nzt+1,nysg:nyng,nxlg:nxrg) ) |
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[2728] | 170 | ALLOCATE( u_save(nzb:nzt+1,nysg:nyng,nxlg:nxrg) ) |
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| 171 | ALLOCATE( v_save(nzb:nzt+1,nysg:nyng,nxlg:nxrg) ) |
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[2296] | 172 | |
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[2299] | 173 | CALL exchange_horiz( pt, nbgp ) |
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[2728] | 174 | CALL exchange_horiz( u, nbgp ) |
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| 175 | CALL exchange_horiz( v, nbgp ) |
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| 176 | |
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[2299] | 177 | pt_save = pt |
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[2728] | 178 | u_save = u |
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| 179 | v_save = v |
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[2296] | 180 | |
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[2728] | 181 | ! |
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| 182 | !-- Set the same wall-adjacent velocity to all grid points. The sign of the |
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| 183 | !-- original velocity field must be preserved because the surface schemes crash |
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| 184 | !-- otherwise. The precise reason is still unknown. A minimum velocity of 0.1 |
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| 185 | !-- m/s is used to maintain turbulent transfer at the surface. |
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[2782] | 186 | IF ( land_surface ) THEN |
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| 187 | DO m = 1, surf_lsm_h%ns |
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| 188 | i = surf_lsm_h%i(m) |
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| 189 | j = surf_lsm_h%j(m) |
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| 190 | k = surf_lsm_h%k(m) |
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[2983] | 191 | u(k,j,i) = SIGN(1.0_wp,u_init(k)) * MAX( ABS( u_init(k) ),0.1_wp) |
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| 192 | v(k,j,i) = SIGN(1.0_wp,v_init(k)) * MAX( ABS( v_init(k) ),0.1_wp) |
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[2782] | 193 | ENDDO |
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[2728] | 194 | |
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[2782] | 195 | DO l = 0, 3 |
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| 196 | DO m = 1, surf_lsm_v(l)%ns |
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| 197 | i = surf_lsm_v(l)%i(m) |
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| 198 | j = surf_lsm_v(l)%j(m) |
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| 199 | k = surf_lsm_v(l)%k(m) |
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[2983] | 200 | u(k,j,i) = SIGN(1.0_wp,u_init(k)) * MAX( ABS( u_init(k) ),0.1_wp) |
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| 201 | v(k,j,i) = SIGN(1.0_wp,v_init(k)) * MAX( ABS( v_init(k) ),0.1_wp) |
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[2782] | 202 | ENDDO |
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| 203 | ENDDO |
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| 204 | ENDIF |
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| 205 | |
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| 206 | IF ( urban_surface ) THEN |
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| 207 | DO m = 1, surf_usm_h%ns |
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| 208 | i = surf_usm_h%i(m) |
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| 209 | j = surf_usm_h%j(m) |
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| 210 | k = surf_usm_h%k(m) |
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[2983] | 211 | u(k,j,i) = SIGN(1.0_wp,u_init(k)) * MAX( ABS( u_init(k) ),0.1_wp) |
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| 212 | v(k,j,i) = SIGN(1.0_wp,v_init(k)) * MAX( ABS( v_init(k) ),0.1_wp) |
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[2782] | 213 | ENDDO |
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| 214 | |
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| 215 | DO l = 0, 3 |
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| 216 | DO m = 1, surf_usm_v(l)%ns |
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| 217 | i = surf_usm_v(l)%i(m) |
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| 218 | j = surf_usm_v(l)%j(m) |
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| 219 | k = surf_usm_v(l)%k(m) |
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[2983] | 220 | u(k,j,i) = SIGN(1.0_wp,u_init(k)) * MAX( ABS( u_init(k) ),0.1_wp) |
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| 221 | v(k,j,i) = SIGN(1.0_wp,v_init(k)) * MAX( ABS( v_init(k) ),0.1_wp) |
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[2782] | 222 | ENDDO |
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| 223 | ENDDO |
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| 224 | ENDIF |
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| 225 | |
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[2818] | 226 | CALL exchange_horiz( u, nbgp ) |
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| 227 | CALL exchange_horiz( v, nbgp ) |
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| 228 | |
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[2723] | 229 | dt_save = dt_3d |
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| 230 | dt_3d = dt_spinup |
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| 231 | |
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[3885] | 232 | CALL location_message( 'wall/soil spinup time-stepping', 'start' ) |
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[2296] | 233 | ! |
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| 234 | !-- Start of the time loop |
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| 235 | DO WHILE ( simulated_time < spinup_time ) |
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| 236 | |
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| 237 | CALL cpu_log( log_point_s(15), 'timesteps spinup', 'start' ) |
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| 238 | |
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| 239 | ! |
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| 240 | !-- Start of intermediate step loop |
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| 241 | intermediate_timestep_count = 0 |
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| 242 | DO WHILE ( intermediate_timestep_count < & |
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| 243 | intermediate_timestep_count_max ) |
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| 244 | |
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| 245 | intermediate_timestep_count = intermediate_timestep_count + 1 |
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| 246 | |
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| 247 | ! |
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| 248 | !-- Set the steering factors for the prognostic equations which depend |
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| 249 | !-- on the timestep scheme |
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| 250 | CALL timestep_scheme_steering |
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| 251 | |
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| 252 | |
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[2299] | 253 | ! |
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| 254 | !-- Estimate a near-surface air temperature based on the position of the |
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| 255 | !-- sun and user input about mean temperature and amplitude. The time is |
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| 256 | !-- shifted by one hour to simulate a lag between air temperature and |
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| 257 | !-- incoming radiation |
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[4227] | 258 | CALL get_date_time( simulated_time - spinup_time - seconds_per_hour, & |
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| 259 | day_of_year=day_of_year, & |
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| 260 | second_of_day=second_of_day ) |
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| 261 | |
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[2299] | 262 | pt_spinup = spinup_pt_mean + spinup_pt_amplitude & |
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[4227] | 263 | * solar_angle(day_of_year, second_of_day) |
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[2296] | 264 | |
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[2299] | 265 | ! |
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| 266 | !-- Map air temperature to all grid points in the vicinity of a surface |
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| 267 | !-- element |
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[2296] | 268 | IF ( land_surface ) THEN |
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| 269 | DO m = 1, surf_lsm_h%ns |
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| 270 | i = surf_lsm_h%i(m) |
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| 271 | j = surf_lsm_h%j(m) |
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| 272 | k = surf_lsm_h%k(m) |
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[2299] | 273 | pt(k,j,i) = pt_spinup |
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[2296] | 274 | ENDDO |
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| 275 | |
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| 276 | DO l = 0, 3 |
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| 277 | DO m = 1, surf_lsm_v(l)%ns |
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| 278 | i = surf_lsm_v(l)%i(m) |
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| 279 | j = surf_lsm_v(l)%j(m) |
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| 280 | k = surf_lsm_v(l)%k(m) |
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[2299] | 281 | pt(k,j,i) = pt_spinup |
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[2296] | 282 | ENDDO |
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| 283 | ENDDO |
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| 284 | ENDIF |
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| 285 | |
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| 286 | IF ( urban_surface ) THEN |
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| 287 | DO m = 1, surf_usm_h%ns |
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| 288 | i = surf_usm_h%i(m) |
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| 289 | j = surf_usm_h%j(m) |
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| 290 | k = surf_usm_h%k(m) |
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[2299] | 291 | pt(k,j,i) = pt_spinup |
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[3337] | 292 | !!!!!!!!!!!!!!!!HACK!!!!!!!!!!!!! |
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| 293 | surf_usm_h%pt1 = pt_spinup |
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| 294 | !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!! |
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[2296] | 295 | ENDDO |
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| 296 | |
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| 297 | DO l = 0, 3 |
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| 298 | DO m = 1, surf_usm_v(l)%ns |
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| 299 | i = surf_usm_v(l)%i(m) |
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| 300 | j = surf_usm_v(l)%j(m) |
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| 301 | k = surf_usm_v(l)%k(m) |
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[2299] | 302 | pt(k,j,i) = pt_spinup |
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[3337] | 303 | !!!!!!!!!!!!!!!!HACK!!!!!!!!!!!!! |
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| 304 | surf_usm_v(l)%pt1 = pt_spinup |
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| 305 | !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!! |
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[2296] | 306 | ENDDO |
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| 307 | ENDDO |
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| 308 | ENDIF |
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| 309 | |
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[2818] | 310 | CALL exchange_horiz( pt, nbgp ) |
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| 311 | |
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| 312 | |
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[2296] | 313 | ! |
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| 314 | !-- Swap the time levels in preparation for the next time step. |
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| 315 | timestep_count = timestep_count + 1 |
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| 316 | |
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| 317 | IF ( land_surface ) THEN |
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| 318 | CALL lsm_swap_timelevel ( 0 ) |
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| 319 | ENDIF |
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| 320 | |
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| 321 | IF ( urban_surface ) THEN |
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| 322 | CALL usm_swap_timelevel ( 0 ) |
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| 323 | ENDIF |
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| 324 | |
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| 325 | IF ( land_surface ) THEN |
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| 326 | CALL lsm_swap_timelevel ( MOD( timestep_count, 2) ) |
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| 327 | ENDIF |
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| 328 | |
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| 329 | IF ( urban_surface ) THEN |
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| 330 | CALL usm_swap_timelevel ( MOD( timestep_count, 2) ) |
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| 331 | ENDIF |
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| 332 | |
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| 333 | ! |
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| 334 | !-- If required, compute virtual potential temperature |
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| 335 | IF ( humidity ) THEN |
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| 336 | CALL compute_vpt |
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| 337 | ENDIF |
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| 338 | |
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| 339 | ! |
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| 340 | !-- Compute the diffusion quantities |
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| 341 | IF ( .NOT. constant_diffusion ) THEN |
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| 342 | |
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| 343 | ! |
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| 344 | !-- First the vertical (and horizontal) fluxes in the surface |
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| 345 | !-- (constant flux) layer are computed |
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| 346 | IF ( constant_flux_layer ) THEN |
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| 347 | CALL surface_layer_fluxes |
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| 348 | ENDIF |
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| 349 | |
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| 350 | ! |
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| 351 | !-- If required, solve the energy balance for the surface and run soil |
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[2299] | 352 | !-- model. Call for horizontal as well as vertical surfaces. |
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| 353 | !-- The prognostic equation for soil moisure is switched off |
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| 354 | IF ( land_surface ) THEN |
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[2296] | 355 | |
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| 356 | ! |
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| 357 | !-- Call for horizontal upward-facing surfaces |
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| 358 | CALL lsm_energy_balance( .TRUE., -1 ) |
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[2881] | 359 | CALL lsm_soil_model( .TRUE., -1, calc_soil_moisture_during_spinup ) |
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[2296] | 360 | ! |
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| 361 | !-- Call for northward-facing surfaces |
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| 362 | CALL lsm_energy_balance( .FALSE., 0 ) |
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[2881] | 363 | CALL lsm_soil_model( .FALSE., 0, calc_soil_moisture_during_spinup ) |
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[2296] | 364 | ! |
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| 365 | !-- Call for southward-facing surfaces |
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| 366 | CALL lsm_energy_balance( .FALSE., 1 ) |
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[2881] | 367 | CALL lsm_soil_model( .FALSE., 1, calc_soil_moisture_during_spinup ) |
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[2296] | 368 | ! |
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| 369 | !-- Call for eastward-facing surfaces |
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| 370 | CALL lsm_energy_balance( .FALSE., 2 ) |
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[2881] | 371 | CALL lsm_soil_model( .FALSE., 2, calc_soil_moisture_during_spinup ) |
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[2296] | 372 | ! |
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| 373 | !-- Call for westward-facing surfaces |
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| 374 | CALL lsm_energy_balance( .FALSE., 3 ) |
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[2881] | 375 | CALL lsm_soil_model( .FALSE., 3, calc_soil_moisture_during_spinup ) |
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[3719] | 376 | |
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[2296] | 377 | ENDIF |
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| 378 | |
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| 379 | ! |
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| 380 | !-- If required, solve the energy balance for urban surfaces and run |
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| 381 | !-- the material heat model |
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| 382 | IF (urban_surface) THEN |
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[3719] | 383 | |
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[3418] | 384 | CALL usm_surface_energy_balance( .TRUE. ) |
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[2296] | 385 | IF ( usm_material_model ) THEN |
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[2696] | 386 | CALL usm_green_heat_model |
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[3418] | 387 | CALL usm_material_heat_model( .TRUE. ) |
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[2296] | 388 | ENDIF |
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[3719] | 389 | |
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[2296] | 390 | ENDIF |
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| 391 | |
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| 392 | ENDIF |
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| 393 | |
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[4064] | 394 | ENDDO ! Intermediate step loop |
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| 395 | |
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[2296] | 396 | ! |
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[4064] | 397 | !-- If required, calculate radiative fluxes and heating rates |
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| 398 | IF ( radiation ) THEN |
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[2296] | 399 | |
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[4064] | 400 | time_radiation = time_radiation + dt_3d |
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[2296] | 401 | |
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[4064] | 402 | IF ( time_radiation >= dt_3d .OR. force_radiation_call ) THEN |
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[2296] | 403 | |
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[4064] | 404 | IF ( .NOT. force_radiation_call ) THEN |
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| 405 | time_radiation = time_radiation - dt_3d |
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| 406 | ENDIF |
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[2296] | 407 | |
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[4064] | 408 | CALL radiation_control |
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[2296] | 409 | |
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[4064] | 410 | IF ( radiation_interactions ) THEN |
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| 411 | CALL radiation_interaction |
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[2296] | 412 | ENDIF |
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| 413 | ENDIF |
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[4064] | 414 | ENDIF |
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[2296] | 415 | |
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| 416 | ! |
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| 417 | !-- Increase simulation time and output times |
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[2299] | 418 | current_timestep_number_spinup = current_timestep_number_spinup + 1 |
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[2723] | 419 | simulated_time = simulated_time + dt_3d |
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[2296] | 420 | simulated_time_chr = time_to_string( simulated_time ) |
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| 421 | time_since_reference_point = simulated_time - coupling_start_time |
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[4023] | 422 | time_since_reference_point_chr = time_to_string( ABS(time_since_reference_point) ) |
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| 423 | |
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| 424 | IF ( time_since_reference_point < 0.0_wp ) THEN |
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| 425 | sign_chr = '-' |
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| 426 | ELSE |
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| 427 | sign_chr = ' ' |
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| 428 | ENDIF |
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| 429 | |
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| 430 | |
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[2296] | 431 | IF ( data_output_during_spinup ) THEN |
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[2723] | 432 | IF ( simulated_time >= skip_time_do2d_xy ) THEN |
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| 433 | time_do2d_xy = time_do2d_xy + dt_3d |
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| 434 | ENDIF |
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| 435 | IF ( simulated_time >= skip_time_do3d ) THEN |
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| 436 | time_do3d = time_do3d + dt_3d |
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| 437 | ENDIF |
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| 438 | time_dots = time_dots + dt_3d |
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[2296] | 439 | IF ( simulated_time >= skip_time_dopr ) THEN |
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[2723] | 440 | time_dopr = time_dopr + dt_3d |
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[2296] | 441 | ENDIF |
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[2723] | 442 | time_run_control = time_run_control + dt_3d |
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[2296] | 443 | |
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| 444 | ! |
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| 445 | !-- Carry out statistical analysis and output at the requested output times. |
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| 446 | !-- The MOD function is used for calculating the output time counters (like |
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| 447 | !-- time_dopr) in order to regard a possible decrease of the output time |
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| 448 | !-- interval in case of restart runs |
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| 449 | |
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| 450 | ! |
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| 451 | !-- Set a flag indicating that so far no statistics have been created |
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| 452 | !-- for this time step |
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| 453 | flow_statistics_called = .FALSE. |
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| 454 | |
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| 455 | ! |
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| 456 | !-- If required, call flow_statistics for averaging in time |
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| 457 | IF ( averaging_interval_pr /= 0.0_wp .AND. & |
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| 458 | ( dt_dopr - time_dopr ) <= averaging_interval_pr .AND. & |
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| 459 | simulated_time >= skip_time_dopr ) THEN |
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[2723] | 460 | time_dopr_av = time_dopr_av + dt_3d |
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[2296] | 461 | IF ( time_dopr_av >= dt_averaging_input_pr ) THEN |
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| 462 | do_sum = .TRUE. |
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| 463 | time_dopr_av = MOD( time_dopr_av, & |
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[2723] | 464 | MAX( dt_averaging_input_pr, dt_3d ) ) |
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[2296] | 465 | ENDIF |
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| 466 | ENDIF |
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| 467 | IF ( do_sum ) CALL flow_statistics |
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| 468 | |
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| 469 | ! |
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| 470 | !-- Output of profiles |
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| 471 | IF ( time_dopr >= dt_dopr ) THEN |
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| 472 | IF ( dopr_n /= 0 ) CALL data_output_profiles |
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[2723] | 473 | time_dopr = MOD( time_dopr, MAX( dt_dopr, dt_3d ) ) |
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[2296] | 474 | time_dopr_av = 0.0_wp ! due to averaging (see above) |
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| 475 | ENDIF |
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| 476 | |
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| 477 | ! |
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| 478 | !-- Output of time series |
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| 479 | IF ( time_dots >= dt_dots ) THEN |
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| 480 | CALL data_output_tseries |
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[2723] | 481 | time_dots = MOD( time_dots, MAX( dt_dots, dt_3d ) ) |
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[2296] | 482 | ENDIF |
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| 483 | |
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[2723] | 484 | ! |
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| 485 | !-- 2d-data output (cross-sections) |
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| 486 | IF ( time_do2d_xy >= dt_do2d_xy ) THEN |
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[4331] | 487 | CALL doq_calculate |
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[2723] | 488 | CALL data_output_2d( 'xy', 0 ) |
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| 489 | time_do2d_xy = MOD( time_do2d_xy, MAX( dt_do2d_xy, dt_3d ) ) |
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| 490 | ENDIF |
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| 491 | |
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| 492 | ! |
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| 493 | !-- 3d-data output (volume data) |
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| 494 | IF ( time_do3d >= dt_do3d ) THEN |
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[4331] | 495 | CALL doq_calculate |
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[2723] | 496 | CALL data_output_3d( 0 ) |
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| 497 | time_do3d = MOD( time_do3d, MAX( dt_do3d, dt_3d ) ) |
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| 498 | ENDIF |
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| 499 | |
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| 500 | |
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[2296] | 501 | ENDIF |
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| 502 | |
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| 503 | ! |
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| 504 | !-- Computation and output of run control parameters. |
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| 505 | !-- This is also done whenever perturbations have been imposed |
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[2299] | 506 | ! IF ( time_run_control >= dt_run_control .OR. & |
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| 507 | ! timestep_scheme(1:5) /= 'runge' .OR. disturbance_created ) & |
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| 508 | ! THEN |
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| 509 | ! CALL run_control |
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| 510 | ! IF ( time_run_control >= dt_run_control ) THEN |
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| 511 | ! time_run_control = MOD( time_run_control, & |
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[2723] | 512 | ! MAX( dt_run_control, dt_3d ) ) |
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[2299] | 513 | ! ENDIF |
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| 514 | ! ENDIF |
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[2296] | 515 | |
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| 516 | CALL cpu_log( log_point_s(15), 'timesteps spinup', 'stop' ) |
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| 517 | |
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[2299] | 518 | |
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| 519 | ! |
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| 520 | !-- Run control output |
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[2296] | 521 | IF ( myid == 0 ) THEN |
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[2299] | 522 | ! |
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| 523 | !-- If necessary, write header |
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| 524 | IF ( .NOT. run_control_header_spinup ) THEN |
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| 525 | CALL check_open( 15 ) |
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| 526 | WRITE ( 15, 100 ) |
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| 527 | run_control_header_spinup = .TRUE. |
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| 528 | ENDIF |
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| 529 | ! |
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| 530 | !-- Write some general information about the spinup in run control file |
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[4023] | 531 | WRITE ( 15, 101 ) current_timestep_number_spinup, sign_chr, time_since_reference_point_chr, dt_3d, pt_spinup |
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[2299] | 532 | ! |
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| 533 | !-- Write buffer contents to disc immediately |
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| 534 | FLUSH( 15 ) |
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[2296] | 535 | ENDIF |
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| 536 | |
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[2299] | 537 | |
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| 538 | |
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[2296] | 539 | ENDDO ! time loop |
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| 540 | |
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| 541 | ! |
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[2728] | 542 | !-- Write back saved arrays to the 3D arrays |
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| 543 | pt = pt_save |
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| 544 | pt_p = pt_save |
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| 545 | u = u_save |
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| 546 | v = v_save |
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[2296] | 547 | |
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[2723] | 548 | ! |
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| 549 | !-- Reset time step |
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| 550 | dt_3d = dt_save |
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| 551 | |
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[2296] | 552 | DEALLOCATE(pt_save) |
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[2728] | 553 | DEALLOCATE(u_save) |
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| 554 | DEALLOCATE(v_save) |
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[2296] | 555 | |
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[2934] | 556 | #if defined( __parallel ) |
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| 557 | IF ( nested_run ) CALL MPI_BARRIER( MPI_COMM_WORLD, ierr ) |
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| 558 | #endif |
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| 559 | |
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[3885] | 560 | CALL location_message( 'wall/soil spinup time-stepping', 'finished' ) |
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[2296] | 561 | |
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[2299] | 562 | |
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| 563 | ! |
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| 564 | !-- Formats |
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| 565 | 100 FORMAT (///'Spinup control output:'/ & |
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[4023] | 566 | '---------------------------------'// & |
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| 567 | 'ITER. HH:MM:SS DT PT(z_MO)'/ & |
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| 568 | '---------------------------------') |
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| 569 | 101 FORMAT (I5,2X,A1,A9,1X,F6.2,3X,F6.2,2X,F6.2) |
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[2299] | 570 | |
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| 571 | CONTAINS |
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| 572 | |
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| 573 | ! |
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| 574 | !-- Returns the cosine of the solar zenith angle at a given time. This routine |
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| 575 | !-- is similar to that for calculation zenith (see radiation_model_mod.f90) |
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[4227] | 576 | !> @todo Load function calc_zenith of radiation model instead of |
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| 577 | !> rewrite the function here. |
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| 578 | FUNCTION solar_angle( day_of_year, second_of_day ) |
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[2299] | 579 | |
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[3274] | 580 | USE basic_constants_and_equations_mod, & |
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[4331] | 581 | ONLY: pi |
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[2544] | 582 | |
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[2299] | 583 | USE kinds |
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| 584 | |
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| 585 | USE radiation_model_mod, & |
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[2544] | 586 | ONLY: decl_1, decl_2, decl_3, lat, lon |
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[2299] | 587 | |
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| 588 | IMPLICIT NONE |
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| 589 | |
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| 590 | |
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[4227] | 591 | INTEGER(iwp), INTENT(IN) :: day_of_year !< day of the year |
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[2299] | 592 | |
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[4227] | 593 | REAL(wp) :: declination !< solar declination angle |
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| 594 | REAL(wp) :: hour_angle !< solar hour angle |
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| 595 | REAL(wp), INTENT(IN) :: second_of_day !< current time of the day in UTC |
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| 596 | REAL(wp) :: solar_angle !< cosine of the solar zenith angle |
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[2299] | 597 | ! |
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| 598 | !-- Calculate solar declination and hour angle |
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[4227] | 599 | declination = ASIN( decl_1 * SIN(decl_2 * REAL(day_of_year, KIND=wp) - decl_3) ) |
---|
| 600 | hour_angle = 2.0_wp * pi * (second_of_day / 86400.0_wp) + lon - pi |
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[2299] | 601 | |
---|
| 602 | ! |
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| 603 | !-- Calculate cosine of solar zenith angle |
---|
| 604 | solar_angle = SIN(lat) * SIN(declination) + COS(lat) * COS(declination) & |
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| 605 | * COS(hour_angle) |
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| 606 | |
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| 607 | END FUNCTION solar_angle |
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| 608 | |
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| 609 | |
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[2296] | 610 | END SUBROUTINE time_integration_spinup |
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