The module 'fv_cmp' implements the fast procesesses in the GFDL microphysics > More...
Functions/Subroutines | |
subroutine, public | fv_sat_adj (mdt, zvir, is, ie, js, je, ng, hydrostatic, consv_te, te0, qv, ql, qi, qr, qs, qg, hs, dpln, delz, pt, dp, q_con, cappa, area, dtdt, out_dt, last_step, do_qa, qa) |
The subroutine 'fv_sat_adj' performs the fast processes in the GFDL microphysics. More... | |
real function | wqs1 (ta, den) |
the function 'wqs1' computes the saturated specific humidity for table ii More... | |
real function | iqs1 (ta, den) |
the function 'wqs1' computes the saturated specific humidity for table iii More... | |
real function | wqs2 (ta, den, dqdt) |
The function 'wqs2'computes the gradient of saturated specific humidity for table ii. More... | |
subroutine | wqs2_vect (is, ie, ta, den, wqsat, dqdt) |
The function wqs2_vect computes the gradient of saturated specific humidity for table ii. It is the same as "wqs2", but written as vector function. More... | |
real function | iqs2 (ta, den, dqdt) |
The function 'iqs2' computes the gradient of saturated specific humidity for table iii. More... | |
subroutine, public | qs_init (kmp) |
The subroutine 'qs_init' initializes lookup tables for the saturation mixing ratio. More... | |
subroutine | qs_table (n) |
subroutine | qs_tablew (n) |
subroutine | qs_table2 (n) |
Variables | |
real, parameter | cp_vap = 4.0 * rvgas |
1846.0, heat capacity of water vapor at constant pressure More... | |
real, parameter | cv_air = cp_air - rdgas |
717.55, heat capacity of dry air at constant volume More... | |
real, parameter | cv_vap = 3.0 * rvgas |
1384.5, heat capacity of water vapor at constant volume More... | |
real, parameter | c_ice = 1972.0 |
gfdl: heat capacity of ice at - 15 deg c More... | |
real, parameter | c_liq = 4185.5 |
gfdl: heat capacity of liquid at 15 deg c More... | |
real, parameter | dc_vap = cp_vap - c_liq |
real, parameter | dc_ice = c_liq - c_ice |
2213.5, isobaric heating / colling More... | |
real, parameter | tice = 273.16 |
freezing temperature More... | |
real, parameter | t_wfr = tice - 40. |
homogeneous freezing temperature More... | |
real, parameter | lv0 = hlv - dc_vap * tice |
3.13905782e6, evaporation latent heat coefficient at 0 deg k More... | |
real, parameter | li00 = hlf - dc_ice * tice |
real(kind=r_grid), parameter | e00 = 611.21 |
ifs: saturation vapor pressure at 0 deg c More... | |
real(kind=r_grid), parameter | d2ice = dc_vap + dc_ice |
real(kind=r_grid), parameter | li2 = lv0 + li00 |
2.86799816e6, sublimation latent heat coefficient at 0 deg k More... | |
real, parameter | lat2 = (hlv + hlf) ** 2 |
used in bigg mechanism More... | |
real | d0_vap |
the same as dc_vap, except that cp_vap can be cp_vap or cv_vap More... | |
real | lv00 |
the same as lv0, except that cp_vap can be cp_vap or cv_vap More... | |
real, dimension(:), allocatable | table |
real, dimension(:), allocatable | table2 |
real, dimension(:), allocatable | tablew |
real, dimension(:), allocatable | des2 |
real, dimension(:), allocatable | desw |
logical | mp_initialized = .false. |
The module 'fv_cmp' implements the fast procesesses in the GFDL microphysics >
subroutine, public fv_cmp_mod::fv_sat_adj | ( | real, intent(in) | mdt, |
real, intent(in) | zvir, | ||
integer, intent(in) | is, | ||
integer, intent(in) | ie, | ||
integer, intent(in) | js, | ||
integer, intent(in) | je, | ||
integer, intent(in) | ng, | ||
logical, intent(in) | hydrostatic, | ||
logical, intent(in) | consv_te, | ||
real, dimension (is - ng:ie + ng, js - ng:je + ng), intent(out) | te0, | ||
real, dimension (is - ng:ie + ng, js - ng:je + ng), intent(inout) | qv, | ||
real, dimension (is - ng:ie + ng, js - ng:je + ng), intent(inout) | ql, | ||
real, dimension (is - ng:ie + ng, js - ng:je + ng), intent(inout) | qi, | ||
real, dimension (is - ng:ie + ng, js - ng:je + ng), intent(inout) | qr, | ||
real, dimension (is - ng:ie + ng, js - ng:je + ng), intent(inout) | qs, | ||
real, dimension (is - ng:ie + ng, js - ng:je + ng), intent(inout) | qg, | ||
real, dimension (is - ng:ie + ng, js - ng:je + ng), intent(in) | hs, | ||
real, dimension (is:ie, js:je), intent(in) | dpln, | ||
real, dimension (is - ng:ie + ng, js - ng:je + ng), intent(in) | delz, | ||
real, dimension (is - ng:ie + ng, js - ng:je + ng), intent(inout) | pt, | ||
real, dimension (is - ng:ie + ng, js - ng:je + ng), intent(in) | dp, | ||
real, dimension (is - ng:, js - ng:), intent(inout) | q_con, | ||
real, dimension (is - ng:, js - ng:), intent(inout) | cappa, | ||
real (kind = r_grid), dimension (is - ng:ie + ng, js - ng:je + ng), intent(in) | area, | ||
real, dimension (is:ie, js:je), intent(inout) | dtdt, | ||
logical, intent(in) | out_dt, | ||
logical, intent(in) | last_step, | ||
logical, intent(in) | do_qa, | ||
real, dimension (is - ng:ie + ng, js - ng:je + ng), intent(out) | qa | ||
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The subroutine 'fv_sat_adj' performs the fast processes in the GFDL microphysics.
This is designed for single-moment 6-class cloud microphysics schemes. It handles the heat release due to in situ phase changes.
Definition at line 130 of file fv_cmp.F90.
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the function 'wqs1' computes the saturated specific humidity for table iii
Definition at line 903 of file fv_cmp.F90.
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The function 'iqs2' computes the gradient of saturated specific humidity for table iii.
Definition at line 997 of file fv_cmp.F90.
subroutine, public fv_cmp_mod::qs_init | ( | integer, intent(in) | kmp | ) |
The subroutine 'qs_init' initializes lookup tables for the saturation mixing ratio.
Definition at line 1029 of file fv_cmp.F90.
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Definition at line 1071 of file fv_cmp.F90.
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Definition at line 1165 of file fv_cmp.F90.
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Definition at line 1133 of file fv_cmp.F90.
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the function 'wqs1' computes the saturated specific humidity for table ii
Definition at line 877 of file fv_cmp.F90.
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The function 'wqs2'computes the gradient of saturated specific humidity for table ii.
Definition at line 929 of file fv_cmp.F90.
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The function wqs2_vect computes the gradient of saturated specific humidity for table ii. It is the same as "wqs2", but written as vector function.
Definition at line 961 of file fv_cmp.F90.
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gfdl: heat capacity of ice at - 15 deg c
Definition at line 90 of file fv_cmp.F90.
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gfdl: heat capacity of liquid at 15 deg c
Definition at line 91 of file fv_cmp.F90.
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1846.0, heat capacity of water vapor at constant pressure
Definition at line 75 of file fv_cmp.F90.
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717.55, heat capacity of dry air at constant volume
Definition at line 76 of file fv_cmp.F90.
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1384.5, heat capacity of water vapor at constant volume
Definition at line 77 of file fv_cmp.F90.
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the same as dc_vap, except that cp_vap can be cp_vap or cv_vap
Definition at line 110 of file fv_cmp.F90.
Definition at line 105 of file fv_cmp.F90.
2213.5, isobaric heating / colling
Definition at line 94 of file fv_cmp.F90.
Definition at line 93 of file fv_cmp.F90.
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Definition at line 113 of file fv_cmp.F90.
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Definition at line 113 of file fv_cmp.F90.
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ifs: saturation vapor pressure at 0 deg c
Definition at line 103 of file fv_cmp.F90.
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used in bigg mechanism
Definition at line 108 of file fv_cmp.F90.
Definition at line 100 of file fv_cmp.F90.
2.86799816e6, sublimation latent heat coefficient at 0 deg k
Definition at line 106 of file fv_cmp.F90.
3.13905782e6, evaporation latent heat coefficient at 0 deg k
Definition at line 99 of file fv_cmp.F90.
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the same as lv0, except that cp_vap can be cp_vap or cv_vap
Definition at line 111 of file fv_cmp.F90.
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Definition at line 115 of file fv_cmp.F90.
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homogeneous freezing temperature
Definition at line 97 of file fv_cmp.F90.
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Definition at line 113 of file fv_cmp.F90.
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Definition at line 113 of file fv_cmp.F90.
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Definition at line 113 of file fv_cmp.F90.
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freezing temperature
Definition at line 96 of file fv_cmp.F90.