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CCPP Scidoc for SRW v2.1.0
SRW v2.1.0
Common Community Physics Package Developed at DTC
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CCPP Scidoc for SRW v2.1.0
SRW v2.1.0
Common Community Physics Package Developed at DTC
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This module computes cloud related quantities for radiation computations.
Functions/Subroutines | |
| subroutine, public | cld_init (si, NLAY, imp_physics, me) |
| This subroutine is an initialization program for cloud-radiation calculations and sets up boundary layer cloud top. More... | |
| subroutine, public | radiation_clouds_prop (plyr, plvl, tlyr, tvly, qlyr, qstl, rhly, ccnd, ncndl, cnvw, cnvc, tracer1, xlat, xlon, slmsk, dz, delp, IX, LM, NLAY, NLP1, deltaq, sup, me, icloud, kdt, ntrac, ntcw, ntiw, ntrw, ntsw, ntgl, ntclamt, imp_physics, imp_physics_nssl, imp_physics_fer_hires, imp_physics_gfdl, imp_physics_thompson, imp_physics_wsm6, imp_physics_zhao_carr, imp_physics_zhao_carr_pdf, imp_physics_mg, iovr_rand, iovr_maxrand, iovr_max, iovr_dcorr, iovr_exp, iovr_exprand, idcor_con, idcor_hogan, idcor_oreopoulos, imfdeepcnv, imfdeepcnv_gf, do_mynnedmf, lgfdlmprad, uni_cld, lmfshal, lmfdeep2, cldcov, clouds1, effrl, effri, effrr, effrs, effr_in, effrl_inout, effri_inout, effrs_inout, lwp_ex, iwp_ex, lwp_fc, iwp_fc, dzlay, latdeg, julian, yearlen, gridkm, cld_frac, cld_lwp, cld_reliq, cld_iwp, cld_reice, cld_rwp, cld_rerain, cld_swp, cld_resnow, clds, mtop, mbot, de_lgth, alpha) |
| Subroutine radiation_clouds_prop computes cloud related quantities for different cloud microphysics schemes. More... | |
| subroutine, public | progcld_zhao_carr (plyr, plvl, tlyr, tvly, qlyr, qstl, rhly, clw, xlat, xlon, slmsk, dz, delp, IX, NLAY, NLP1, uni_cld, lmfshal, lmfdeep2, cldcov, effrl, effri, effrr, effrs, effr_in, dzlay, cldtot, cldcnv, cld_frac, cld_lwp, cld_reliq, cld_iwp, cld_reice, cld_rwp, cld_rerain, cld_swp, cld_resnow) |
| This subroutine computes cloud related quantities using zhao/moorthi's prognostic cloud microphysics scheme. More... | |
| subroutine, public | progcld_zhao_carr_pdf (plyr, plvl, tlyr, tvly, qlyr, qstl, rhly, clw, cnvw, cnvc, xlat, xlon, slmsk, dz, delp, ix, nlay, nlp1, deltaq, sup, kdt, me, dzlay, cldtot, cldcnv, cld_frac, cld_lwp, cld_reliq, cld_iwp, cld_reice, cld_rwp, cld_rerain, cld_swp, cld_resnow) |
| This subroutine computes cloud related quantities using zhao/moorthi's prognostic cloud microphysics scheme + pdfcld. More... | |
| subroutine, public | progcld_gfdl_lin (plyr, plvl, tlyr, tvly, qlyr, qstl, rhly, clw, cnvw, cnvc, xlat, xlon, slmsk, cldtot, dz, delp, IX, NLAY, NLP1, dzlay, cldtot1, cldcnv, cld_frac, cld_lwp, cld_reliq, cld_iwp, cld_reice, cld_rwp, cld_rerain, cld_swp, cld_resnow) |
| This subroutine computes cloud related quantities using GFDL Lin MP prognostic cloud microphysics scheme. More... | |
| subroutine, public | progcld_fer_hires (plyr, plvl, tlyr, tvly, qlyr, qstl, rhly, clw, xlat, xlon, slmsk, dz, delp, ntrac, ntcw, ntiw, ntrw, IX, NLAY, NLP1, icloud, uni_cld, lmfshal, lmfdeep2, cldcov, re_cloud, re_ice, re_snow, dzlay, cldtot, cldcnv, cld_frac, cld_lwp, cld_reliq, cld_iwp, cld_reice, cld_rwp, cld_rerain, cld_swp, cld_resnow) |
| subroutine, public | progcld_thompson_wsm6 (plyr, plvl, tlyr, qlyr, qstl, rhly, clw, xlat, xlon, slmsk, dz, delp, ntrac, ntcw, ntiw, ntrw, ntsw, ntgl, IX, NLAY, NLP1, uni_cld, lmfshal, lmfdeep2, cldcov, cnvw, re_cloud, re_ice, re_snow, lwp_ex, iwp_ex, lwp_fc, iwp_fc, dzlay, cldtot, cldcnv, cld_frac, cld_lwp, cld_reliq, cld_iwp, cld_reice, cld_rwp, cld_rerain, cld_swp, cld_resnow) |
| subroutine, public | progcld_thompson (plyr, plvl, tlyr, qlyr, qstl, rhly, clw, xlat, xlon, slmsk, dz, delp, ntrac, ntcw, ntiw, ntrw, ntsw, ntgl, IX, NLAY, NLP1, uni_cld, lmfshal, lmfdeep2, cldcov, re_cloud, re_ice, re_snow, lwp_ex, iwp_ex, lwp_fc, iwp_fc, dzlay, gridkm, cldtot, cldcnv, cld_frac, cld_lwp, cld_reliq, cld_iwp, cld_reice, cld_rwp, cld_rerain, cld_swp, cld_resnow) |
| This subroutine added by G. Thompson specifically to account for explicit (microphysics-produced) cloud liquid water, cloud ice, and snow with 100% cloud fraction. Also, a parameterization for cloud fraction less than 1.0 but greater than 0.0 follows Mocko and Cotton (1996) from Sundqvist et al. (1989) with cloud fraction increasing as RH increases above a critical value. In locations with non-zero (but less than 1.0) cloud fraction, there MUST be a value assigned to cloud liquid water and ice or else there is zero impact in the RRTMG radiation scheme. More... | |
| subroutine, public | progclduni (plyr, plvl, tlyr, tvly, ccnd, ncnd, xlat, xlon, slmsk, dz, delp, IX, NLAY, NLP1, cldtot, effrl, effri, effrr, effrs, effr_in, dzlay, cldtot1, cldcnv, cld_frac, cld_lwp, cld_reliq, cld_iwp, cld_reice, cld_rwp, cld_rerain, cld_swp, cld_resnow) |
| This subroutine computes cloud related quantities using for unified cloud microphysics scheme. More... | |
| subroutine, public | gethml (plyr, ptop1, cldtot, cldcnv, dz, de_lgth, alpha, IX, NLAY, iovr_rand, iovr_maxrand, iovr_max, iovr_dcorr, iovr_exp, iovr_exprand, clds, mtop, mbot) |
| This subroutine computes high, mid, low, total, and boundary cloud fractions and cloud top/bottom layer indices for model diagnostic output. The three cloud domain boundaries are defined by ptopc. The cloud overlapping method is defined by control flag 'iovr', which is also used by LW and SW radiation programs. More... | |
| subroutine, public | cal_cldfra3 (CLDFRA, qv, qc, qi, qs, dz, p, t, XLAND, gridkm, modify_qvapor, max_relh, kts, kte, debug_flag) |
| Cloud fraction scheme by G. Thompson (NCAR-RAL), not intended for combining with any cumulus or shallow cumulus parameterization scheme cloud fractions. This is intended as a stand-alone for cloud fraction and is relatively good at getting widespread stratus and stratoCu without caring whether any deep/shallow Cu param schemes is making sub-grid-spacing clouds/precip. Under the hood, this scheme follows Mocko and Cotton (1995) in application of the Sundqvist et al (1989) scheme but using a grid-scale dependent RH threshold, one each for land v. ocean points based on experiences with HWRF testing. More... | |
| subroutine, public | find_cloudlayers (qvs1d, cfr1d, T1d, P1d, Dz1d, entrmnt, debugfl, qc1d, qi1d, qs1d, kts, kte) |
| From cloud fraction array, find clouds of multi-level depth and compute a reasonable value of LWP or IWP that might be contained in that depth, unless existing LWC/IWC is already there. More... | |
| subroutine, public | adjust_cloudice (cfr, qi, qs, qvs, T, dz, entr, k1, k2, kts, kte) |
| subroutine, public | adjust_cloudh2o (cfr, qc, qvs, T, dz, entr, k1, k2, kts, kte) |
| subroutine, public | adjust_cloudfinal (cfr, qc, qi, Rho, dz, kts, kte) |
| Do not alter any grid-explicitly resolved hydrometeors, rather only the supposed amounts due to the cloud fraction scheme. More... | |
| subroutine | cloud_fraction_xurandall (IX, NLAY, plyr, clwf, rhly, qstl, cldtot) |
| This subroutine computes the Xu-Randall cloud fraction scheme. More... | |
| subroutine | cloud_fraction_mass_flx_1 (IX, NLAY, lmfdeep2, xrc3, plyr, clwf, rhly, qstl, cldtot) |
| subroutine | cloud_fraction_mass_flx_2 (IX, NLAY, lmfdeep2, xrc3, plyr, clwf, rhly, qstl, cldtot) |
Variables | |
| character(40), parameter | vtagcld ='NCEP-Radiation_clouds v5.1 Nov 2012 ' |
| real(kind=kind_phys), parameter | gfac =1.0e5/con_g |
| real(kind=kind_phys), parameter | gord =con_g/con_rd |
| integer, parameter, public | nf_clds = 9 |
| number of fields in cloud array More... | |
| integer, parameter, public | nk_clds = 3 |
| number of cloud vertical domains More... | |
| real(kind=kind_phys), dimension(nk_clds+1, 2), save | ptopc |
| pressure limits of cloud domain interfaces (low, mid, high) in mb (0.1kPa) More... | |
| real(kind=kind_phys), parameter | climit = 0.001 |
| real(kind=kind_phys), parameter | climit2 =0.05 |
| real(kind=kind_phys), parameter | ovcst = 1.0 - 1.0e-8 |
| real(kind=kind_phys), parameter | reliq_def = 10.0 |
| default liq radius to 10 micron More... | |
| real(kind=kind_phys), parameter | reice_def = 50.0 |
| default ice radius to 50 micron More... | |
| real(kind=kind_phys), parameter | rrain_def = 1000.0 |
| default rain radius to 1000 micron More... | |
| real(kind=kind_phys), parameter | rsnow_def = 250.0 |
| default snow radius to 250 micron More... | |
| real(kind=kind_phys), parameter | cldssa_def = 0.99 |
| default cld single scat albedo More... | |
| real(kind=kind_phys), parameter | cldasy_def = 0.84 |
| default cld asymmetry factor More... | |
| integer | llyr = 2 |
| upper limit of boundary layer clouds More... | |
| real(kind=kind_phys), dimension(95), parameter | retab =(/ 5.92779, 6.26422, 6.61973, 6.99539, 7.39234, 7.81177, 8.25496, 8.72323, 9.21800, 9.74075, 10.2930, 10.8765, 11.4929, 12.1440, 12.8317, 13.5581, 14.2319, 15.0351, 15.8799, 16.7674, 17.6986, 18.6744, 19.6955, 20.7623, 21.8757, 23.0364, 24.2452, 25.5034, 26.8125, 27.7895, 28.6450, 29.4167, 30.1088, 30.7306, 31.2943, 31.8151, 32.3077, 32.7870, 33.2657, 33.7540, 34.2601, 34.7892, 35.3442, 35.9255, 36.5316, 37.1602, 37.8078, 38.4720, 39.1508, 39.8442, 40.5552, 41.2912, 42.0635, 42.8876, 43.7863, 44.7853, 45.9170, 47.2165, 48.7221, 50.4710, 52.4980, 54.8315, 57.4898, 60.4785, 63.7898, 65.5604, 71.2885, 75.4113, 79.7368, 84.2351, 88.8833, 93.6658, 98.5739, 103.603, 108.752, 114.025, 119.424, 124.954, 130.630, 136.457, 142.446, 148.608, 154.956, 161.503, 168.262, 175.248, 182.473, 189.952, 197.699, 205.728, 214.055, 222.694, 231.661, 240.971, 250.639/) |
1.9.4