1 | !!>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>> |
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2 | !! LIM3 namelist : |
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3 | !! 1 - Generic parameters (namicerun) |
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4 | !! 2 - Ice initialization (namiceini) |
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5 | !! 3 - Ice discretization (namiceitd) |
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6 | !! 4 - Ice dynamics and transport (namicedyn) |
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7 | !! 5 - Ice thermodynamics (namicethd) |
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8 | !! 6 - Ice salinity (namicesal) |
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9 | !! 7 - Ice mechanical redistribution (namiceitdme) |
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10 | !>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>> |
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11 | ! |
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12 | !------------------------------------------------------------------------------ |
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13 | &namicerun ! Generic parameters |
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14 | !------------------------------------------------------------------------------ |
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15 | jpl = 5 ! number of ice categories |
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16 | nlay_i = 2 ! number of ice layers |
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17 | nlay_s = 1 ! number of snow layers (only 1 is working) |
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18 | cn_icerst_in = "restart_ice" ! suffix of ice restart name (input) |
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19 | cn_icerst_indir = "." ! directory from which to read input ice restarts |
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20 | cn_icerst_out = "restart_ice" ! suffix of ice restart name (output) |
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21 | cn_icerst_outdir = "." ! directory in which to write output ice restarts |
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22 | ln_limdyn = .true. ! ice dynamics (T) or thermodynamics only (F) |
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23 | rn_amax_n = 0.999 ! maximum tolerated ice concentration NH |
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24 | rn_amax_s = 0.999 ! maximum tolerated ice concentration SH |
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25 | ln_limdiahsb = .false. ! check the heat and salt budgets (T) or not (F) |
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26 | ln_limdiaout = .true. ! output the heat and salt budgets (T) or not (F) |
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27 | ln_icectl = .false. ! ice points output for debug (T or F) |
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28 | iiceprt = 10 ! i-index for debug |
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29 | jiceprt = 10 ! j-index for debug |
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30 | / |
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31 | !------------------------------------------------------------------------------ |
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32 | &namiceini ! Ice initialization |
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33 | !------------------------------------------------------------------------------ |
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34 | ln_iceini = .true. ! activate ice initialization (T) or not (F) |
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35 | rn_thres_sst = 2.0 ! maximum water temperature with initial ice (degC) |
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36 | rn_hts_ini_n = 0.3 ! initial real snow thickness (m), North |
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37 | rn_hts_ini_s = 0.3 ! " " South |
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38 | rn_hti_ini_n = 3.0 ! initial real ice thickness (m), North |
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39 | rn_hti_ini_s = 1.0 ! " " South |
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40 | rn_ati_ini_n = 0.9 ! initial ice concentration (-), North |
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41 | rn_ati_ini_s = 0.9 ! " " South |
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42 | rn_smi_ini_n = 6.3 ! initial ice salinity (g/kg), North |
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43 | rn_smi_ini_s = 6.3 ! " " South |
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44 | rn_tmi_ini_n = 270. ! initial ice/snw temperature (K), North |
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45 | rn_tmi_ini_s = 270. ! " " South |
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46 | / |
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47 | !------------------------------------------------------------------------------ |
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48 | &namiceitd ! Ice discretization |
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49 | !------------------------------------------------------------------------------ |
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50 | nn_catbnd = 2 ! computation of ice category boundaries based on |
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51 | ! 1: tanh function |
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52 | ! 2: h^(-alpha), function of rn_himean |
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53 | rn_himean = 2.0 ! expected domain-average ice thickness (m), nn_catbnd = 2 only |
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54 | / |
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55 | !------------------------------------------------------------------------------ |
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56 | &namicedyn ! Ice dynamics and transport |
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57 | !------------------------------------------------------------------------------ |
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58 | nn_icestr = 0 ! ice strength parameteriztaion |
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59 | ! 0: Hibler_79 P = pstar*<h>*exp(-c_rhg*A) |
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60 | ! 1: Rothrock_75 P = Cf*coeff*integral(wr.h^2) |
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61 | ln_icestr_bvf = .false. ! ice strength function brine volume (T) or not (F) |
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62 | rn_pe_rdg = 17.0 ! ridging work divided by pot. energy change in ridging, if nn_icestr = 1 |
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63 | rn_pstar = 2.0e+04 ! ice strength thickness parameter (N/m2), nn_icestr = 0 |
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64 | rn_crhg = 20.0 ! ice strength conc. parameter (-), nn_icestr = 0 |
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65 | rn_cio = 5.0e-03 ! ice-ocean drag coefficient (-) |
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66 | rn_creepl = 1.0e-12 ! creep limit (s-1) |
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67 | rn_ecc = 2.0 ! eccentricity of the elliptical yield curve |
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68 | nn_nevp = 120 ! number of EVP subcycles |
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69 | rn_relast = 0.333 ! ratio of elastic timescale to ice time step: Telast = dt_ice * rn_relast |
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70 | ! advised value: 1/3 (rn_nevp=120) or 1/9 (rn_nevp=300) |
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71 | nn_ahi0 = 2 ! horizontal diffusivity computation |
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72 | ! 0: use rn_ahi0_ref |
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73 | ! 1: use rn_ahi0_ref x mean grid cell length / ( 2deg mean grid cell length ) |
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74 | ! 2: use rn_ahi0_ref x grid cell length / ( 2deg mean grid cell length ) |
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75 | rn_ahi0_ref = 350.0 ! horizontal sea ice diffusivity (m2/s) |
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76 | ! if nn_ahi0 > 0, rn_ahi0_ref is the reference value at a nominal 2 deg resolution |
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77 | / |
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78 | !------------------------------------------------------------------------------ |
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79 | &namicehdf ! Ice horizontal diffusion |
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80 | !------------------------------------------------------------------------------ |
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81 | nn_convfrq = 5 ! convergence check frequency of the Crant-Nicholson scheme (perf. optimization) |
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82 | / |
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83 | !------------------------------------------------------------------------------ |
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84 | &namicethd ! Ice thermodynamics |
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85 | !------------------------------------------------------------------------------ |
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86 | rn_hnewice = 0.1 ! thickness for new ice formation in open water (m) |
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87 | ln_frazil = .false. ! use frazil ice collection thickness as a function of wind (T) or not (F) |
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88 | rn_maxfrazb = 1.0 ! maximum fraction of frazil ice collecting at the ice base |
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89 | rn_vfrazb = 0.417 ! thresold drift speed for frazil ice collecting at the ice bottom (m/s) |
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90 | rn_Cfrazb = 5.0 ! squeezing coefficient for frazil ice collecting at the ice bottom |
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91 | rn_himin = 0.10 ! minimum ice thickness (m) used in remapping, must be smaller than rn_hnewice |
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92 | rn_betas = 0.66 ! exponent in lead-ice repratition of snow precipitation |
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93 | ! betas = 1 -> equipartition, betas < 1 -> more on leads |
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94 | rn_kappa_i = 1.0 ! radiation attenuation coefficient in sea ice (m-1) |
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95 | nn_conv_dif = 50 ! maximal number of iterations for heat diffusion computation |
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96 | rn_terr_dif = 0.0001 ! maximum temperature after heat diffusion (degC) |
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97 | nn_ice_thcon= 1 ! sea ice thermal conductivity |
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98 | ! 0: k = k0 + beta.S/T (Untersteiner, 1964) |
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99 | ! 1: k = k0 + beta1.S/T - beta2.T (Pringle et al., 2007) |
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100 | rn_cdsn = 0.31 ! thermal conductivity of the snow (0.31 W/m/K, Maykut and Untersteiner, 1971). Obs: 0.1-0.5 (Lecomte et al, JAMES 2013) |
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101 | nn_monocat = 0 ! virtual ITD mono-category parameterizations (1, jpl = 1 only) or not (0) |
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102 | ! 2: simple piling instead of ridging --- temporary option |
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103 | ! 3: activate G(he) only --- temporary option |
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104 | ! 4: activate lateral melting only --- temporary option |
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105 | ln_it_qnsice = .true. ! iterate the surface non-solar flux with surface temperature (T) or not (F) |
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106 | / |
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107 | !------------------------------------------------------------------------------ |
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108 | &namicesal ! Ice salinity |
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109 | !------------------------------------------------------------------------------ |
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110 | nn_icesal = 2 ! ice salinity option |
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111 | ! 1: constant ice salinity (S=rn_icesal) |
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112 | ! 2: varying salinity parameterization S(z,t) |
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113 | ! 3: prescribed salinity profile S(z), Schwarzacher, 1959 |
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114 | rn_icesal = 4. ! ice salinity (g/kg, nn_icesal = 1 only) |
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115 | rn_sal_gd = 5. ! restoring ice salinity, gravity drainage (g/kg) |
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116 | rn_time_gd = 1.73e+6 ! restoring time scale, gravity drainage (s) |
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117 | rn_sal_fl = 2. ! restoring ice salinity, flushing (g/kg) |
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118 | rn_time_fl = 8.64e+5 ! restoring time scale, flushing (s) |
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119 | rn_simax = 20. ! maximum tolerated ice salinity (g/kg) |
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120 | rn_simin = 0.1 ! minimum tolerated ice salinity (g/kg) |
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121 | / |
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122 | !------------------------------------------------------------------------------ |
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123 | &namiceitdme ! Ice mechanical redistribution (ridging and rafting) |
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124 | !------------------------------------------------------------------------------ |
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125 | rn_Cs = 0.5 ! fraction of shearing energy contributing to ridging |
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126 | rn_fsnowrdg = 0.5 ! snow volume fraction that survives in ridging |
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127 | rn_fsnowrft = 0.5 ! snow volume fraction that survives in rafting |
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128 | nn_partfun = 1 ! type of ridging participation function |
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129 | ! 0: linear (Thorndike et al, 1975) |
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130 | ! 1: exponential (Lipscomb, 2007 |
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131 | rn_gstar = 0.15 ! fractional area of thin ice being ridged (nn_partfun = 0) |
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132 | rn_astar = 0.05 ! exponential measure of ridging ice fraction (nn_partfun = 1) |
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133 | rn_hstar = 100.0 ! determines the maximum thickness of ridged ice (m) (Hibler, 1980) |
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134 | ln_rafting = .true. ! rafting activated (T) or not (F) |
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135 | rn_hraft = 0.75 ! threshold thickness for rafting (m) |
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136 | rn_craft = 5.0 ! squeezing coefficient used in the rafting function |
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137 | rn_por_rdg = 0.3 ! porosity of newly ridged ice (Lepparanta et al., 1995) |
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138 | / |
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