1 | !!>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>> |
---|
2 | !! NEMO/LIM3 : 1 - dynamics/advection/thermo (namicerun) |
---|
3 | !! namelists 2 - ice intialisation (namiceini) |
---|
4 | !! 3 - ice dynamic (namicedyn) |
---|
5 | !! 4 - ice advection (namicetrp) |
---|
6 | !! 5 - thermodynamic (namicethd) |
---|
7 | !! 6 - ice salinity (namicesal) |
---|
8 | !! 7 - mechanical redistribution of ice (namiceitdme) |
---|
9 | !! 8 - ice diagnostics (namicedia) |
---|
10 | !! 9 - ice outputs (namiceout) |
---|
11 | !>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>> |
---|
12 | |
---|
13 | !----------------------------------------------------------------------- |
---|
14 | &namicerun ! Share parameters for dynamics/advection/thermo |
---|
15 | !----------------------------------------------------------------------- |
---|
16 | cn_icerst_in = "restart_ice" ! suffix of ice restart name (input) |
---|
17 | cn_icerst_out = "restart_ice" ! suffix of ice restart name (output) |
---|
18 | ln_limdyn = .true. ! ice dynamics (T) or thermodynamics only (F) |
---|
19 | amax = 0.999 ! maximum ice concentration |
---|
20 | cai = 1.40e-3 ! atmospheric drag over sea ice |
---|
21 | cao = 1.00e-3 ! atmospheric drag over ocean |
---|
22 | ln_nicep = .false. ! Ice points output for debug (yes or no) |
---|
23 | ln_limdiahsb = .false. ! check the heat and salt budgets (T) or not (F) |
---|
24 | ln_limdiaout = .false. ! output the heat and salt budgets (T) or not (F) |
---|
25 | / |
---|
26 | !----------------------------------------------------------------------- |
---|
27 | &namiceini ! ice initialisation |
---|
28 | !----------------------------------------------------------------------- |
---|
29 | ttest = 2.0 ! threshold water temperature for initial sea ice |
---|
30 | hninn = 0.3 ! initial snow thickness in the north |
---|
31 | hnins = 0.1 ! " " south |
---|
32 | hginn = 3.50 ! initial undeformed ice thickness in the north |
---|
33 | hgins = 1.0 ! " " " south |
---|
34 | aginn = 0.95 ! initial undeformed ice concentration in the north |
---|
35 | agins = 0.9 ! " " " south |
---|
36 | sinn = 6.301 ! initial salinity in the north |
---|
37 | sins = 6.301 ! " " south |
---|
38 | / |
---|
39 | !----------------------------------------------------------------------- |
---|
40 | &namicedyn ! ice dynamic |
---|
41 | !----------------------------------------------------------------------- |
---|
42 | epsd = 1.0e-20 ! tolerance parameter |
---|
43 | alpha = 0.5 ! coefficient for semi-implicit coriolis |
---|
44 | dm = 0.6e+03 ! diffusion constant for dynamics |
---|
45 | nbiter = 1 ! number of sub-time steps for relaxation |
---|
46 | nbitdr = 500 ! maximum number of iterations for relaxation |
---|
47 | om = 0.5 ! relaxation constant |
---|
48 | resl = 5.0e-05 ! maximum value for the residual of relaxation |
---|
49 | cw = 5.0e-03 ! drag coefficient for oceanic stress |
---|
50 | angvg = 0.0 ! turning angle for oceanic stress |
---|
51 | pstar = 2.0e+04 ! 1st bulk-rheology parameter |
---|
52 | c_rhg = 20.0 ! 2nd bulk-rhelogy parameter |
---|
53 | etamn = 0.0e+07 ! minimun value for viscosity |
---|
54 | creepl = 1.0e-12 ! creep limit |
---|
55 | ecc = 2.0 ! eccentricity of the elliptical yield curve |
---|
56 | ahi0 = 350.e0 ! horizontal eddy diffusivity coefficient for sea-ice [m2/s] |
---|
57 | nevp = 300 ! number of iterations for subcycling in EVP, SB, 400 |
---|
58 | telast =9600.0 ! timescale for elastic waves, SB, 720.0 |
---|
59 | alphaevp = 1.0 ! coefficient for the solution of internal ice stresses |
---|
60 | hminrhg = 0.001 ! ice volume (a*h in m) below which ice velocity equal ocean velocity |
---|
61 | / |
---|
62 | !----------------------------------------------------------------------- |
---|
63 | &namicetrp ! ice transport |
---|
64 | !----------------------------------------------------------------------- |
---|
65 | bound = 0. ! boundary conditions (=0.0 no-slip, =1.0 free-slip) |
---|
66 | / |
---|
67 | !----------------------------------------------------------------------- |
---|
68 | &namicethd ! ice thermodynamic |
---|
69 | !----------------------------------------------------------------------- |
---|
70 | hmelt = -0.15 ! maximum melting at the bottom |
---|
71 | hiccrit = 0.1 , 0.1 ! ice thickness for lateral accretion in the Northern (Southern) Hemisphere |
---|
72 | ! caution 1.0, 1.0 best value to be used!!! (gilles G.) ???? |
---|
73 | fraz_swi = 0.0 ! use of frazil ice collection thickness in function of wind (1.0) or not (0.0) |
---|
74 | maxfrazb = 0.0 ! maximum portion of frazil ice collecting at the ice bottom |
---|
75 | vfrazb = 0.4166667 ! thresold drift speed for frazil ice collecting at the ice bottom |
---|
76 | Cfrazb = 5.0 ! squeezing coefficient for frazil ice collecting at the ice bottom |
---|
77 | hicmin = 0.2 ! ice thickness corr. to max. energy stored in brine pocket |
---|
78 | hiclim = 0.10 ! minimum ice thickness |
---|
79 | sbeta = 1. ! numerical caracteritic of the scheme for diffusion in ice |
---|
80 | ! Cranck-Nicholson (=0.5), implicit (=1), explicit (=0) |
---|
81 | parlat = 0.0 ! percentage of energy used for lateral ablation |
---|
82 | hakspl = 0.25 ! slope of distr. for Hakkinen-Mellor's lateral melting |
---|
83 | hibspl = 0.5 ! slope of distribution for Hibler's lateral melting |
---|
84 | exld = 2.0 ! exponent for leads-closure rate |
---|
85 | hakdif = 1.0 ! coefficient for diffusions of ice and snow |
---|
86 | thth = 0.2 ! threshold thickness for comp. of eq. thermal conductivity |
---|
87 | hnzst = 0.1 ! thickness of the surf. layer in temp. computation |
---|
88 | parsub = 1.0 ! switch for snow sublimation or not |
---|
89 | alphs = 1.0 ! coefficient for snow density when snow ice formation |
---|
90 | betas = 0.6 ! exponent in lead-ice fractionation of snow precipitation 0.66 |
---|
91 | ! betas = 1 -> equipartition, betas < 1 -> more on leads |
---|
92 | kappa_i = 1.0 ! extinction radiation parameter in sea ice (1.0) |
---|
93 | nconv_i_thd = 50 ! maximal number of iterations for heat diffusion computation |
---|
94 | maxer_i_thd = 0.0001 ! maximal error in temperature for heat diffusion computation |
---|
95 | thcon_i_swi = 1 ! switch for computation of thermal conductivity in the ice |
---|
96 | ! (0) Untersteiner (1964), (1) Pringle et al. (2007) |
---|
97 | / |
---|
98 | !----------------------------------------------------------------------- |
---|
99 | &namicesal ! ice salinity |
---|
100 | !----------------------------------------------------------------------- |
---|
101 | num_sal = 2 ! salinity option: 1 -> S = bulk_sal |
---|
102 | ! 2 -> S = S(z,t) with a simple parameterization |
---|
103 | ! 3 -> S = S(z) profile of Scwharzacher [1959] |
---|
104 | ! 4 -> S = S(h) Cox and Weeks [1974] |
---|
105 | bulk_sal = 4.0 ! if 1 is used, it represents the ice salinity |
---|
106 | sal_G = 5.00 ! restoring salinity for GD |
---|
107 | time_G = 1.728e+6 ! restoring time for GD |
---|
108 | sal_F = 2.00 ! restoring salinity for flushing |
---|
109 | time_F = 8.640e+5 ! restoring time for flushing |
---|
110 | s_i_max = 20.0 ! Maximum salinity |
---|
111 | s_i_min = 0.1 ! Minimum tolerated ice salinity |
---|
112 | s_i_0 = 3.5 ! 1st salinity for salinity profile |
---|
113 | s_i_1 = 4.5 ! 2nd salinity for salinity profile |
---|
114 | / |
---|
115 | !----------------------------------------------------------------------- |
---|
116 | &namiceitdme ! parameters for mechanical redistribution of ice |
---|
117 | !----------------------------------------------------------------------- |
---|
118 | ridge_scheme_swi = 0 ! which ridging scheme using (1=Rothrock,else=Hibler79) |
---|
119 | Cs = 0.50 ! shearing energy contribution to ridging |
---|
120 | Cf = 17.0 ! ratio of ridging work to PE change in ridging |
---|
121 | fsnowrdg = 0.5 ! snow fraction that survives in ridging |
---|
122 | fsnowrft = 0.5 ! snow fraction that survives in rafting |
---|
123 | Gstar = 0.15 ! fractional area of thin ice being ridged |
---|
124 | astar = 0.05 ! equivalent of gstar (0.05 for TH75 and 0.03 for weaker ice) |
---|
125 | Hstar = 100.0 ! parameter determining the maximum thickness of ridged ice |
---|
126 | raftswi = 1 ! rafting or not |
---|
127 | hparmeter = 0.75 ! threshold thickness for rafting or not |
---|
128 | Craft = 5.0 ! coefficient used in the rafting function |
---|
129 | ridge_por = 0.3 ! initial porosity of the ridged ice (typically 0.30) |
---|
130 | sal_max_ridge = 15.0 ! maximum ridged ice salinity |
---|
131 | partfun_swi = 1 ! participation function linear, TH75 (0) or exponential Letal07 (1) |
---|
132 | transfun_swi = 0 ! transfer function uniform of H80 (0) or exponential Letal07 (1) |
---|
133 | brinstren_swi = 0 ! (1) use brine volume to diminish ice strength |
---|
134 | / |
---|
135 | !----------------------------------------------------------------------- |
---|
136 | &namicedia ! ice diagnostics |
---|
137 | !----------------------------------------------------------------------- |
---|
138 | fmtinf ='1PE13.5 ' ! format of the output values |
---|
139 | nfrinf = 4 ! number of variables written in one line |
---|
140 | ntmoy = 1 ! instantaneous values of ice evolution or averaging |
---|
141 | ninfo = 1 ! frequency of ouputs on file ice_evolu in case of averaging |
---|
142 | / |
---|
143 | !!----------------------------------------------------------------------- |
---|
144 | !&namicehsb ! Heat and salt budgets |
---|
145 | !!----------------------------------------------------------------------- |
---|
146 | ! |
---|
147 | !/ |
---|
148 | !----------------------------------------------------------------------- |
---|
149 | &namiceout ! parameters for outputs |
---|
150 | !----------------------------------------------------------------------- |
---|
151 | noumef = 43 ! number of fields |
---|
152 | add_diag_swi= 1 ! 1 -> diagnose distribution in thickness space |
---|
153 | ! 0 -> only simple diagnostics |
---|
154 | ! |
---|
155 | ! ! title of the field ! name ! units ! save ! multipl. ! additive ! |
---|
156 | ! ! ! ! ! or not ! factor ! factor ! |
---|
157 | field_1 = 'Ice concentration ', 'iiceconc', '% ', 1 , 1.0 , 0.0 |
---|
158 | field_2 = 'Ice thickness ', 'iicethic', 'm ', 1 , 1.0 , 0.0 |
---|
159 | field_3 = 'Snow thickness ', 'isnowthi', 'm ', 1 , 1.0 , 0.0 |
---|
160 | field_4 = 'Daily bottom thermo ice production ', 'iicebopr', 'km3/day ', 1 , 1.0e-9 , 0.0 |
---|
161 | field_5 = 'Daily dynamic ice production ', 'iicedypr', 'km3/day ', 1 , 1.0e-9 , 0.0 |
---|
162 | field_6 = 'Oceanic flux at the ice base ', 'ioceflxb', 'w/m2 ', 1 , 1.0 , 0.0 |
---|
163 | field_7 = 'Ice velocity u ', 'iicevelu', 'm/s ', 1 , 1.0 , 0.0 |
---|
164 | field_8 = 'Ice velocity v ', 'iicevelv', 'm/s ', 1 , 1.0 , 0.0 |
---|
165 | field_9 = 'Sea surface temperature ', 'isstempe', 'C ', 1 , 1.0 , -273.15 |
---|
166 | field_10 = 'Sea surface salinity ', 'isssalin', 'PSU ', 1 , 1.0 , 0.0 |
---|
167 | field_11 = 'Total flux at ocean surface ', 'iocetflx', 'w/m2 ', 1 , 1.0 , 0.0 |
---|
168 | field_12 = 'Solar flux at ocean surface ', 'iocesflx', 'w/m2 ', 1 , 1.0 , 0.0 |
---|
169 | field_13 = 'Non-solar flux at ocean surface ', 'iocwnsfl', 'w/m2 ', 1 , 1.0 , 0.0 |
---|
170 | field_14 = 'Heat flux due to brine release ', 'iocehebr', 'w/m2 ', 1 , 1.0 , 0.0 |
---|
171 | field_15 = 'Wind stress u ', 'iocestru', 'Pa ', 1 , 1.0 , 0.0 |
---|
172 | field_16 = 'Wind stress v ', 'iocestrv', 'Pa ', 1 , 1.0 , 0.0 |
---|
173 | field_17 = 'Solar flux at ice/ocean surface ', 'iicesflx', 'w/m2 ', 1 , 1.0 , 0.0 |
---|
174 | field_18 = 'Non-solar flux at ice/ocean surface', 'iicenflx', 'w/m2 ', 1 , 1.0 , 0.0 |
---|
175 | field_19 = 'Snow precipitation ', 'isnowpre', 'kg/m2/d ', 1 , 1.0 , 0.0 |
---|
176 | field_20 = 'Mean ice salinity ', 'iicesali', 'psu ', 1 , 1.0 , 0.0 |
---|
177 | field_21 = 'Mean ice age ', 'iiceages', 'years ', 1 , 0.002739, 0.0 |
---|
178 | field_22 = 'Daily lateral thermo ice prod. ', 'iicelapr', 'km3/day ', 1 ,1.0e-9 , 0.0 |
---|
179 | field_23 = 'Daily snowice ice production ', 'iicesipr', 'km3/day ', 1 ,1.0e-9 , 0.0 |
---|
180 | field_24 = 'Mean ice temperature ', 'iicetemp', 'C ', 1 , 1.0 , -273.15 |
---|
181 | field_25 = 'Ice total heat content ', 'iiceheco', '10^9 J ', 1 , 1.0 , 0.0 |
---|
182 | field_26 = 'Ice surface temperature ', 'iicesurt', 'C ', 1 , 1.0 , -273.15 |
---|
183 | field_27 = 'Snow temperature ', 'isnotem2', 'C ', 1 , 1.0 , -273.15 |
---|
184 | field_28 = 'Fsbri - brine salt flux ', 'iicefsbr', 'kg/m2/d ', 1 , 1.0 , 0.0 |
---|
185 | field_29 = 'Fseqv - equivalent FW salt flux ', 'iicefseq', 'kg/m2/d ', 1 , 1.0 , 0.0 |
---|
186 | field_30 = 'Brine volume ', 'ibrinvol', '% ', 1 , 100.0 , 0.0 |
---|
187 | field_31 = 'Frazil ice collection thickness ', 'iicecolf', 'm ', 1 , 1.0 , 0.0 |
---|
188 | field_32 = 'Ice strength ', 'iicestre', 'N/m ', 1 , 0.001 , 0.0 |
---|
189 | field_33 = 'Ice velocity ', 'iicevelo', 'm/s ', 1 , 1.0 , 0.0 |
---|
190 | field_34 = 'Surface melt ', 'iicesume', 'km3/day ', 1 ,1.0e-9 , 0.0 |
---|
191 | field_35 = 'Bottom melt ', 'iicebome', 'km3/day ', 1 ,1.0e-9 , 0.0 |
---|
192 | field_36 = 'Divergence ', 'iicedive', '10-8s-1 ', 1 , 1.0e8 , 0.0 |
---|
193 | field_37 = 'Shear ', 'iiceshea', '10-8s-1 ', 1 , 1.0e8 , 0.0 |
---|
194 | field_38 = 'Daily resultant ice prod/melt ', 'iicerepr', 'km3/day ', 1 , 1.0e-9 , 0.0 |
---|
195 | field_39 = 'Ice volume ', 'iicevolu', 'km3 ', 1 , 1.0e-9 , 0.0 |
---|
196 | field_40 = 'Snow volume ', 'isnowvol', 'km3 ', 1 , 1.0e-9 , 0.0 |
---|
197 | field_41 = 'Fsrpo - salt flux from ridg/raft ', 'iicefsrp', 'kg/m2/d ', 1 , 1.0 , 0.0 |
---|
198 | field_42 = 'Fsres - salt flux from limupdate ', 'iicefsre', 'kg/m2/d ', 1 , 1.0 , 0.0 |
---|
199 | field_43 = 'Ice volume transport ', 'iicevtrp', 'km3/day ', 1 ,1.0e-9 , 0.0 |
---|
200 | / |
---|
201 | |
---|