2 'PSI SCHEME OPTION' : {
4 2 : "Predictor-corrector"
7 'TYPE OF ADVECTION' : {
10 3 : "Conservative N-scheme",
11 4 : "Conservative N-scheme",
12 5 : "Conservative PSI-scheme",
13 6 : "Non conservative PSI-scheme",
14 7 : "Implicit non conservative N-scheme",
15 13 : "Edge-based N-scheme",
16 14 : "Edge-based N-scheme"
19 'GEOMETRY FILE FORMAT' : {
22 'SERAFIND': 'SerafinD',
25 'PREVIOUS COMPUTATION FILE FORMAT' : {
28 'SERAFIND': 'SerafinD',
31 'REFERENCE FILE FORMAT' : {
34 'SERAFIND': 'SerafinD',
37 'RESULTS FILE FORMAT' : {
40 'SERAFIND': 'SerafinD',
44 0 : "No preconditioning",
46 3 : "Diagonal condensee",
49 14 : "Diagonal and Crout",
50 21 : "Diagonal condensed and Crout"
53 'INITIAL GUESS FOR H' : {
59 'LAW OF BOTTOM FRICTION' : {
68 'SOLVER FOR DIFFUSION OF TRACERS' : {
69 1 : "Conjugate gradient",
70 2 : "Conjugate residual",
71 3 : "Conjugate gradient on a normal equation",
73 5 : "Squared conjugate gradient",
80 3 : "Conjugate gradient on a normal equation",
81 1 : "Conjugate gradient",
82 2 : "Conjugate residual",
89 'PRECONDITIONING FOR DIFFUSION OF TRACERS' : {
91 0 : "No preconditioning",
92 3 : "Diagonal condensed",
94 14 : "Diagonal and Crout",
95 21 : "Diagonal condensed and Crout"
98 'SOLVER FOR K-EPSILON MODEL' : {
99 1 : "Conjugate gradient",
100 2 : "Conjugate residuals",
101 3 : "Conjugate gradient on normal equation",
103 5 : "Conjugate gradient squared",
104 6 : "Conjugate gradient squared stabilised (CGSTAB)",
109 'PRECONDITIONING FOR K-EPSILON MODEL' : {
111 0 : "No preconditioning",
112 3 : "Diagonal condensed",
114 14 : "Diagonal and Crout",
115 21 : "Diagonal condensed and Crout"
118 'TURBULENCE MODEL FOR SOLID BOUNDARIES' : {
123 'FRICTION COEFFICIENT' : {
124 1 : "Linear coefficient",
125 2 : "Chezy coefficient",
126 3 : "Strickler coefficient",
127 4 : "Manning coefficient",
128 5 : "Nikuradse grain size",
132 'TURBULENCE MODEL' : {
133 1 : "Constant viscosity",
135 3 : "K-Epsilon Model",
141 'ROUGHNESS COEFFICIENT OF BOUNDARIES' : {
143 2 : "Coefficient de Chezy",
144 3 : "Coefficient de Strickler",
145 4 : "Coefficient de Manning",
146 5 : "Hauteur de rugosite de Nikuradse",
150 'VARIABLES FOR GRAPHIC PRINTOUTS' : {
151 "U" : "Velocity along X axis (m/s)",
152 "V" : "Velocity along Y axis (m/s)",
153 "C" : "Wave celerity (m/s)",
154 "H" : "Water depth (m)",
155 "S" : "Free surface elevation (m)",
156 "B" : "Bottom elevation (m)",
157 "F" : "Froude number ",
158 "Q" : "Scalar flowrate of fluid (m2/s)",
159 "T1" : "Tracer 1 etc. ",
160 "K" : "Turbulent kinetic energy in k-epsilon model (J/kg)",
161 "E" : "Dissipation of turbulent energy (W/kg)",
162 "D" : "Turbulent viscosity of k-epsilon model (m2/s)",
163 "I" : "Flowrate along X axis (m2/s)",
164 "J" : "Flowrate along Y axis (m2/s)",
165 "M" : "Scalar velocity (m/s)",
166 "X" : "Wind along X axis (m/s)",
167 "Y" : "Wind along Y axis (m/s)",
168 "P" : "Air pressure (Pa)",
169 "W" : "Friction coefficient",
170 "A" : "Drift along X (m)",
171 "G" : "Drift along Y (m)",
172 "L" : "Courant number",
173 "N" : "Supplementary variable N ",
174 "O" : "Supplementary variable O ",
175 "R" : "Supplementary variable R ",
176 "Z" : "Supplementary variable Z ",
177 "MAXZ" : "Maximum elevation",
178 "TMXZ" : "Time of maximum elevation ",
179 "MAXV" : "Maximum velocity",
180 "TMXV" : "Time of maximum velocity",
181 "US" : "Friction velocity "
184 'VARIABLES TO BE PRINTED' : {
185 "U" : "Velocity along X axis (m/s)",
186 "V" : "Velocity along Y axis (m/s)",
187 "C" : "Wave celerity (m/s)",
188 "H" : "Water depth (m)",
189 "S" : "Free surface elevation (m)",
190 "B" : "Bottom elevation (m)",
191 "F" : "Froude number",
192 "Q" : "Scalar flowrate of fluid (m2/s)",
194 "K" : "Turbulent kinetic energy in k-epsilon model (J/kg)",
195 "E" : "Dissipation of turbulent energy (W/kg)",
196 "D" : "Turbulent viscosity of k-epsilon model (m2/s)",
197 "I" : "Flowrate along X axis (m2/s)",
198 "J" : "Flowrate along Y axis (m2/s)",
199 "M" : "Scalar velocity (m/s)",
200 "X" : "Wind along X axis (m/s)",
201 "Y" : "Wind along Y axis (m/s)",
202 "P" : "Air pressure (Pa)",
203 "W" : "Friction coefficient",
204 "A" : "Drift along X (m)",
205 "G" : "Drift along Y (m)",
206 "L" : "Nombre de courants ",
207 "N" : "Supplementary variable N",
208 "O" : "Supplementary variable O",
209 "R" : "Supplementary variable R",
210 "Z" : "Supplementary variable Z"
214 'INITIAL CONDITIONS' : {
215 "ZERO ELEVATION" : "Zero elevation",
216 "CONSTANT ELEVATION" : "Constant elevation",
217 "ZERO DEPTH" : "Zero depth",
218 "CONSTANT DEPTH" : "Constant depth",
219 "SPECIAL" : "Special" ,
220 "TPXO SATELLITE ALTIMETRY" : "TPXO satellite altimetry",
223 'SUPG_OPTION_U_AND_V' : {
225 1 : "Classical SUPG",
229 'OPTION FOR THE TREATMENT OF TIDAL FLATS' : {
230 1 : "Equations solved everywhere with correction on tidal flats",
231 2 : "Dry elements frozen",
232 3 : "1 but with porosity (defina method)",
235 'INITIAL GUESS FOR U' : {
241 'DISCRETIZATIONS IN SPACE' : {
247 'MATRIX VECTOR PRODUCT' : {
253 1 : "Classical EBE" ,
254 3 : "Edge-based storage"
256 'OPTION FOR LIQUID BOUNDARIES' : {
257 1 : "Classical boundary conditions",
258 2 : "Thompson method based on characteristics",
261 'TREATMENT OF THE LINEAR SYSTEM' : {
267 "SAINT-VENANT EF" : "Saint-Venant EF",
268 "SAINT-VENANT VF" : "Saint-Venant VF",
269 "BOUSSINESQ" : "Boussinesq"
272 'VELOCITY PROFILES' : {
273 1 : "Constant normal profile",
274 2 : "U and V given in the conlim file",
275 3 : "Normal velocity given in ubor in the conlim file",
276 4 : "Velocity proportional to square root of depth",
277 5 : "Velocity proportional to square root of depth, variant",
278 5 : "QRT(depth) profile, variant",
281 'OPTION FOR THE DIFFUSION OF TRACERS' : {
282 1 : "Div( nu grad(T) )",
283 2 : "1/h Div ( h nu grad(T)" ,
286 'OPTION FOR THE DIFFUSION OF VELOCITIES' : {
292 'PARAMETER ESTIMATION' : {
293 "FRICTION" : "Friction",
294 "FROTTEMENT" : "Frottement",
299 'IDENTIFICATION METHOD' : {
301 1 : "Gradient simple",
303 3 : "Lagrange interp."
307 'FINITE VOLUME SCHEME' : {
309 1 : "kinetic order 1",
310 2 : "kinetic order 2",
311 3 : "Zokagoa scheme order 1",
312 4 : "Tchamen scheme order 1",
313 5 : "HLLC scheme order 1",
314 6 : "WAF scheme order 2"
317 'STAGE-DISCHARGE CURVES' : {
323 'TREATMENT OF NEGATIVE DEPTHS' : {
329 'DEPTH IN FRICTION TERMS' : {
334 'LAW OF FRICTION ON LATERAL BOUNDARIES' : {
342 7 : "Colebrook-white"
346 'TREATMENT OF FLUXES AT THE BOUNDARIES': {
347 1 : "Priority to prescribed values",
348 2 : "Priority to fluxes",
351 'OPTION FOR TIDAL BOUNDARY CONDITIONS': {
353 1 : "Real tide (recommended methodology)",
354 2 : "Astronomical tide",
355 3 : "Mean spring tide",
357 5 : "Mean neap tide",
358 6 : "Astronomical neap tide",
359 7 : "Real tide (methodology before 2010)"
362 'OPTION FOR TSUNAMI GENERATION': {
364 1 : "Tsunami generated on the basis of the Okada model 1992"
367 #'PHYSICAL CHARACTERISTICS OF THE TSUNAMI': {
369 # Physical characteristics of the chosen Tsunami model:
370 # - the focal depth (HH),
371 # - the fault length (L),
372 # - the fault width (W)
373 # - the dislocation (D),
374 # - the strike direction (TH),
375 # - the dip angle (DL),
377 # - the epicentre latitude (Y0) and
378 # - the epicentre longitude (X0)
379 # - the ellipse ( WxL ) area of influence
385 3 : "Miscellaneous (LEGOS-NEA, FES20XX, PREVIMER...)"
388 'GEOGRAPHIC SYSTEM': {
389 0 : "Defined by user",
390 1 : "WGS84 longitude/latitude in real degrees",
391 2 : "WGS84 northern UTM",
392 3 : "WGS84 southern UTM",
398 'ZONE NUMBER IN GEOGRAPHIC SYSTEM': {
399 1 : "Lambert 1 north",
400 2 : "Lambert 2 center",
401 3 : "Lambert 3 south",
402 4 : "Lambert 4 corsica",
403 22 : "Lambert 2 extended",
404 30 : "UTM zone, E.G."
408 'LAW OF TRACERS DEGRADATION': {
409 0 : "No degradation",
413 'SPATIAL PROJECTION TYPE': {
414 1 : "Cartesian, not georeferenced",
416 3 : "Latitude longitude"
421 2 : "Iridaea flaccida (close to ulva)",
422 3 : "Pelvetiopsis limitata",
423 4 : "Gigartina leptorhynchos"
426 'OPTION FOR CHARACTERISTICS': {
431 'STOCHASTIC DIFFUSION MODEL' : {
436 'NUMBER OF GAUSS POINTS FOR WEAK CHARACTERISTICS' : {
443 1 : "Horizontal with same number of nodes upstream/downstream (Historical solution with bord)",
444 2 : "General (New solution with sources points)"
447 'SCHEME FOR ADVECTION OF VELOCITIES': {
448 1 : "Characteristics",
449 2 : "Explicit + SUPG",
450 3 : "Explicit leo postma",
451 4 : "Explicit + murd scheme N",
452 5 : "Explicit + murd scheme PSI",
453 13 : "N-scheme for tidal flats",
454 14 : "N-scheme for tidal flats"
457 'SCHEME FOR ADVECTION OF TRACERS': {
459 1 : "Characteristics",
460 2 : "Explicit + SUPG",
461 3 : "Explicit leo postma",
462 4 : "Explicit + murd scheme N",
463 5 : "Explicit + murd scheme PSI",
464 13 : "Leo postma for tidal flats",
465 14 : "N-scheme for tidal flats"
469 'SCHEME FOR ADVECTION OF K-EPSILON': {
471 1 : "Characteristics",
472 2 : "Explicit + SUPG",
473 3 : "Explicit leo postma",
474 4 : "Explicit + murd scheme N",
475 5 : "Explicit + murd scheme PSI",
476 13 : "Leo postma for tidal flats",
477 14 : "N-scheme for tidal flats"
481 'SCHEME OPTION FOR ADVECTION OF TRACERS': {
483 2 : "predictor-corrector",
487 'SCHEME OPTION FOR ADVECTION OF VELOCITIES': {
489 2 : "Predictor-corrector",
492 'SCHEME OPTION FOR ADVECTION OF K-EPSILON': {
494 2 : "Predictor-corrector",
499 1 : "Constant in time and space",
500 2 : "Variable in time and (constant in space)",
501 3 : "Variable in time and space"
504 'NEWMARK TIME INTEGRATION COEFFICIENT' :{
505 1. : "Euler explicit",
506 0.5 : "order 2 in time",