2 # -*- coding: latin-1 -*-
9 def __convert__(self,valeur):
10 if type(valeur) == types.StringType: return None
11 if len(valeur) != self.ntuple: return None
15 return "Date : jj/mm/aaaa "
25 def __init__(self,ntuple):
28 def __convert__(self,valeur):
29 if type(valeur) == types.StringType:
31 if len(valeur) != self.ntuple:
36 return "Tuple de %s elements" % self.ntuple
40 JdC = JDC_CATA (code = 'WAQTEL',
43 # =======================================================================
44 # Catalog entry for the MAP function : c_pre_interfaceBody_mesh
45 # =======================================================================
47 VERSION_CATALOGUE="TRUNK_20210323"
48 # -----------------------------------------------------------------------
49 COMPUTATION_ENVIRONMENT = PROC(nom= "COMPUTATION_ENVIRONMENT",op = None,
50 # -----------------------------------------------------------------------
51 # -----------------------------------
52 GLOBAL = FACT(statut='o',
53 # -----------------------------------
54 # -----------------------------------
55 WAQ_CASE_TITLE = SIMP(statut ='f',
56 # -----------------------------------
59 fr = """Titre du cas etudie. Ce titre sera inscrit dans les sorties.""",
60 ang = """Title of the case being considered.
61 This title will be marked on the printouts.""",
63 # -----------------------------------
64 PARALLEL_PROCESSORS = SIMP(statut ='f',
65 # -----------------------------------
68 fr = """Nombre de processeurs en calcul parallele :
70 \item 0 : 1 machine, compilation sans bibliotheque de parallelisme ;
71 \item 1 : 1 machine, compilation avec bibliotheque de parallelisme ;
72 \item 2 : 2 processeurs ou machines en parallele etc.
74 ang = """Number of processors for parallel processing:
76 \item 0: 1 machine, compiling without parallel library,
77 \item 1: 1 machine, compiling with a parallel library,
78 \item 2: 2 processors or machines in parallel etc.
82 # -----------------------------------
83 INPUT = FACT(statut='o',
84 # -----------------------------------
85 # -----------------------------------
86 DATA = FACT(statut='o',
87 # -----------------------------------
88 # -----------------------------------
89 GEOMETRY_FILE = SIMP(statut ='f',
90 # -----------------------------------
91 typ = ('Fichier','All Files (*)'), max='**',
93 fr = """Fichier de geometrie, pareil que celui de TELEMAC.""",
94 ang = """Geometry file same as the TELEMAC one.""",
96 # -----------------------------------
97 GEOMETRY_FILE_FORMAT = SIMP(statut ='f',
98 # -----------------------------------
100 into = ['SERAFIN','SERAFIND','MED'],
102 fr = """Format du fichier de geometrie.
103 Les valeurs possibles sont :
105 \item SERAFIN : format standard simple precision pour \tel ;
106 \item SERAFIND: format standard double precision pour \tel ;
107 \item MED : format MED double precision base sur HDF5.
109 ang = """Geometry file format.
110 Possible choices are:
112 \item SERAFIN : classical single precision format in \tel,
113 \item SERAFIND: classical double precision format in \tel,
114 \item MED : MED double precision format based on HDF5.
117 # -----------------------------------
118 BOUNDARY_CONDITIONS_FILE = SIMP(statut ='f',
119 # -----------------------------------
120 typ = ('Fichier','All Files (*)'), max='**',
121 fr = """Nom du fichier contenant les types de conditions aux limites.
122 Ce fichier est rempli de facon automatique par le mailleur au moyen de
123 couleurs affectees aux noeuds des frontieres du domaine de calcul.""",
124 ang = """Name of the file containing the types of boundary conditions.
125 This file is filled automatically by the mesh generator through
126 colours that are assigned to the boundary nodes.""",
128 # -----------------------------------
129 FORTRAN_FILE = SIMP(statut ='f',
130 # -----------------------------------
131 typ = ('Fichier','All Files (*)'), max='**',
133 fr = """Nom du fichier FORTRAN a soumettre.""",
134 ang = """Name of FORTRAN file to be submitted.""",
136 # -----------------------------------
137 HYDRODYNAMIC_FILE = SIMP(statut ='f',
138 # -----------------------------------
139 typ = ('Fichier','All Files (*)'), max='**',
141 fr = """Fichier des donnees hydrodynamiques provenant de TELEMAC.
142 Lu mais pas utilise pour le moment.""",
143 ang = """Hydrodynamic data file coming from TELEMAC.
144 Read but not used at the moment.""",
146 # -----------------------------------
147 HYDRODYNAMIC_FILE_FORMAT = SIMP(statut ='f',
148 # -----------------------------------
150 into = ['SERAFIN','SERAFIND','MED'],
152 fr = """Format du fichier hydrodynamique.
153 Les valeurs possibles sont :
155 \item SERAFIN : format standard simple precision pour \tel ;
156 \item SERAFIND: format standard double precision pour \tel ;
157 \item MED : format MED double precision base sur HDF5.
159 ang = """Hydrodynamic file format.
160 Possible choices are:
162 \item SERAFIN : classical single precision format in \tel,
163 \item SERAFIND: classical double precision format in \tel,
164 \item MED : MED double precision format based on HDF5.
167 # -----------------------------------
168 VALIDATION = SIMP(statut ='f',
169 # -----------------------------------
172 fr = """Option utilisee principalement pour le dossier de validation.
173 Si ce mot-cle vaut OUI, les resultats du calcul vont alors etre
174 compares aux valeurs du fichier de reference.
175 Lu mais pas utilise pour le moment.""",
176 ang = """This option is primarily used for the validation
177 documents. If this keyword is equal to YES, the REFERENCE FILE
178 is then considered as a reference which the computation is
179 going to be compared with.
180 Read but not used at the moment.""",
182 # -----------------------------------
183 b_VALIDATIONG = BLOC(condition="VALIDATION == True",
184 # -----------------------------------
185 # -----------------------------------
186 REFERENCE_FILE_FORMAT = SIMP(statut ='f',
187 # -----------------------------------
189 into = ['SERAFIN','SERAFIND','MED'],
191 fr = """Format du fichier hydrodynamique.
192 Les valeurs possibles sont :
194 \item SERAFIN : format standard simple precision pour \tel ;
195 \item SERAFIND: format standard double precision pour \tel ;
196 \item MED : format MED double precision base sur HDF5.
198 ang = """Hydrodynamic file format.
199 Possible choices are:
201 \item SERAFIN : classical single precision format in \tel,
202 \item SERAFIND: classical double precision format in \tel,
203 \item MED : MED double precision format based on HDF5.
206 # -----------------------------------
207 REFERENCE_FILE = SIMP(statut ='f',
208 # -----------------------------------
209 typ = ('Fichier','All Files (*)'), max='**',
211 fr = """Nom du fichier servant a valider le calcul.
212 Si \telkey{VALIDATION} = OUI, les resultats du calcul vont etre
213 comparees aux valeurs contenues dans ce fichier.
214 La comparaison est effectuee par le sous-programme VALIDA.
216 ang = """Name of the file used to validate the computation.
217 If \telkey{VALIDATION} = YES, the results of the computation will
218 be compared with the values of this file. The comparison is
219 made by the subroutine BIEF\_VALIDA. (not implemented yet).""",
223 # -----------------------------------
224 AED2 = FACT(statut='o',
225 # -----------------------------------
226 # -----------------------------------
227 AED2_STEERING_FILE = SIMP(statut ='f',
228 # -----------------------------------
229 typ = ('Fichier','All Files (*)'),
231 fr = """Nom du fichier contenant les parametres AED2 du calcul
233 ang = """Name of the file containing AED2 parameters of the WAQ
236 # -----------------------------------
237 AED2_PHYTOPLANKTON_STEERING_FILE = SIMP(statut ='f',
238 # -----------------------------------
239 typ = ('Fichier','All Files (*)'),
241 fr = """Nom du fichier contenant les parametres phytoplancton AED2 du
242 calcul QE a realiser.""",
243 ang = """Name of the file containing AED2 phytoplankton parameters of
244 the WAQ computation.""",
246 # -----------------------------------
247 AED2_ZOOPLANKTON_STEERING_FILE = SIMP(statut ='f',
248 # -----------------------------------
249 typ = ('Fichier','All Files (*)'),
251 fr = """Nom du fichier contenant les parametres zooplancton AED2 du
252 calcul QE a realiser.""",
253 ang = """Name of the file containing AED2 zooplankton parameters of the
256 # -----------------------------------
257 AED2_PATHOGEN_STEERING_FILE = SIMP(statut ='f',
258 # -----------------------------------
259 typ = ('Fichier','All Files (*)'),
261 fr = """Nom du fichier contenant les parametres pathogenes AED2 du
262 calcul QE a realiser.""",
263 ang = """Name of the file containing AED2 pathogen parameters of the
266 # -----------------------------------
267 AED2_BIVALVE_STEERING_FILE = SIMP(statut ='f',
268 # -----------------------------------
269 typ = ('Fichier','All Files (*)'),
271 fr = """Nom du fichier contenant les parametres bivalves AED2 du
272 calcul QE a realiser.""",
273 ang = """Name of the file containing AED2 bivalve parameters of the
278 # -----------------------------------
279 OUTPUT = FACT(statut='o',
280 # -----------------------------------
281 # -----------------------------------
282 RESULTS = FACT(statut='o',
283 # -----------------------------------
284 # -----------------------------------
285 RESULTS_FILE = SIMP(statut ='f',
286 # -----------------------------------
287 typ = ('Fichier','All Files (*)','Sauvegarde'), max='**',
288 fr = """Nom du fichier dans lequel seront ecrits les resultats avec
289 une periodicite donnee par le mot cle
290 \telkey{PERIODE POUR LES SORTIES QUALITE D EAU}.""",
291 ang = """Name of the file into which the computation results will be
292 written, the periodicity being given by the keyword
293 \telkey{WATER QUALITY PRINTOUT PERIOD}.""",
295 # -----------------------------------
296 RESULTS_FILE_FORMAT = SIMP(statut ='f',
297 # -----------------------------------
299 into = ['SERAFIN','SERAFIND','MED'],
301 fr = """Format du fichier des resultats.
302 Les valeurs possibles sont :
304 \item SERAFIN : format standard simple precision pour \tel ;
305 \item SERAFIND: format standard double precision pour \tel ;
306 \item MED : format MED double precision base sur HDF5.
308 ang = """Results file format.
309 Possible choices are:
311 \item SERAFIN : classical single precision format in \tel,
312 \item SERAFIND: classical double precision format in \tel,
313 \item MED : MED double precision format based on HDF5.
316 # -----------------------------------
317 WATER_QUALITY_PRINTOUT_PERIOD = SIMP(statut ='o',
318 # -----------------------------------
321 fr = """Periode pour les sorties graphiques QE.
322 Lu mais pas utilise pour le moment.""",
323 ang = """Graphic outputs period for WAQ.
324 Read but not used at the moment.""",
326 # -----------------------------------
327 VARIABLES_FOR_WAQ_PRINTOUTS = SIMP(statut ='f',
328 # -----------------------------------
329 typ = 'TXM', max='**',
330 into = ['','to edit !!!'],
332 fr = """Noms des variables que l''utilisateur veut ecrire dans
333 le fichier des resultats QE.
334 Chaque variable est representee par une lettre.
335 Ne semble pas utilise pour le moment.""",
336 ang = """Names of variables the user wants to write
337 into the graphic results file.
338 Does not seem to be used at the moment.""",
341 # -----------------------------------
342 LISTING = FACT(statut='o',
343 # -----------------------------------
344 # -----------------------------------
345 MASS_BALANCE = SIMP(statut ='f',
346 # -----------------------------------
349 fr = """Determine si oui ou non le bilan de masse est realise.
350 Lu mais pas utilise pour le moment.""",
351 ang = """Determines whether a check of the mass-balance over the domain
353 Read but not used at the moment.""",
355 # -----------------------------------
356 WAQ_VARIABLES_TO_BE_PRINTED = SIMP(statut ='f',
357 # -----------------------------------
358 typ = 'TXM', max='**',
360 fr = """Nom des variables que l''utilisateur desire ecrire sur
361 le listing. Memes possibilites que pour les sorties graphiques.
362 Ne semble pas utilise pour le moment.""",
363 ang = """Names of variables the user wants to write on the listing.
364 Each variable is represented by a letter in the same manner as
365 it is done in the graphic results file.
366 Does not seem to be used at the moment.""",
371 # -----------------------------------------------------------------------
372 GENERAL_PARAMETERS = PROC(nom= "GENERAL_PARAMETERS",op = None,
373 # -----------------------------------------------------------------------
374 # -----------------------------------
375 DEBUGGER = SIMP(statut ='f',
376 # -----------------------------------
379 fr = """Pour imprimer la sequence des appels, mettre 1.""",
380 ang = """If 1, calls of subroutines will be printed in the listing.""",
383 # -----------------------------------------------------------------------
384 HYDRODYNAMICS = PROC(nom= "HYDRODYNAMICS",op = None,
385 # -----------------------------------------------------------------------
386 # -----------------------------------
387 PHYSICAL_PARAMETERS = FACT(statut='o',
388 # -----------------------------------
389 # -----------------------------------
390 WATER_DENSITY = SIMP(statut ='f',
391 # -----------------------------------
394 fr = """Fixe la valeur de la masse volumique de l''eau.""",
395 ang = """Sets the value of water density.""",
397 # -----------------------------------
398 KINEMATIC_WATER_VISCOSITY = SIMP(statut ='f',
399 # -----------------------------------
402 fr = """Definit la viscosite cinematique de l''eau.
403 En m/s$^2$. Lu mais pas utilise pour le moment.""",
404 ang = """Specifies the water kinematic viscosity.
405 En m/s$^2$. Read but not used at the moment.""",
408 # -----------------------------------
409 SUSPENSION = FACT(statut='o',
410 # -----------------------------------
411 # -----------------------------------
412 DISPERSION_ALONG_THE_FLOW = SIMP(statut ='f',
413 # -----------------------------------
416 fr = """Lu mais pas utilise pour le moment.""",
417 ang = """Read but not used at the moment.""",
419 # -----------------------------------
420 DISPERSION_ACROSS_THE_FLOW = SIMP(statut ='f',
421 # -----------------------------------
424 fr = """Lu mais pas utilise pour le moment.""",
425 ang = """Read but not used at the moment.""",
429 # -----------------------------------------------------------------------
430 PHYSICAL_PARAMETERS = PROC(nom= "PHYSICAL_PARAMETERS",op = None,
431 # -----------------------------------------------------------------------
432 # -----------------------------------
433 EVAPORATION_RATE = SIMP(statut ='f',
434 # -----------------------------------
437 fr = """Taux d evaporation - meme unite que la pluie en m$^3$/s/m$^2$.""",
438 ang = """Rate of evaporation - same unit as rainfall in m$^3$/s/m$^2$.""",
441 # -----------------------------------------------------------------------
442 WAQ_PARAMETERS = PROC(nom= "WAQ_PARAMETERS",op = None,
443 # -----------------------------------------------------------------------
444 # -----------------------------------
445 METHOD_OF_COMPUTATION_OF_RAY_EXTINCTION_COEFFICIENT = SIMP(statut ='o',
446 # -----------------------------------
448 into = ["ATKINS FORMULA","MOSS FORMULA","GIVEN CONSTANT"],
449 defaut = "ATKINS FORMULA",
450 fr = """Choix de la methode de calcul du coefficient d extinction
451 du rayonnement solaire dans l eau $k_e$ en m$^{-1}$. Les choix sont:
453 \item 1 : formule d Atkins (1.7/Secchi) ;
454 \item 2 : formule de Moss si la profondeur de Secchi est inconnue ;
455 \item 3 : constante fournie par l utilisateur.
457 Pour EUTRO+BIOMASS et THERMIC en 3D.""",
458 ang = """Choice of the method of calculation of the extinction of
459 sun ray in water $k_e$ in m$^{-1}$. The choices are :
461 \item 1: Atkins formula (1.7/Secchi),
462 \item 2: Moss formula if Secchi depth is unknown,
463 \item 3: constant provided by the user with the keyword
464 \telkey{LIGHT EXTINCTION COEFFICIENT}.
466 For EUTRO+BIOMASS and THERMIC in 3D.""",
468 # -----------------------------------
469 SECCHI_DEPTH = SIMP(statut ='f',
470 # -----------------------------------
473 fr = """En m. Utilise pour EUTRO+BIOMAS et THERMIC en 3D.""",
474 ang = """In m. Used for EUTRO+BIOMAS, and THERMIC in 3D.""",
476 # -----------------------------------
477 LIGHT_EXTINCTION_COEFFICIENT = SIMP(statut ='f',
478 # -----------------------------------
481 fr = """En m$^{-1}$. Utilise pour EUTRO+BIOMAS et THERMIC en 3D.""",
482 ang = """In m$^{-1}$. Used for EUTRO+BIOMAS, and THERMIC in 3D.""",
484 # -----------------------------------
485 EUTROPHICATION = FACT(statut='o',
486 # -----------------------------------
487 # -----------------------------------
488 WATER_TEMPERATURE = SIMP(statut ='f',
489 # -----------------------------------
492 fr = """En $^{\circ}$C, temperature moyenne de l eau
493 necessaire pour calculer les valeurs de $C_s$.""",
494 ang = """In $^{\circ}$C, mean temperature necessary for
495 computing different values of $C_s$.""",
497 # -----------------------------------
498 O2 = FACT(statut='o',
499 # -----------------------------------
500 # -----------------------------------
501 VEGETAL_RESPIRATION_R = SIMP(statut ='f',
502 # -----------------------------------
505 fr = """En mgO$_2$/j/l. Variable $R$ dans la documentation.
506 Pour O2 seulement.""",
507 ang = """In mgO$_2$/d/l. Variable $R$ in the documentation.
510 # -----------------------------------
511 CONSTANT_OF_DEGRADATION_OF_ORGANIC_LOAD_K1 = SIMP(statut ='f',
512 # -----------------------------------
515 fr = """En j$^{-1}$. Pour O2 seulement.""",
516 ang = """In d$^{-1}$. For O2 only.""",
518 # -----------------------------------
519 CONSTANT_OF_NITRIFICATION_KINETIC_K4 = SIMP(statut ='f',
520 # -----------------------------------
523 fr = """En j$^{-1}$. Pour O2 seulement.""",
524 ang = """In d$^{-1}$. For O2 only.""",
527 # -----------------------------------
528 EUTRO_AND_O2 = FACT(statut='o',
529 # -----------------------------------
530 # -----------------------------------
531 BENTHIC_DEMAND = SIMP(statut ='f',
532 # -----------------------------------
535 fr = """En gO$_2$/m$^2$/j. Variable $BEN$ dans la documentation.
537 ang = """In gO$_2$/m$^2$/d. Variable $BEN$ in the documentation.
540 # -----------------------------------
541 PHOTOSYNTHESIS_P = SIMP(statut ='f',
542 # -----------------------------------
545 fr = """En mgO$_2$/j/l. Variable $P$ dans la documentation.
546 Son ordre de grandeur est compris entre 0.3 et 9~mgO$_2$/j/l
547 selon la nature du cours d eau.
549 ang = """In mgO$_2$/d/l. Variable $P$ in the documentation.
550 Between 0.3 and 9~mgO$_2$/d/l depending on the type of river.
553 # -----------------------------------
554 O2_SATURATION_DENSITY_OF_WATER__CS_ = SIMP(statut ='f',
555 # -----------------------------------
558 fr = """En mgO$_2$/l. Variable $C_s$ = 9~mgO$_2$/l at 20$^{\circ}$C.
560 ang = """In mgO$_2$/l. Variable $C_s$ = 9~mgO$_2$/l at 20$^{\circ}$C.
563 # -----------------------------------
564 FORMULA_FOR_COMPUTING_K2 = SIMP(statut ='f',
565 # -----------------------------------
568 fr = """Donne le choix de calcul de la formule de $k_2$ de la
569 reaeration naturelle, les options sont les suivantes :
571 \item 0 : $k_2$ constant, valeur de $k_2$ = 0.9 ;
572 \item 1 : formule de Tenessee Valley Authority ;
573 \item 2 : formule de Owens et al. ;
574 \item 3 : formule de Churchill et al. ;
575 \item 4 : formule de O Connor \& Dobbins ;
576 \item 5 : formule combinant les formules 2, 3 et 4.
579 ang = """Gives how to compute the reaeration coefficient $k_2$
582 \item 0: $k_2$ constant, in this case $k_2$ = 0.9,
583 \item 1: formula of The Tenessee Valley Authority,
584 \item 2: formula of Owens et al.,
585 \item 3: formula of Churchill et al.,
586 \item 4: formula of O Connor \& Dobbins,
587 \item 5: formula combining the formulae 2, 3 et 4.
591 # -----------------------------------
592 K2_REAERATION_COEFFICIENT = SIMP(statut ='f',
593 # -----------------------------------
596 fr = """Ou coefficient d echange gazeux eau-atmosphere a 20$^{\circ}$C
597 En j$^{-1}$. Valeur comprise entre 0.1 et > 1.15~j$^{-1}$.
598 Variable $k_2$ dans la documentation. Pour EUTRO+O2.""",
599 ang = """In d$^{-1}$. Value between 0.1 and > 1.15~d$^{-1}$.
600 Variable $k_2$ in the documentation. For EUTRO+O2.""",
602 # -----------------------------------
603 FORMULA_FOR_COMPUTING_CS = SIMP(statut ='f',
604 # -----------------------------------
607 fr = """En j$^{-1}$, les options sont les suivantes :
609 \item 0 : constante ;
610 \item 1 : formule de Elmore \& Hayes ;
611 \item 2 : formule de Montgomery.
614 ang = """In d$^{-1}$, here are the available options:
617 \item 1: Elmore \& Hayes formula,
618 \item 2: Montgomery formula.
623 # -----------------------------------
624 EUTRO_AND_BIOMASS = FACT(statut='o',
625 # -----------------------------------
626 # -----------------------------------
627 MAXIMUM_ALGAL_GROWTH_RATE_AT_20C = SIMP(statut ='f',
628 # -----------------------------------
631 fr = """Taux de croissance algale maximale a 20$^{\circ}$C.
632 Pour EUTRO+BIOMASS.""",
633 ang = """Maximum algal growth rate at 20$^{\circ}$C.
634 For EUTRO+BIOMASS.""",
636 # -----------------------------------
637 ALGAL_TOXICITY_COEFFICIENTS = SIMP(statut ='f',
638 # -----------------------------------
639 typ = 'R', min= 2, max= 2,
641 fr = """$\alpha_1$ et $\alpha_2$ dans la documentation.
642 $\alpha_i = 1$ signifie absence de toxicite. Pour EUTRO+BIOMASS.""",
643 ang = """$\alpha_1$ and $\alpha_2$ in the documentation.
644 $\alpha_i = 1$ means no toxicity. For EUTRO+BIOMASS.""",
646 # -----------------------------------
647 VEGETAL_TURBIDITY_COEFFICIENT_WITHOUT_PHYTO = SIMP(statut ='f',
648 # -----------------------------------
651 fr = """En m$^{-1}$. Pour EUTRO+BIOMASS.""",
652 ang = """In m$^{-1}$. For EUTRO+BIOMASS.""",
654 # -----------------------------------
655 PARAMETER_OF_CALIBRATION_OF_SMITH_FORMULA = SIMP(statut ='f',
656 # -----------------------------------
659 fr = """En W/m$^2$. Ordre de grandeur = 100~W/m$^2$.
660 Pour EUTRO+BIOMASS.""",
661 ang = """In W/m$^2$. Around 100~W/m$^2$. For EUTRO+BIOMASS.""",
663 # -----------------------------------
664 SUNSHINE_FLUX_DENSITY_ON_WATER_SURFACE = SIMP(statut ='f',
665 # -----------------------------------
668 fr = """Densite de flux du rayonnement solaire a la surface de l eau
669 en W/m$^2$. Pour EUTRO+BIOMASS.""",
670 ang = """Density of sunshine flux on the water surface
671 in W/m$^2$. For EUTRO+BIOMASS.""",
673 # -----------------------------------
674 CONSTANT_OF_HALF_SATURATION_WITH_PHOSPHATE = SIMP(statut ='f',
675 # -----------------------------------
678 fr = """En mgP/l. Environ 0.005~mgP/l. Pour EUTRO+BIOMASS.""",
679 ang = """In mgP/l. Around 0.005~mgP/l. For EUTRO+BIOMASS.""",
681 # -----------------------------------
682 CONSTANT_OF_HALF_SATURATION_WITH_NITROGEN = SIMP(statut ='f',
683 # -----------------------------------
686 fr = """En mgN/l. Environ 0.03~mgN/l. Pour EUTRO+BIOMASS.""",
687 ang = """In mgN/l. Around 0.03~mgN/l. For EUTRO+BIOMASS.""",
689 # -----------------------------------
690 RESPIRATION_RATE_OF_ALGAL_BIOMASS = SIMP(statut ='f',
691 # -----------------------------------
694 fr = """En j$^{-1}$, a 20$^{\circ}$C. Variable $RP$ dans la
695 documentation. Pour EUTRO+BIOMASS.""",
696 ang = """In d$^{-1}$, at 20$^{\circ}$C. Variable $RP$ in
697 the documentation. For EUTRO+BIOMASS.""",
699 # -----------------------------------
700 COEFFICIENTS_OF_ALGAL_MORTALITY_AT_20C = SIMP(statut ='f',
701 # -----------------------------------
702 typ = 'R', min= 2, max= 2,
703 defaut = [0.1,0.003],
704 fr = """Variables $M_1$ et $M_2$ dans la documentation.
705 Pour EUTRO+BIOMASS.""",
706 ang = """Variables $M_1$ and $M_2$ in the documentation.
707 For EUTRO+BIOMASS.""",
709 # -----------------------------------
710 PROPORTION_OF_PHOSPHORUS_WITHIN_PHYTO_CELLS = SIMP(statut ='f',
711 # -----------------------------------
714 fr = """En mgP/$\mu$gChlA. Variable $fp$ dans la documentation.
715 Pour EUTRO+BIOMASS.""",
716 ang = """In mgP/$\mu$gChlA. Variable $fp$ in the documentation.
717 For EUTRO+BIOMASS.""",
719 # -----------------------------------
720 PERCENTAGE_OF_PHOSPHORUS_ASSIMILABLE_IN_DEAD_PHYTO = SIMP(statut ='f',
721 # -----------------------------------
724 fr = """En $\%$. Pour EUTRO+BIOMASS.""",
725 ang = """In $\%$. For EUTRO+BIOMASS.""",
727 # -----------------------------------
728 RATE_OF_TRANSFORMATION_OF_POR_TO_PO4 = SIMP(statut ='f',
729 # -----------------------------------
732 fr = """Taux de transformation du phosphore degradable non assimilable
733 par le phytoplancton (POR) en phosphore mineral dissous assimilable par
734 le phyto (PO4) par le biais de la mineralisation bacterienne
736 Variables $k_1$ pour BIOMAS et $k_{320}$ pour EUTRO (a 20$^{\circ}$C)
737 dans la documentation. Pour EUTRO+BIOMASS.""",
738 ang = """Rate of transformation of degradable and non assimilable
739 phosphorus (POR) to mineral dissolved assimilable phosphorus (PO4)
740 by means of bacteria mineralization in d$^{-1}$.
741 Variables $k_1$ for BIOMAS and $k_{320}$ for EUTRO (at 20$^{\circ}$C)
742 in the documentation. For EUTRO+BIOMASS.""",
744 # -----------------------------------
745 RATE_OF_TRANSFORMATION_OF_NOR_TO_NO3 = SIMP(statut ='f',
746 # -----------------------------------
749 fr = """Taux de transformation de l azote degradable
750 non assimilable par le phytoplancton (NOR) en azote mineral dissous
751 assimilable par le phytoplancton NO3 par le biais de la
752 mineralisation bacterienne en j$^{-1}$.
753 Variables $k_2$ pour BIOMAS et $k_{620}$ pour EUTRO (a 20$^{\circ}$C)
754 dans la documentation. Pour EUTRO+BIOMASS.""",
755 ang = """Rate of transformation of degradable and non assimilable
756 nitrogen (NOR) to mineral dissolved assimilable nitrogen (NO3)
757 by bacteria mineralization in d$^{-1}$.
758 Variables $k_2$ for BIOMAS and $k_{620}$ for EUTRO (at 20$^{\circ}$C)
759 in the documentation. For EUTRO+BIOMASS.""",
761 # -----------------------------------
762 PROPORTION_OF_NITROGEN_WITHIN_PHYTO_CELLS = SIMP(statut ='f',
763 # -----------------------------------
766 fr = """En mgN/$\mu$gChlA. Variable $fn$ dans la documentation.
767 Pour EUTRO+BIOMASS.""",
768 ang = """In mgN/$\mu$gChlA. Variable $fn$ in the documentation.
769 For EUTRO+BIOMASS.""",
771 # -----------------------------------
772 PERCENTAGE_OF_NITROGEN_ASSIMILABLE_IN_DEAD_PHYTO = SIMP(statut ='f',
773 # -----------------------------------
776 fr = """En $\%$. Variable $dtn$ dans la documentation.
777 Pour EUTRO+BIOMASS.""",
778 ang = """In $\%$. Variable $dtn$ in the documentation.
779 For EUTRO+BIOMASS.""",
781 # -----------------------------------
782 SEDIMENTATION_VELOCITY_OF_ORGANIC_PHOSPHORUS = SIMP(statut ='f',
783 # -----------------------------------
786 fr = """Vitesse de sedimentation du phosphore organique non algal
787 en m/s. Pour EUTRO+BIOMASS.""",
788 ang = """Sedimentation velocity of non algal organic phosphorus
789 in m/s. For EUTRO+BIOMASS.""",
791 # -----------------------------------
792 SEDIMENTATION_VELOCITY_OF_NON_ALGAL_NITROGEN = SIMP(statut ='f',
793 # -----------------------------------
796 fr = """Vitesse de sedimentation de l azote organique non algal
797 en m/s. Pour EUTRO+BIOMASS.""",
798 ang = """Sedimentation velocity of non algal organic nitrogen
799 in m/s. For EUTRO+BIOMASS.""",
802 # -----------------------------------
803 EUTRO = FACT(statut='o',
804 # -----------------------------------
805 # -----------------------------------
806 CONSUMED_OXYGEN_BY_NITRIFICATION = SIMP(statut ='f',
807 # -----------------------------------
810 fr = """En mgO$_2$/mgNH$_4$. Variable $n$ in the documentation.
811 Pour EUTRO seulement.""",
812 ang = """In mgO$_2$/mgNH$_4$. Variable $n$ in the documentation.
815 # -----------------------------------
816 CONSTANT_FOR_THE_NITRIFICATION_KINETIC_K520 = SIMP(statut ='f',
817 # -----------------------------------
820 fr = """Constante de la cinetique de nitrification a 20$^{\circ}$C.
821 En j$^{-1}$. Pour EUTRO seulement.""",
822 ang = """Constant for the nitrification kinetic at 20$^{\circ}$C.
823 In d$^{-1}$. For EUTRO only.""",
825 # -----------------------------------
826 CONSTANT_OF_DEGRADATION_OF_ORGANIC_LOAD_K120 = SIMP(statut ='f',
827 # -----------------------------------
830 fr = """Constante de cinetique de degradation de la charge organique
831 a 20$^{\circ}$C. En j$^{-1}$. Pour EUTRO seulement.""",
832 ang = """Constant of degradation kinetic of organic load
833 at 20$^{\circ}$C. In d$^{-1}$. For EUTRO only.""",
835 # -----------------------------------
836 SEDIMENTATION_VELOCITY_OF_ORGANIC_LOAD = SIMP(statut ='f',
837 # -----------------------------------
840 fr = """En m/s. Pour EUTRO seulement.""",
841 ang = """In m/s. For EUTRO only.""",
843 # -----------------------------------
844 OXYGEN_PRODUCED_BY_PHOTOSYNTHESIS = SIMP(statut ='f',
845 # -----------------------------------
848 fr = """En mgO$_2$/$\mu$gChlA. Variable $f$ dans la documentation.
849 Pour EUTRO seulement.""",
850 ang = """In mgO$_2$/$\mu$gChlA. Variable $f$ in the documentation.
854 # -----------------------------------
855 SOURCES = FACT(statut='o',
856 # -----------------------------------
857 # -----------------------------------
858 FORMULA_FOR_COMPUTING_RS = SIMP(statut ='f',
859 # -----------------------------------
862 fr = """Donne le choix de calcul de la formule de RS de la
863 reaeration naturelle au niveau des seuils,
864 les options sont les suivantes :
866 \item 0 : RS constant, valeur de RS = 1.0 ;
867 \item 1 : formule de Gameson 1 ;
868 \item 2 : formule de Gameson 2 ;
869 \item 3 : formule de WRL1 ;
870 \item 4 : formule de WRL2.
872 Lu mais pas utilise pour le moment.""",
873 ang = """Gives how to cumpute the weir reaeration coefficient RS
876 \item 0: RS constant, in this case RS = 1.0,
877 \item 1: formula of Gameson 1,
878 \item 2: formula of Gameson 2,
879 \item 3: formula of WRL1,
880 \item 4: formula of WRL2.
882 Read but not used at the moment.""",
884 # -----------------------------------
885 WEIR_REAERATION_COEFFICIENT_RS = SIMP(statut ='f',
886 # -----------------------------------
889 fr = """En j$^{-1}$. Lu mais pas utilise pour le moment.""",
890 ang = """In d$^{-1}$. Read but not used at the moment.""",
892 # -----------------------------------
893 COEFFICIENTS_A_AND_B_FOR_RS_FORMULA = SIMP(statut ='f',
894 # -----------------------------------
895 typ = 'R', min= 2, max= 2,
897 fr = """Coefficients intervenant dans le calcul de RS :
898 $a$ est entre 0.65 (eau tres polluee) et 1.8 (eau tres claire)
899 et $b$ varie beaucoup (voir tableau dans la documentation).
900 Lu mais pas utilise pour le moment.""",
901 ang = """Coefficients needed for the calculation of RS:
902 $a$ is between 0.65 (very polluted water and 1.8 (very clear water)
903 and $b$ varies a lot (see array in the documentation).
904 Read but not used at the moment.""",
908 # -----------------------------------
909 MICROPOL = FACT(statut='o',
910 # -----------------------------------
911 # -----------------------------------
912 SEDIMENTATION_CRITICAL_STRESS = SIMP(statut ='f',
913 # -----------------------------------
916 fr = """Tension de cisaillement critique de sedimentation
917 en Pa. Pour MICROPOL seulement.""",
918 ang = """Sedimentation critical shear stress
919 in Pa. For MICROPOL only.""",
921 # -----------------------------------
922 SEDIMENT_SETTLING_VELOCITY = SIMP(statut ='f',
923 # -----------------------------------
926 fr = """Vitesse de sedimentation en m/s. Variable $w$ dans la
927 documentation. Pour MICROPOL seulement.""",
928 ang = """Sediment velocity in m/s. Variable $w$ in the documentation.
929 For MICROPOL only.""",
931 # -----------------------------------
932 CRITICAL_STRESS_OF_RESUSPENSION = SIMP(statut ='f',
933 # -----------------------------------
936 fr = """Tension de cisaillement critique de remise en
937 suspension en Pa. Variable $\tau_r$ dans la documentation.
938 Pour MICROPOL seulement.""",
939 ang = """Sedimentation critical shear stress
940 in Pa. Variable $\tau_r$ in the documentation. For MICROPOL only.""",
942 # -----------------------------------
943 EROSION_RATE = SIMP(statut ='f',
944 # -----------------------------------
947 fr = """Taux d erosion caracteristique des MES deposees
948 ou encore appele constante de Partheniades.
949 Variable $e$ dans la documentation.
950 Pour MICROPOL seulement.""",
951 ang = """ Characteristic erosion rate of deposited SPM
952 or also called Partheniades s constant.
953 Variable $e$ in the documentation.
954 For MICROPOL only.""",
956 # -----------------------------------
957 CONSTANT_OF_DESORPTION_KINETIC = SIMP(statut ='f',
958 # -----------------------------------
961 fr = """En s$^{-1}$. Variable $k_{-1}$ dans la documentation.
962 Pour MICROPOL seulement.""",
963 ang = """In s$^{-1}$. Variable $k_{-1}$ in the documentation.
964 For MICROPOL only.""",
966 # -----------------------------------
967 COEFFICIENT_OF_DISTRIBUTION = SIMP(statut ='f',
968 # -----------------------------------
971 fr = """En m$^3$/kg ou l/g. Variable $K_d$ dans la documentation.
972 Pour MICROPOL seulement.""",
973 ang = """In m$^3$/kg or l/g. Variable $K_d$ in the documentation.
974 For MICROPOL only.""",
976 # -----------------------------------
977 EXPONENTIAL_DESINTEGRATION_CONSTANT = SIMP(statut ='f',
978 # -----------------------------------
981 fr = """En s$^{-1}$, loi de decroissance exponentielle comme celle de
982 la radioactivite. Variable $L$ dans la documentation.
983 Pour MICROPOL seulement.""",
984 ang = """In s$^{-1}$, exponential decrease law like the one of
985 radioactivity. Variable $L$ in the documentation. For MICROPOL only.""",
988 # -----------------------------------
989 THERMIC = FACT(statut='o',
990 # -----------------------------------
991 # -----------------------------------
992 WATER_SPECIFIC_HEAT = SIMP(statut ='f',
993 # -----------------------------------
996 fr = """En J/kg/$^{\circ}$C. Pour THERMIC seulement.""",
997 ang = """In J/kg/$^{\circ}$C. For THERMIC only.""",
999 # -----------------------------------
1000 COEFFICIENTS_FOR_CALIBRATING_ATMOSPHERIC_RADIATION = SIMP(statut ='f',
1001 # -----------------------------------
1004 fr = """Variable $e_{\rm{air}}$ dans la documentation.
1005 Pour THERMIC seulement.""",
1006 ang = """Variable $e_{\rm{air}}$ in the documentation.
1007 For THERMIC only.""",
1009 # -----------------------------------
1010 COEFFICIENT_OF_CLOUDING_RATE = SIMP(statut ='f',
1011 # -----------------------------------
1014 fr = """Coefficient qui depend du type de nuages :
1016 \item Cirrus = 0.04 ;
1017 \item Cirro stratus = 0.08 ;
1018 \item Alto cumulus = 0.17 ;
1019 \item Alto stratus = 0.2 ;
1020 \item Stratus = 0.24
1022 Alto Cumulus (valeur moyenne) est utilise habituellement
1023 (T.V.A. 1972), valeur par defaut en 3D.
1024 En 3D, uniquement utilise avec la formule de Swinbank (1963)
1025 pour le calcul du rayonnement atmospherique.
1026 Variable $k$ dans la documentation. Pour THERMIC seulement.
1027 Ancienne valeur par defaut = 0.2 jusqu a la version V8P1.""",
1028 ang = """Coefficient depending on the type of clouds:
1030 \item Cirrus = 0.04,
1031 \item Cirro stratus = 0.08,
1032 \item Alto cumulus = 0.17,
1033 \item Alto stratus = 0.2,
1034 \item Stratus = 0.24.
1036 Alto Cumulus (mean value) is usually used (T.V.A. 1972),
1037 default value in 3D.
1038 In 3D, only used with Swinbank formula (1963)
1039 for the computation of the atmospheric radiation.
1040 Variable $k$ in the documentation.
1042 Old default value = 0.2 until release V8P1.""",
1044 # -----------------------------------
1045 COEFFICIENTS_FOR_CALIBRATING_SURFACE_WATER_RADIATION = SIMP(statut ='f',
1046 # -----------------------------------
1049 fr = """Il depend du site et des obstacles entourant le plan d eau.
1050 Pour une riviere etroite bordee d arbres, ca serait voisin de 0.97
1051 et pour un terrain largement decouvert, ca serait voisin de 0.92.
1052 Variable $e_{\rm{eau}}$ dans la documentation.
1053 Pour THERMIC seulement.""",
1054 ang = """It depends on the location and the obstacles around the
1055 water. For a narrow river bordered with trees, it would be around
1056 0.97 and for a widely oopen field, it would be around 0.92.
1057 Variable $e_{\rm{eau}}$ in the documentation.
1058 For THERMIC only.""",
1060 # -----------------------------------
1061 AIR_SPECIFIC_HEAT = SIMP(statut ='f',
1062 # -----------------------------------
1065 fr = """En J/kg/$^{\circ}$C. Pour THERMIC seulement.""",
1066 ang = """In J/kg/$^{\circ}$C. For THERMIC only.""",
1068 # -----------------------------------
1069 COEFFICIENTS_OF_AERATION_FORMULA = SIMP(statut ='f',
1070 # -----------------------------------
1071 typ = 'R', min= 2, max= 2,
1072 defaut = [0.002,0.0012],
1073 fr = """Couple de coefficients de calage pour la fonction de vent
1074 dans les modeles d echanges eau-atmosphere.
1075 Leurs valeurs tres proches valent environ 0.0025.""",
1076 ang = """Couple of calibration coefficients for the wind function
1077 of the atmosphere-water exchange models.
1078 Their close values are around 0.0025.""",
1080 # -----------------------------------
1081 ATMOSPHERE_WATER_EXCHANGE_MODEL = SIMP(statut ='f',
1082 # -----------------------------------
1084 into = ["NO MODEL","LINEARISED FORMULA AT THE FREE SURFACE","MODEL WITH COMPLETE BALANCE"],
1085 defaut = ["NO MODEL"],
1086 fr = """Choix du modele d echanges entre l eau et l atmosphere.
1088 \item 0 : pas de mode d echanges eau-atmosphere (defaut) ;
1089 \item formule linearisee a la surface (3D seulement) ;
1090 \item modele a bilan complet.
1092 En 2D, si autre processus que THERMIC, laisser obligatoirement
1094 ang = """Choice of the atmosphere-water exchange model.
1096 \item 0: no model (default),
1097 \item 1: linearised formula at the free surface,
1098 \item 2: model with complete balance.
1100 In 2D, if another processus than THERMIC, mandatory to let to 0.""",
1102 # -----------------------------------
1103 COEFFICIENT_TO_CALIBRATE_THE_ATMOSPHERE_WATER_EXCHANGE_MODEL = SIMP(statut ='f',
1104 # -----------------------------------
1107 fr = """Valeur du coefficient de calage pour la fonction de vent
1108 dans les modeles d echanges eau-atmosphere
1109 (formule linearisee a la surface ou bilan complet).
1110 Une valeur comprise entre 0.0017 et 0.0035 est conseillee.
1111 Seulement pour le THERMIC 3D.""",
1112 ang = """Value of the calibration coefficient for the wind function
1113 of the atmosphere-water exchange models
1114 (linearised formula at the free surface or complete balance).
1115 A value between 0.0017 and 0.0035 is advised.
1116 Only for THERMIC 3D.""",
1118 # -----------------------------------
1119 FORMULA_OF_ATMOSPHERIC_RADIATION = SIMP(statut ='f',
1120 # -----------------------------------
1122 into = ["IDSO AND JACKSON (1969)","SWINBANK (1963)","BRUTSAERT (1975)","YAJIMA TONO DAM (2014)"],
1123 defaut = "SWINBANK (1963)",
1124 fr = """Formule au choix pour le calcul du rayonnement atmospherique.
1127 \item 1 : Idso et Jackson (1969) ;
1128 \item 2 : Swibank (1963), defaut ;
1129 \item 3 : Brutsaert (1975) ;
1130 \item 4 : Yajima Tono Dam (2014).
1132 Seulement pour le THERMIC 3D.""",
1133 ang = """Formula to be chosen to compute the atmospheric radiation.
1136 \item 1: Idso and Jackson (1969),
1137 \item 2: Swibank (1963), default,
1138 \item 3: Brutsaert (1975),
1139 \item 4: Yajima Tono Dam (2014).
1141 Only for THERMIC 3D.""",
1143 # -----------------------------------
1144 LIGHTNESS_OF_THE_SKY = SIMP(statut ='f',
1145 # -----------------------------------
1147 into = ["VERY BRIGHT, PURE SKY","MODERATELY BRIGHT SKY","FOGGY LIKE THE SKY OF INDUSTRIAL AREA "],
1148 defaut = "MODERATELY BRIGHT SKY",
1149 fr = """Degre de clarte (purete) du ciel.
1150 Les choix possibles sont :
1152 \item ciel tres clair, tres pur ;
1153 \item ciel moyennement clair ;
1154 \item ciel d une zone industrielle, opaque.
1156 Pour THERMIC en 3D seulement.""",
1157 ang = """How the sky is bright (pure).
1158 Possible choices are:
1160 \item very bright, pure sky,
1161 \item moderately bright sky,
1162 \item foggy like the sky of industrial area.
1164 For THERMIC in 3D only.""",
1166 # -----------------------------------
1167 SOLAR_RADIATION_READ_IN_METEO_FILE = SIMP(statut ='f',
1168 # -----------------------------------
1171 fr = """Si la donnee meteo de rayonnement solaire est disponible,
1172 elle peut etre lue dans le
1173 \telkey{FICHIER ASCII DE DONNEES ATMOSPHERIQUES} de \telemac{2d} ou
1174 \telemac{3d} au lieu d etre calculee par le module d echanges
1175 eau-atmosphere en activant ce mot cle a OUI.
1176 Pour THERMIC en 3D seulement. This is mandatory in 2D.""",
1177 ang = """If solar radiation data is available, it can be read in the
1178 \telkey{ASCII ATMOSPHERIC DATA FILE} of \telemac{2d} or \telemac{3d}
1179 instead of been computed by the heat exchange with atmosphere module
1180 by activating this keyword to YES.
1181 For THERMIC in 3D only. This is mandatory in 2D.""",
1184 # -----------------------------------
1185 DEGRADATION = FACT(statut='o',
1186 # -----------------------------------
1187 # -----------------------------------
1188 LAW_OF_TRACERS_DEGRADATION = SIMP(statut ='o',
1189 # -----------------------------------
1190 typ = 'TXM', min=0, max='**',
1191 into = ["NO DEGRADATION","F(T90) LAW","FIRST ORDER KINETIC LAW, CONSTANT OF DEGRADATION IN HOURS","FIRST ORDER KINETIC LAW, CONSTANT OF DEGRADATION IN DAYS","LAW IMPLEMENTED BY USER"],
1192 defaut = ["NO DEGRADATION","NO DEGRADATION"],
1193 fr = """Prise en compte d''une loi de decroissance des traceurs. Valeur 0 si
1194 pas de prise en compte, 1 si loi 1... Pour chaque valeur entree, un
1195 nom de traceur correspondant doit etre present dans
1196 \telkey{NOMS DES TRACEURS}, auquel sera appliquee la loi.
1197 Les choix possibles sont :
1199 \item 0 : pas de degradation ;
1200 \item 1 : loi de degradation bacteriologique avec coefficient $T_{90}$ ;
1201 \item 2 : loi de degradation d ordre 1, constante de degradation
1203 \item 3 : loi de degradation d ordre 1, constante de degradation
1205 \item 4 : loi programmee par l utilisateur.
1207 ang = """Take in account a law for tracers decrease. Value 0 if not taken into
1208 account, 1 if law 1... For each value entered, a corresponding name
1209 should be present in the keyword \telkey{NAMES OF TRACERS}, so that the
1210 decrease law is applied to the correct tracer(s).
1211 Possible choices are:
1213 \item 0: no degradation,
1214 \item 1: law for bacterial degradation with $T_{90}$ coefficient,
1215 \item 2: degradation law of first order, constant of tracer kinetic
1216 degradation in h$^{-1}$,
1217 \item 3: degradation law of first order, constant of tracer kinetic
1218 degradation in d$^{-1}$,
1219 \item 4: law implemented by user.
1222 # -----------------------------------
1223 COEFFICIENT_1_FOR_LAW_OF_TRACERS_DEGRADATION = SIMP(statut ='f',
1224 # -----------------------------------
1225 typ = 'R', min=0, max='**',
1226 fr = """Coefficient 1 de la loi de decroissance des traceurs. Voir aussi la
1227 correspondance avec \telkey{NOMS DES TRACEURS} et l''aide du mot cle
1228 \telkey{LOI DE DEGRADATION DES TRACEURS}.""",
1229 ang = """Coefficient 1 of law for tracers decrease. Check also the relation
1230 between the keywords \telkey{NAMES OF TRACERS} and
1231 \telkey{LAW OF TRACERS DEGRADATION}.""",
1235 # -----------------------------------------------------------------------
1236 INTERNAL = PROC(nom= "INTERNAL",op = None,
1237 # -----------------------------------------------------------------------
1238 UIinfo = {"groupes": ("CACHE")},
1239 # -----------------------------------
1240 STEERING_FILE = SIMP(statut ='f',
1241 # -----------------------------------
1242 typ = ('Fichier','All Files (*)'),
1244 fr = """Nom du fichier contenant les parametres du calcul
1246 ang = """Name of the file containing parameters of the WAQ
1247 computation Written by the user.""",
1249 # -----------------------------------
1250 DICTIONARY = SIMP(statut ='f',
1251 # -----------------------------------
1252 typ = ('Fichier','All Files (*)'),
1253 defaut = 'waqtel.dico',
1254 fr = """Dictionnaire des mots cles.""",
1255 ang = """Key word dictionary.""",
1259 COMPUTATION_ENVIRONMENT();\
1260 GENERAL_PARAMETERS();\
1262 PHYSICAL_PARAMETERS();\
1265 Ordre_Des_Commandes = (
1266 'COMPUTATION_ENVIRONMENT',
1267 'GENERAL_PARAMETERS',
1269 'PHYSICAL_PARAMETERS',
1275 except Exception as excpt:
1277 enum = source+'.waqtel_enum_auto'
1278 dicoCasEn = source+'.waqtel_dicoCasEnToCata'
1279 dicoCasFr = source+'.waqtel_dicoCasFrToCata'