path: root/Dragon/data/ErmBeavrsPwrRefl.x2m

*---
*  Nodal Expansion Reflector ERM-NEM equivalence prodedure
*---
PROCEDURE CreaStepList GetMolarMass MetalMix CreaMix CreaDilut
  Geo15x15 Geo17x17 AdaptIso ;
LINKED_LIST
  Library LibDilut CP CALC XS AUTO_LIB MACRO
  MACRO_FUEL_1 MACRO_FUEL_2
  StepList
  MolarMasses FeNat CrNat SnNat NiNat ZrNat TiNat SiNat
  BNat AgNat CdNat SNat GdNat Zirc4 Incon SS304 M5 KNat
  InNat AIC Gd2O3 BP
  ConcMode Edition Multicompo
  GEOM TRACK SYSTEM FLUX OUT OUTF TRKFIL
  Discr DiscrAu nbZones FractionVol
  MlticompTous
  GeomRefl MacrRefl MacrFuel ;
XSM_FILE TousPaliers :: FILE 'Multicompo_Refl_TousPaliers' ;
SEQ_ASCII _FLX_CA1_CB1 :: FILE '_FLX_CA1_CB1.txt' ;
SEQ_ASCII _FLX_CA1_CB2 :: FILE '_FLX_CA1_CB2.txt' ;
SEQ_ASCII _FLX_CA2_CB1 :: FILE '_FLX_CA2_CB1.txt' ;
SEQ_ASCII _FLX_CA2_CB2 :: FILE '_FLX_CA2_CB2.txt' ;
SEQ_ASCII _VAL_CA1_CB1 :: FILE '_VAL_CA1_CB1.txt' ;
SEQ_ASCII _VAL_CA1_CB2 :: FILE '_VAL_CA1_CB2.txt' ;
SEQ_ASCII _VAL_CA2_CB1 :: FILE '_VAL_CA2_CB1.txt' ;
SEQ_ASCII _VAL_CA2_CB2 :: FILE '_VAL_CA2_CB2.txt' ;
MODULE
  LIB: GEO: SYBILT: ASM: FLU: EDI: COMPO: DELETE:
  USS: UTL: END: ABORT: MAC: SNT: GREP: MSTR: BREF: ;
LINKED_LIST ListeIsot ListeAutop ;
REAL REFVALUE DELTA ;

*---- geometric buckling      --------------------------
REAL Core_height := 365.0  ; (*core height in cm*)
REAL Core_thick := 365.0  ; (*core diameter in cm*)
REAL buckz := $Pi_R Core_height / 2.0 ** $Pi_R Core_thick / 2.0 ** + ;
ECHO "Buckling=" buckz ;

*---- General informations    --------------------------
STRING  NuclData := "D172JEF22" ;
STRING  LibType := "JEF22" ;
STRING  LibGenre ;
INTEGER LibId nbmix ;
STRING  AssType  := "UOX"  ; ! 3 Char: UOX, MOX, ou UGd
STRING  Gestion  := "BEAV" ; ! TIH ou BEAV
STRING  InfoGado := "0Gd" ; ! Info sur le Gado
STRING  ConfigPyrex := "None" ; ! None, Py8 ou Py12
INTEGER Teneur_I := 310    ; ! X.YY % -> XYY [ex. 3.70 % -> 370]
* Core boundary is mainly occupied by UOX assemblies, with
* a 3.10% enrichement. Therefore, this is the one used in
* the reflector calculation.
STRING LEAKEQUATION LEAKIMPOSED CTRA ;
EVALUATE LEAKEQUATION LEAKIMPOSED CTRA := "B1"   "SIGS" "APOL" ;
!EVALUATE LEAKEQUATION LEAKIMPOSED CTRA := "P0TR" "NLKH" "OLDW" ;
STRING Grid := "Note" ;
REAL TempMod := 559.2 ; ! K
REAL PowMWT ;
INTEGER ThermaExpans := 0 ;
INTEGER iPalierMax := 1 ;
ECHO "LibType=" LibType ;

*--- Depletion Conditions
REAL    dmod tmod cbor tcom barr ;
INTEGER BarType ;

*-------------------------------------------------------
* Procedures: - Create every burnup & parameters lists (CreaStepList)
*             - Retrieve molar masses (GetMolarMasses)
*             - Create Metal Mixes (MetalMix)
*             - Using all of the above, create a Library with LIB: (CreaMix)
*             - Generate tracking objects (Geo15x15 or Geo17x17)
*---- 1) Burnup & parameter lists ----------------------
StepList := CreaStepList ::
  <<Gestion>> <<AssType>> <<ConfigPyrex>> 0 'DUMMY' ;
GREP: StepList :: GETVAL 'DeplParam' 1 5
  >>dmod<< >>cbor<< >>barr<< >>tcom<< >>tmod<< ;

*---- 2) Molar Masses ----------------------------------
MolarMasses := GetMolarMass :: <<NuclData>> <<LibType>> ;

*---- 3) Metal Mixes -----------------------------------
FeNat CrNat SnNat NiNat BNat
ZrNat TiNat SiNat KNat
AgNat CdNat SNat InNat
Zirc4 Incon SS304 M5 AIC GdNat Gd2O3 BP := MetalMix
MolarMasses ::
<<LibType>> <<Gestion>> ;

*---- 4) Library with all mixes ------------------------
Library ConcMode := CreaMix
FeNat CrNat SnNat NiNat BNat
ZrNat TiNat SiNat KNat
AgNat CdNat SNat InNat
Zirc4 Incon SS304 M5 AIC GdNat Gd2O3 BP MolarMasses ::
<<NuclData>> <<LibType>> <<Gestion>> <<AssType>>
<<Teneur_I>> <<ThermaExpans>> <<CTRA>> <<Grid>> >>PowMWT<< ;
ECHO "#PowMWT" PowMWT ;

*---- 5) Geometry & Tracking ---------------------------
EVALUATE BarType := barr R_TO_I ;
IF Gestion "TIH" = THEN
Discr DiscrAu := Geo15x15 ::
  <<Gestion>> <<AssType>> <<ConfigPyrex>> <<ThermaExpans>>
  <<BarType>> <<tcom>> <<tmod>> ;
ELSE
Discr DiscrAu := Geo17x17 ::
  <<Gestion>> <<AssType>> <<ConfigPyrex>> <<ThermaExpans>>
  <<BarType>> <<tcom>> <<tmod>> ;
ENDIF ;

*----
*  Self-Shielding calculation SYBIL
*  Transport calculation      SYBIL
*  Flux calculation for B1 homogeneous leakage
*----
!AUTO_LIB := USS: Library DiscrAu :: EDIT 0 GRMIN 45 ;
!CP := ASM: AUTO_LIB Discr :: EDIT 0 ARM ;
!CALC := FLU: CP AUTO_LIB Discr :: TYPE B B1 SIGS ;
!END: ;
!QUIT "LIST" .
*--------------------------------------------------------------------
* Loop over the 2 cases, in order to have two different spectrum ratios
*--------------------------------------------------------------------
ListeIsot ListeAutop := AdaptIso :: <<NuclData>> <<LibType>>
                         >>LibId<< >>LibGenre<< ;

STRING NomH2O ;
STRING NomH1 ;
STRING NomO16 ;
STRING NomB10 NomB11 ;
STRING NomFe54 ;

GREP: ListeIsot :: GETVAL 'H2O  ' <<LibId>> NVAL 8 >>NomH2O<<   ;
GREP: ListeIsot :: GETVAL 'H1   ' <<LibId>> NVAL 8 >>NomH1<<    ;
GREP: ListeIsot :: GETVAL 'O16  ' <<LibId>> NVAL 8 >>NomO16<<   ;
GREP: ListeIsot :: GETVAL 'B10  ' <<LibId>> NVAL 8 >>NomB10<<   ;
GREP: ListeIsot :: GETVAL 'B11  ' <<LibId>> NVAL 8 >>NomB11<<   ;
GREP: ListeIsot :: GETVAL 'Fe54 ' <<LibId>> NVAL 8 >>NomFe54<<  ;

REAL H1 O16 B10 B11 ;
INTEGER CASE := 1 ;
WHILE CASE 2 <= DO

  IF CASE 1 = THEN ! Cas A
    EVALUATE B10 := 3.04836E-06 ;
    EVALUATE B11 := 1.22700E-05 ;
    EVALUATE H1  := 3.67705E-02 ;
    EVALUATE O16 := 1.83852E-02 ;
  ELSEIF CASE 2 = THEN ! Cas B
    EVALUATE B10 := 0.00000E+00 ;
    EVALUATE B11 := 0.00000E+00 ;
    EVALUATE H1  := 4.67988E-02 ;
    EVALUATE O16 := 2.33994E-02 ;
  ENDIF ;

Library := LIB: Library ::
* Borated water
  MIXS LIB: <<LibGenre>> FIL: <<NuclData>>

  MIX 10 <<TempMod>>
    H1_H2O    = <<NomH1>>  <<H1>>  NOEV
    O16       = <<NomO16>> <<O16>> NOEV
    B10       = <<NomB10>> <<B10>> NOEV
    B11       = <<NomB11>> <<B11>> NOEV
  MIX 11 <<TempMod>>
    H1_H2O    = <<NomH1>>  <<H1>>  NOEV
    O16       = <<NomO16>> <<O16>> NOEV
    B10       = <<NomB10>> <<B10>> NOEV
    B11       = <<NomB11>> <<B11>> NOEV
  MIX 12 <<TempMod>>
    H1_H2O    = <<NomH1>>  <<H1>>  NOEV
    O16       = <<NomO16>> <<O16>> NOEV
    B10       = <<NomB10>> <<B10>> NOEV
    B11       = <<NomB11>> <<B11>> NOEV
  MIX 13 <<TempMod>>
    H1_H2O    = <<NomH1>>  <<H1>>  NOEV
    O16       = <<NomO16>> <<O16>> NOEV
    B10       = <<NomB10>> <<B10>> NOEV
    B11       = <<NomB11>> <<B11>> NOEV
  MIX 14 <<TempMod>>
    H1_H2O    = <<NomH1>>  <<H1>>  NOEV
    O16       = <<NomO16>> <<O16>> NOEV
    B10       = <<NomB10>> <<B10>> NOEV
    B11       = <<NomB11>> <<B11>> NOEV
;

  AUTO_LIB := USS: Library DiscrAu ::
    EDIT 0 GRMIN 45 MAXST 200 ;
  CP := ASM: AUTO_LIB Discr :: EDIT 0 ARM ;
  ECHO "debug" ;
  UTL: AUTO_LIB :: DIR IMPR STATE-VECTOR 14 ;
  CALC := FLU: CP AUTO_LIB Discr ::
    TYPE B B1 SIGS ;
  XS := EDI: AUTO_LIB Discr CALC ::
    EDIT 0 SAVE MERGE COMP ;
* Fuel cross sections are recovered in Mix 1
  IF CASE 1 = THEN
    MACRO_FUEL_1 := XS :: STEP UP 'REF-CASE0001' STEP UP MACROLIB ;
  ELSEIF CASE 2 = THEN
    MACRO_FUEL_2 := XS :: STEP UP 'REF-CASE0001' STEP UP MACROLIB ;
  ENDIF ;
  AUTO_LIB CP CALC XS := DELETE: AUTO_LIB CP CALC XS ;
EVALUATE CASE := CASE 1 + ;
ENDWHILE ; ! Loop over CASE

Library Discr := DELETE: Library Discr ;

*--------------------------------------------------------------------
*----------------- Equivalent reflector calculation -----------------
*--------------------------------------------------------------------

MlticompTous := COMPO: ::
  EDIT 1
  STEP UP 'Radial'
    COMM 'Radial reflector XS' ENDC
    PARA 'C-BORE'      VALU REAL
    PARA 'Method'      VALU CHAR
    PARA 'Palier'      VALU CHAR
    INIT
  STEP UP 'Bas'
    COMM 'Lower reflector XS' ENDC
    PARA 'C-BORE'      VALU REAL
    PARA 'Method'      VALU CHAR
    INIT
  STEP UP 'Haut'
    COMM 'Higher reflector XS' ENDC
    PARA 'C-BORE'      VALU REAL
    PARA 'Method'      VALU CHAR
    INIT
  ;

REAL PHe := 20. ;        ! He pressure in fuel clad (bar)

INTEGER iLocalistion ;

! Donnees a fournir a CreaDilut, fonction de dilution, pour chaque zone
REAL dMod TMil fvMod fvZr4 fvInc fvSS304 fvHe ;
INTEGER iZone premierMIX ;
STRING Localisation := 'Radial' ;

FractionVol := MSTR: :: CD 'Radial' ;
FractionVol := MSTR: FractionVol :: CD 'Bas' ;
FractionVol := MSTR: FractionVol :: CD 'Haut' ;

*--------------------------------------------------------------------
* 1D radial core-reflector interface geometry and meshing
*--------------------------------------------------------------------
REAL FluxGap := 0.005 ; ! Flux gap
REAL dClois dEnvel dEnvelEcran dEcran := 2.2225 5.715 0.5 5.715 ;
REAL RefZnR := 3.5 ;
REAL dCloisEnvel := 1.76 ; ! cm
REAL FinClois := dClois ;
REAL DebutEnvel := FinClois dCloisEnvel + ;
REAL FinEnvel := DebutEnvel dEnvel + ;
REAL DebutEcran := FinEnvel dEnvelEcran + ;
REAL FinEcran := DebutEcran dEcran + ;
REAL DebutCuve := FinEcran 20.0 + ;
ECHO "radial mesh=" -43.0 -21.5 -5.0  0.0 FluxGap FinClois RefZnR
   DebutEnvel FinEnvel DebutEcran FinEcran 21.5 21.505
   DebutCuve ;

*----------------------------------------------------------
*  Reflector geometry
*----------------------------------------------------------
INTEGER MeshClsEnvel := dCloisEnvel 0.4 / R_TO_I ;
ECHO "MeshClsEnvel (troncature)=" MeshClsEnvel ;

GEOM := GEO: :: CAR1D 13
   X- ALBE 1.0 X+ VOID
   MESHX -43.0 -21.5 -5.0 0.0 <<FluxGap>> <<FinClois>> <<RefZnR>>
   <<DebutEnvel>> <<FinEnvel>> <<DebutEcran>> <<FinEcran>> 21.5 21.505
   <<DebutCuve>>
   MIX     1  1  1   2           3            4          4
           ! fuel  gap          ss       ss+h2o     ss+h2o
                 3            5               6          5
           !    ss          h2o       ss shield        h2o
                 7            8
           !   gap          h2o
   SPLITX  20 15 20  1           25    20 <<MeshClsEnvel>>
                10           5              6            5
                 1           5
;
TRACK := SNT: GEOM ::
  EDIT 1
  MAXR 100000
  SN 16 SCAT 2 QUAD 2 ;

INTEGER nbZones := 7 ;
nbZones := UTL: :: CREA 'Radial' 1 = <<nbZones>> ;

REAL fvacier := 0.05 ;
REAL fveau := 1.0 fvacier - ;
FractionVol := UTL: FractionVol :: STEP UP 'Radial'
                  ! MIX  2  3  4           5  6  7  8
CREA 'Eau' <<nbZones>> = 0. 0. <<fveau>>   1. 0. 1. 1.
CREA 'Zr4' <<nbZones>> = 0. 0. 0.          0. 0. 0. 0.
CREA 'Inc' <<nbZones>> = 0. 0. 0.          0. 0. 0. 0.
CREA 'SS ' <<nbZones>> = 1. 1. <<fvacier>> 0. 1. 0. 0.
CREA 'He ' <<nbZones>> = 0. 0. 0.          0. 0. 0. 0. ;

REAL dModBas := 0.753 ; ! Coolant density at input core
REAL TMilBas := 286.4 ; ! Lower reflector temperature (Tmod)
EVALUATE TMilBas := TMilBas 273.15 + ; ! Conversion to Kelvin

! Reflector equivalence variables
STRING Palier ;
REAL Keff ;
REAL CB ; ! ppm
INTEGER IndexCB iPalier ;
LINKED_LIST OUT_1 OUT_2 OVAL ;
LINKED_LIST TRACK_REF FLUX_REF ;
MODULE NSST: NSSF: VAL: ;

*--------------------------------------------------------------------
* Loop on Boron CB in reflector
*--------------------------------------------------------------------
ECHO "Loop on Boron density in reflector" ;
EVALUATE IndexCB := 1 ;
WHILE IndexCB 2 <= DO
  IF IndexCB 1 = THEN
    EVALUATE CB := 0.0 ; ! ppm
  ELSEIF IndexCB 2 = THEN
    EVALUATE CB := 20000.0 ; ! ppm
  ELSE
    ECHO "ERROR, INDEXCB NOT RECOGNIZED" ;
    ABORT: ;
  ENDIF ;

  ! Donnees dependants du palier
  EVALUATE iPalier := 1 ;
  ECHO "Loop on reflector localization" ;
  WHILE iPalier iPalierMax <= DO
    IF iPalier 1 = THEN
      EVALUATE Palier := 'FA3' ;
    ENDIF ;
    ECHO "Palier =" Palier ;

    UTL: FractionVol :: DUMP ;
    EVALUATE dMod := dModBas ;
    EVALUATE TMil := TMilBas ;
 
    *------------------------------------------------------------
    *  Loop over 2 cases (to get 2 different spectrum ratios)
    *------------------------------------------------------------
    EVALUATE CASE := 1 ;
    WHILE CASE 2 <= DO

      IF CASE 1 = THEN
        MACRO := MACRO_FUEL_1 ;
      ELSEIF CASE 2 = THEN
        MACRO := MACRO_FUEL_2 ;
      ENDIF ;

      GREP: nbZones :: GETVAL <<Localisation>> 1 >>nbZones<< ;
      EVALUATE iZone := 1 ;
      WHILE iZone nbZones <= DO
        ! On recupere la composition des zones
        GREP: FractionVol :: STEP UP <<Localisation>>
                             GETVAL 'Eau' <<iZone>> >>fvMod<<
                             GETVAL 'Zr4' <<iZone>> >>fvZr4<<
                             GETVAL 'Inc' <<iZone>> >>fvInc<<
                             GETVAL 'SS ' <<iZone>> >>fvSS304<<
                             GETVAL 'He ' <<iZone>> >>fvHe<<    ;
        ! On affiche la composition des zones
        ECHO "[Refl" Localisation
             "] Composition de la zone : " iZone ;
        ECHO "- eau   : " fvMod ' ;' ;
        ECHO "- Zr4   : " fvZr4 ' ;' ;
        ECHO "- Inc   : " fvInc ' ;' ;
        ECHO "- SS304 : " fvSS304 ' ;' ;
        ECHO "- He    : " fvHe '.' ;
        ! Define MIX 1+iZone in reflector macrolib
        LibDilut ConcMode MolarMasses
        BNat Zirc4 Incon SS304 := CreaDilut ::
        <<dMod>> <<TMil>> <<CB>> <<fvMod>> <<fvZr4>> <<fvInc>>
        <<fvSS304>> <<NuclData>> <<LibType>> ;

        ! Les MIX des melanges seront definis a partir de 2
        EVALUATE premierMIX := 1 iZone + ;
        ECHO 'Premier MIX : ' premierMIX ;
        ! Recuperation du MIX constitutif de la zone

        MACRO := MAC: MACRO LibDilut ::
        NMIX <<premierMIX>> MIX <<premierMIX>> 1 OLDL ;

        LibDilut := DELETE: LibDilut ;
        EVALUATE iZone := iZone 1 + ;
      ENDWHILE ;
        
      SYSTEM := ASM: MACRO TRACK :: ARM ;
      GREP: MACRO :: GETVAL 'STATE-VECTOR' 2 2 >>nbmix<< ;
      ECHO "call FLU: with nbmix=" nbmix ;
      IF nbmix 8 = THEN
        FLUX := FLU: SYSTEM MACRO TRACK :: EDIT 1 TYPE K P1
                HETE 1 2 2 2 2 2 2 2 BUCK <<buckz>> EXTE 1.0E-7 ;
      ELSE
        ECHO "ERROR, INVALID NUMBER OF MATERIAL MIXTURES" ;
        ABORT: ;
      ENDIF ;

      GREP: FLUX :: GETVAL 'K-EFFECTIVE' 1 >>Keff<< ;
      ECHO "CASE=" CASE "SN Keff=" Keff ;

      *----------------------------------------------------------
      *  Plot the 1D SN FLUX
      *----------------------------------------------------------

      OUT := EDI: MACRO TRACK FLUX GEOM ::
      EDIT 3 UPS MERGE MIX 1 2 3 3 3 3 4 0
      COND 0.625 SAVE ;
      OUTF := EDI: MACRO TRACK FLUX GEOM ::
      EDIT 3 UPS MERGE NONE
      COND 0.625 SAVE ;

      IF CASE 1 = THEN
        OUT_1 := OUT ;
      ELSEIF CASE 2 = THEN
        OUT_2 := OUT ;
      ENDIF ;

      IF CASE 1 = IndexCB 1 = * THEN
        _FLX_CA1_CB1 := OUTF :: STEP UP 'REF-CASE0001' STEP UP MACROLIB ;
      ELSEIF CASE 1 = IndexCB 2 = * THEN
        _FLX_CA1_CB2 := OUTF :: STEP UP 'REF-CASE0001' STEP UP MACROLIB ;
      ELSEIF CASE 2 = IndexCB 1 = * THEN
        _FLX_CA2_CB1 := OUTF :: STEP UP 'REF-CASE0001' STEP UP MACROLIB ;
      ELSEIF CASE 2 = IndexCB 2 = * THEN
        _FLX_CA2_CB2 := OUTF :: STEP UP 'REF-CASE0001' STEP UP MACROLIB ;
      ENDIF ;
      SYSTEM FLUX MACRO OUT OUTF := DELETE: SYSTEM FLUX MACRO OUT OUTF ;

      EVALUATE CASE := CASE 1 + ;
    ENDWHILE ; ! Boucle sur les CASE

    !----------------------------------------------------------
    !  Reflector equivalence procedure
    !----------------------------------------------------------
    GeomRefl MacrRefl := BREF: GEOM OUT_1 OUT_2  ::
       EDIT 2 MIX 1 3 GAP 2 4 HYPE 2 MODEL ERM-NEM NGET 1.0 1.0 ;

    !----------------------------------------------------------
    !  Verification calculations
    !----------------------------------------------------------
    TRACK_REF := NSST: GeomRefl :: EDIT 2 HYPE 2 ;
    EVALUATE CASE := 1 ;
    WHILE CASE 2 <= DO

      ECHO "recover flux CASE=" CASE "IndexCB=" IndexCB ;
      IF CASE 1 = THEN
        TRACK_REF := NSST: TRACK_REF GeomRefl :: TITLE "alpha1.txt" ;
        MacrFuel := OUT_1 :: STEP UP 'REF-CASE0001' STEP UP MACROLIB ;
      ELSEIF CASE 2 = THEN
        TRACK_REF := NSST: TRACK_REF GeomRefl :: TITLE "alpha2.txt" ;
        MacrFuel := OUT_2 :: STEP UP 'REF-CASE0001' STEP UP MACROLIB ;
      ENDIF ;
      MACRO := MacrRefl ;
      MACRO := MAC: MACRO MacrFuel ::
        MIX 1 1 OLDL ; ! Recover fuel data for specific CASE
      MacrFuel := DELETE: MacrFuel ;
        
      FLUX_REF := NSSF: TRACK_REF MACRO :: BUCK <<buckz>> ;
      OVAL := VAL: TRACK_REF FLUX_REF MACRO ::
         EDIT 2
         POWR 1.0 DIM 1 0.7
      ;
      ECHO "...CASE=" CASE "IndexCB=" IndexCB ;
      IF CASE 1 = IndexCB 1 = * THEN
         EVALUATE REFVALUE := 1.178192 ;
         _VAL_CA1_CB1 := OVAL ;
      ELSEIF CASE 2 = IndexCB 1 = * THEN
         EVALUATE REFVALUE := 1.288894 ;
         _VAL_CA2_CB1 := OVAL ;
      ELSEIF CASE 1 = IndexCB 2 = * THEN
         EVALUATE REFVALUE := 1.176477 ;
         _VAL_CA1_CB2 := OVAL ;
      ELSEIF CASE 2 = IndexCB 2 = * THEN
         EVALUATE REFVALUE := 1.287686 ;
         _VAL_CA2_CB2 := OVAL ;
      ENDIF ;
      GREP: FLUX_REF :: GETVAL 'K-EFFECTIVE' 1 >>Keff<< ;
      EVALUATE DELTA := Keff REFVALUE - REFVALUE / ABS ;
      IF DELTA 1.0E-3 < THEN
        PRINT "TEST SUCCESSFUL; DELTA=" DELTA ;
      ELSE
        PRINT "------------" ;
        PRINT "TEST FAILURE" ;
        PRINT "------------" ;
        PRINT "REFERENCE=" REFVALUE " CALCULATED=" Keff ;
        ABORT: ;
      ENDIF ;
      FLUX_REF MACRO OVAL := DELETE: FLUX_REF MACRO OVAL ;

      EVALUATE CASE := CASE 1 + ;
    ENDWHILE ; ! Boucle sur les CASE
    TRACK_REF OUT_1 OUT_2 := DELETE: TRACK_REF OUT_1 OUT_2 ;

    !----------------------------------------------------------
    !  Multicompo creation
    !----------------------------------------------------------
    Edition := EDI: MacrRefl :: EDIT 3 ADFM SAVE ;
    GeomRefl MacrRefl := DELETE: GeomRefl MacrRefl ;

    MlticompTous := COMPO: MlticompTous Edition :: EDIT 1
      STEP UP <<Localisation>>
      C-BORE <<CB>>
      Method ERM-NEM
      Palier <<Palier>>
      MACRO ;
    Edition := DELETE: Edition ;

    EVALUATE iPalier := iPalier 1 + ;
  ENDWHILE ; ! Loop over iPalier

  EVALUATE IndexCB := IndexCB 1 + ;
ENDWHILE ; ! Loop over IndexCB

TousPaliers := MlticompTous ;

ECHO "test ErmBeavrsPwrRefl completed" ;
END: ;
QUIT "LIST" .