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!*----
* SmallCore_anm_mpo_mpo
* Assemblies and reflector data in MPO format
*----
LINKED_LIST GEOM_OSC TRACK MACRO FLUX ;
MODULE GEO: NSST: NSSF: OUT: MCR: NCR: GREP: UTL: END: ABORT: ;
HDF5_FILE CASEA :: FILE './Ass_3GLE_210-mpo.hdf' ;
HDF5_FILE CASEB :: FILE './Ass_3GLE_210_8Gd-mpo.hdf' ;
HDF5_FILE CASEC :: FILE './Ass_3GLE_320_16Gd-mpo.hdf' ;
HDF5_FILE CASED :: FILE './Ass_3GLE_420_16Gd-mpo.hdf' ;
HDF5_FILE REFL :: FILE './reflector_beavrs_ERM-ANM_mpo.hdf' ;
PROCEDURE assertS ;
*----
* Local parameters
*----
REAL keff1 ;
REAL densB1 := 300.0 ; ! reference Boron concentration in ppm
REAL dens_mod := 0.7 ; ! reference coolant density (g/cc)
*
************************************************************************
* GEOMETRY AND TRACKING *
************************************************************************
REAL cote := 21.504 ;
REAL mesh1 := cote ;
REAL mesh2 := mesh1 cote + ;
REAL mesh3 := mesh2 cote + ;
REAL mesh4 := mesh3 cote + ;
REAL mesh5 := mesh4 cote + ;
REAL mesh6 := mesh5 cote + ;
REAL mesh7 := mesh6 cote + ;
REAL mesh8 := mesh7 cote + ;
REAL mesh9 := mesh8 cote + ;
REAL mesh10 := mesh9 cote + ;
REAL mesh11 := mesh10 cote + ;
*
GEOM_OSC := GEO: :: CAR2D 11 11
EDIT 0
X- VOID X+ VOID
Y- VOID Y+ VOID
MIX
0 0 5 5 5 5 5 5 5 0 0
0 5 5 4 4 4 4 4 5 5 0
5 5 4 4 2 2 2 4 4 5 5
5 4 4 3 2 3 2 3 4 4 5
5 4 2 2 3 2 3 2 2 4 5
5 4 2 3 2 1 2 3 2 4 5
5 4 2 2 3 2 3 2 2 4 5
5 4 4 3 2 3 2 3 4 4 5
5 5 4 4 2 2 2 4 4 5 5
0 5 5 4 4 4 4 4 5 5 0
0 0 5 5 5 5 5 5 5 0 0
MESHX 0.0 <<mesh1>> <<mesh2>> <<mesh3>> <<mesh4>> <<mesh5>> <<mesh6>>
<<mesh7>> <<mesh8>> <<mesh9>> <<mesh10>> <<mesh11>>
MESHY 0.0 <<mesh1>> <<mesh2>> <<mesh3>> <<mesh4>> <<mesh5>> <<mesh6>>
<<mesh7>> <<mesh8>> <<mesh9>> <<mesh10>> <<mesh11>>
SPLITX 2 2 2 2 2 2 2 2 2 2 2
SPLITY 2 2 2 2 2 2 2 2 2 2 2
;
TRACK := NSST: GEOM_OSC :: EDIT 2 MAXR 500 ANM ;
************************************************************************
* CALCULATION OF MODERATOR DATA *
************************************************************************
REAL A := 6.022094E-1 ; ! Avogadro number
REAL P_B10 P_B11 := 0.202 0.798 ;
REAL M_H2O := 15.9994 2.0 1.00794 * + ;
REAL M_B := P_B10 10.012938 * P_B11 11.009276 * + ;
REAL f1 := 1.0 1.0E-06 densB1 * - ;
REAL f2 := 1.0E-06 densB1 * ;
REAL N_O16 := dens_mod f1 A * * M_H2O / ;
REAL N_H1 := 2.0 N_O16 * ;
REAL N_B10 := P_B10 dens_mod f2 A * * * M_B / ;
REAL N_B11 := P_B11 dens_mod f2 A * * * M_B / ;
ECHO "Mix_UOX N_O16=" N_O16 ;
ECHO "Mix_UOX N_H1=" N_H1 ;
ECHO "Mix_UOX B10=" N_B10 ;
ECHO "Mix_UOX B11=" N_B11 ;
************************************************************************
* MPO INTERPOLATION AT 300 ppm BORON *
************************************************************************
ECHO densB1 "ppm boron is" N_B10 "b10 nuclii concentration" ;
MACRO := MCR: CASEA CASEB CASEC CASED REFL :: EDIT 3 MACRO NMIX 5 MDF
MPO CASEA output_0 MIX 1 SET 'BURN' 0.0 SET 'C_B10_WATER' <<N_B10>>
ENDMIX
MPO CASEB output_0 MIX 2 SET 'BURN' 0.0 SET 'C_B10_WATER' <<N_B10>>
ENDMIX
MPO CASEC output_0 MIX 3 SET 'BURN' 0.0 SET 'C_B10_WATER' <<N_B10>>
ENDMIX
MPO CASED output_0 MIX 4 SET 'BURN' 0.0 SET 'C_B10_WATER' <<N_B10>>
ENDMIX
MPO REFL output_0 MIX 5 FROM 2 SET 'C-BORE' <<densB1>> SET 'Method'
'ERM-ANM' SET 'Palier' 'BEAVRS' ENDMIX
;
UTL: MACRO :: DIR IMPR STATE-VECTOR * STEP UP ADF DIR ;
************************************************************************
* FLUX SOLUTION (NODAL EXPANSION METHOD) *
************************************************************************
FLUX := NSSF: TRACK MACRO ::
EDIT 2 NUPD 100 1.0E-7 EXTE 500 1.0E-5 LEAK quadratic ;
GREP: FLUX :: GETVAL 'K-EFFECTIVE ' 1 >>keff1<< ;
assertS FLUX :: 'K-EFFECTIVE' 1 1.072216 ;
ECHO "test SmallCore_anm_mpo_mpo.x2m completed" ;
END: ;
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