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****************************************************************
* *
* Procedure : InitSteady.c2m *
* Purpose : initialize objects for Steady procedure *
* Author : V. Salino *
* *
* CALL : *
* Flux Thermo XeMicroF XeBurn Fmap Matex := InitSteady *
* Fmap Matex ReflXS Track ; *
* *
****************************************************************
PARAMETER Flux Thermo MicroF Burn Fmap Matex SapUOX SapMOX
MacroRefl Track ::
::: LINKED_LIST Flux Thermo MicroF Burn Fmap
Matex SapUOX SapMOX MacroRefl Track ; ;
MODULE SCR: NCR: MACINI: RESINI: TRIVAA: FLUD: FLPOW: THM: EVO:
GREP: UTL: DELETE: ABORT: END: ;
*--
* Local objects and variable
*--
LINKED_LIST MacroTot MacroF System PowerIter ;
REAL CBinterp := 0.0 ;
*--
* Thermalhydraulics parameters
*--
REAL dx := 21.5 ;
REAL Tot_tub := 6.6E-03 2.0 ** $Pi_R * 25.0 * ;
REAL Tot_pin := 4.7E-03 2.0 ** $Pi_R * 264.0 * ;
REAL asssect := dx dx * 1.E-04 * Tot_tub - Tot_pin - ;
REAL coresect := 157.0 asssect * ;
*--
* Flat power distribution
*--
REAL Ptot := 2750. ;
REAL BundPow := Ptot 157.0 / 29.0 / 1.0E+3 * (* MW to kW *) ;
Fmap := RESINI: Fmap ::
BUNDLE-POW SAME <<BundPow>> ;
*--
* Thermalhydraulics computation
*--
Thermo Fmap := THM: Fmap ::
EDIT 4
CRITFL 4.00E+6 (* W/m^2 *)
ASSMB 264 25
CWSECT <<coresect>> 60000.0
INLET 155.0E+05 550.0
RADIUS 4.1E-03 4.2E-03 4.7E-03 6.6E-03
SET-PARAM 'C-BORE' <<CBinterp>>
CONV 50 50 50 0.1 1.0E-3
RELAX 0.4 ;
*--
* Saphyb Interpolation
* Historic effects are neglected for simplicity's sake
*--
MicroF := SCR: SapUOX SapMOX Fmap ::
EDIT 1
MICRO LINEAR
EQUI EQVS
TABLE SapUOX 'BURN'
MIX 4
INST-BURN
SET 'DMOD' MAP
SET 'TCOM' MAP
SET 'BARR' MAP
MICRO ALL
'B10' *
'B11' *
'XE135PF' 0.
'I135PF' 0.
'ND147PF' 0.
'PM147PF' 0.
'PM148PF' 0.
'PM148MPF' 0.
'PM149PF' 0.
'SM149PF' 0.
'*MAC*RES' 1.
ENDMIX
TABLE SapMOX 'BURN'
MIX 5
INST-BURN
SET 'DMOD' MAP
SET 'TCOM' MAP
SET 'BARR' MAP
MICRO ALL
'B10' *
'B11' *
'XE135PF' 0.
'I135PF' 0.
'ND147PF' 0.
'PM147PF' 0.
'PM148PF' 0.
'PM148MPF' 0.
'PM149PF' 0.
'SM149PF' 0.
'*MAC*RES' 1.
ENDMIX
CHAIN
B10 STABLE
B11 STABLE
I135PF NG 0.
XE135PF NG 0. FROM DECAY 1.0E+00 I135PF
ND147PF STABLE
PM147PF STABLE
PM148PF STABLE
PM148MPF STABLE
PM149PF STABLE
SM149PF STABLE
MACR NFTOT 0.
ENDCHAIN
;
MacroF := MicroF :: STEP UP "MACROLIB" ;
*--
* Reflector interpolation
*--
*--
* Flux and power computation
*--
MacroTot Matex := MACINI: Matex MacroRefl MacroF ;
MacroF := DELETE: MacroF ;
System := TRIVAA: MacroTot Track :: EDIT 0 ;
MacroTot := DELETE: MacroTot ;
Flux := FLUD: System Track :: EDIT 0 ACCE 5 3 ;
System := DELETE: System ;
PowerIter Fmap := FLPOW: Fmap Flux Track Matex ::
EDIT 0 PTOT <<Ptot>> PRINT DISTR POWER ;
*--
* Xenon saturation
*--
Burn MicroF := EVO: MicroF PowerIter ::
EDIT 0 FLUX_POW PIFI SAVE 0. DAY KEEP ;
*Flux PowerIter := DELETE: Flux PowerIter ;
PowerIter := DELETE: PowerIter ;
END: ;
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