JAERI-Data/Code--97-047
JAERI-Data/Code 97-047
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JP9802016
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1997^11^
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This report is issued irregularly. Inquiries about availability of the reports should be addressed to Research
Information Division, Department of Intellectual Resources, Japan Atomic Energy Research Institute, Tokai-mura, Naka-gun, Ibaraki-ken 319-11, Japan
© Japan Atomic Energy Research Institute, 1997
JAERI-Data/Code 97-047
SWAT
(1997^10^ 21 B-xrS)
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JAERI-Data/Code 97-047
Integrated Burnup Calculation Code System SWAT
Kenya SUYAMA, Tomohiko IWASAKI* and Naohiro HIRAKAWA*
Department of Fuel Cycle Safety Research Nuclear Safety Research Center Tokai Research Establishment
Japan Atomic Energy Research Institute Tokai-mura, Naka-gun, Ibaraki-ken
(Received October 21, 1997)
SWAT is an integrated burnup code system developed for analysis of post irradiation examination, transmutation of radioactive waste, and burnup credit problem. It enables us to analyze the burnup problem using neutron spectrum depending on environment of irradiation, combining SRAC which is Japanese standard thermal reactor analysis code system and ORIGEN2 which is burnup code widely used all over the world.
SWAT makes effective cross section library based on results by SRAC, and performs the burnup analysis with ORIGEN2 using that library. SRAC and ORIGEN2 can be called as external module. SWAT has original cross section library on based JENDL-3.2 and libraries of fission yield and decay data prepared from JNDC FP Library second version. Using these libraries, user can use latest data in the calculation of SWAT besides the effective cross section prepared by SRAC.
Also, User can make original ORIGEN2 library using the output file of SWAT. This report presents concept and user's manual of SWAT.
Keywords: SWAT, Burnup Calculation, SRAC, ORIGEN2, Driver, JENDL-3.2, JNDC FP Library 2nd Version, Post Irradiation Examination, Burnup Credit
* Tohoku University
II
JAERI-Data/Code 97-047
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2.2.1 Matrix Exponential & 6 2.2.2 Bateman Ufe^. 9 2.2.3 Matrix Exponential &<DlkW'k3k'^<n'Mffi 10
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3.3.1 LIBMAK 15 3.3.2 TABMAK 18
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iii
JAERIData/Code 97047
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6.5 M I I n > h n ; l / 76
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8. swAT<7)7nr^ s yyizfflix 115 8.1 77f JHH* 115 8.2 SS JflJ 115
9. SWAT CO Install 118 9.1 T-rfti*h archive £ $ 0 & " t 118 9.2 Archive ri» f> V * 7 V £ftJ&1" * 118 9.3 SWAT <7) make 118
9.3.1 preprocessor ffi<7)5EH 119 10. swat2ori2 ^ T M V T J 121
10.1 ftj&^& 121 10.1.1 nlib2nlib 124
i i . SWAT comm14*& 125 m n 126 # # £ & 127
iv
JAERI-Data/Code 97-047
Contents
1. Introduction 1 2. Burnup Calculation 3
2.1 Stepwise Burnup Calculation Method 4 2.2 Solution of Burnup Equation 5
2.2.1 Matrix Exponential Method 6 2.2.2 Bateman Equation 9 2.2.3 Application of Matrix Exponential Method for Non-homogeneous
System 10 3. Summary of Calculation in SWAT 12
3.1 Codes in SWAT 12 3.2 Flow of Calculation 12 3.3 Function of Each Module 15
3.3.1 LIBMAK 15 3.3.2 TABMAK 18
4. Libraries Used in SWAT 20 4.1 SWAT Library 20
4.1.1 Structure of SWAT Library 22 4.1.2 Method to Make SWAT Library 25
4.2 Decay and Fission Yield Data 25 4.3 Auxiliary Library Used in SWAT 26
4.3.1 READMASS Library 26 4.3.2 STEAM Library 26
5. Use of External Module 28 5.1 Environment Variables Specifying External Module 28
6. Input Data 29 6.1 File Assignment 30
6.1.1 Environment Variables for PDS file Specification 30 6.1.2 Automated Make and Remove of Directory for PDS file 31 6.1.3 Description of Input 32
6.2 SWAT General Control 35 6.2.1 Output of Calculation Results 36 6.2.2 Library Control 39
6.3 Input Control for SRAC 42 6.3.1 SRAC Control Data 42
V
JAERI-Data/Code 97-047
6.3.2 Information for Neutron Spectrum 49
6.3.3 Control of Collision Probability Method and Number of Burnup Regions 50
6.3.4 Regions for Evaluating Neutron Spectrum 61 6.3.5 Material Control for SRAC 62
6.4 Control for Called Modules 69 6.4.1 Calculation of Power Distribution 69 6.4.2 Burnup Steps 72 6.4.3 Command for Each Burnup Step 74
6.5 Control for Burnup History 76 6.5.1 Information for Operation Mode 76 6.5.2 Temperature of Each Region 78 6.5.3 Information for Material Specification of Coolant Region 79
6.6 Other Additional Function Control 81 7. Example of Execution 84
7.1 Example of Shell Script for Executing SWAT 84 7.2 Example of Shell Script for SRAC run as External Module 86 7.3 Example of Shell Script for ORIGEN2 run as External Module 88 7.4 Sample Input 88 7.5 Sample Output 92
8. About Programming of SWAT 115
8.1 File Unit 115 8.2 Array 115
9. Install of SWAT 118 9.1 Extract Archive from Tape 118 9.2 Making Source Tree from Archive 118
9.3 Make of SWAT 118 9.3.1 Definition for Preprocessor 119
10. swat2ori2 Utility 121 10.1 Method to Make 121
10.1.1 nlib2nilib 124 11. Problem and Future of SWAT : 125
Acknowledgment 126 References 127
VI
JAERI-Data/Code 97-047
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1ORIGEN2(82) ^ ORIGEN2.1 "Hi, ^ + 6 W T t 4 o T i - ' i 0
- 8 -
JAERI-Data/Code 97-047
2.2.2 Bateman ^ S i t
mWrtWCOy frUzmt&UWzXiX, Matrix Exponential ffi-CJJM fco^frfcn
fc^JBfSftfclsHifttt* W.T^^;2.12 H J : o - C ? l 0 * > o ^ - 9 0 >! t U i v> ;b tf> £ , Bateman
^ 1 ^ - C - ^ ^ . o
v v tn\ f J t u r r m V e x p ( - d j t ) - e x p ( - d , t ) U1 an+i,w X, = X, (0) exp (-dtt) + 2^Xk (0) 2^ — — aJ+ij [[ k=l \j-k ' 3 n=k "-n dj
(2.12)
alvJ (i, ZtitXiZ&miX&fz notation tmtX&^X, 1 >kcomtm. d3 l i ,
a3J t^^mmmconn^mzwfc-t&o Bern*, ^2 .12^ Y[dnxmntixm^z tX\ VXTC0X7\zmiLtzo
X, =X t(0)exp(-d,0 + 2-*fc(°) [[ —— l ^ d j j ^ } 11 ^ - 3
(2.13)
n=k dn Ltl ' d, - d, i i dn - d, .
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2.13 K £ l t £ M f t ^ f t l ^ ( i ,
£ d ^ e x p ( - d ^ ) n - ^ - (2.14)
- 9 -
JAERI-Data/Code 97-047
tzti&o ztitmfficomt, dn = d]coW}/k\zi>'MfcZti&o i r o i V ^ t t c f t i co\±, mmmconftf&frtmmztt^tztfft, mn^-^-y, -t%t>%. g#g#5&*g
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^ = 0 = ^ ^ ^ (2.15)
Z.<D)9,&\Z\±, m^*fflR<Dm&itmm<OlfcM%&iLl3&3;ilZf£Z<nX\ Gauss-Seidel mzx->xwfrm0 z\coWi£\z\±, &mmcoftft$L7Y\±iiX\ tmft$L7Y\±rt.x&z>0
zcom\±.
X!+l = --lt*,x; (2-16)
2.2.3 Matrix Exponential SW^I^^^^WJlf f l
ZtltXtt, W-krkCOM* Matrix Exponential ftCiotK £ t &#x.T § fcri*,
X = A X + B (2.17)
:£ 2.17 « $ £ # * > , A - 1 ris*Sfct>, >etL(ii-:J.T-?iN:&o 2(n,2n) T-MoT, 4>14^-ffl!»5:i£££tX 7 4 * £
- 1 0 -
JAERI-Data/Code 97-047
X = [exp (At) - I ]AlB (2.18)
ZZ.X\ Matrix Exponential COjjkffl%iXAi~ & t>
: » # i U / : , &&»»£ Lr$n?H4„
*. (0 - E A" (2-20) n=0
^ I « I I ^ J : T I : , -O^2 .20 l i , W i f t f t M f e U U o t \ *^x.f>*LS0
D,1 = M (2.21)
D t"+1 = « N
-Z^D; (2.22) n + ^ = i
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C0Wj£\Zli, £ 2 . 1 5 * £ l T W ^ { Z # < o
dX N
^=0 = J2avXJ + bt (2.23)
ZZtitt, Gauss-Seidel S f C i o T ^ ^ ^ S o l^fcfcj: ^ # f c W # ^ fifcfc <b, f f i «
- 1 1 -
JAERIData/Code 97047
3 SWAT lC*Jlt*ft*0)ffiS
3.1 SWAT * toJ&tizi- K
SWAT (iA§< < hljX 4 o c o n K ) ) ^ i o t v > 4 0
2 1 \ SRAC[i, 2] c * * 0 : « 3 h U * t t ^ f i » £ / j * i : £ £ f i ¥ < / ^ M f f i ^ f t £ 0 ?LT, ORIGEN2[12, 13] Ji, M/j*Si££fi? < £#> Kfl£ffi $ ft£o t i ^ 2 o c o n Kfc? 2 < f i ^ ^ ^ t i T l t » ^ f t ^ ^ 5 \ S W A T C 0 f t ^ f t ^ g f t ( ; ^ ^ ^ t t C ^ ^ o
?LT, %<r>tz#)\z^ LIBMAK t TABMAK £v>9 2 o w n K ^ M $ ^ t v » 5 0
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££*>?, SWAT Ji, SRAC £ ORIGEN2 £ , ®& Lfc^gB* V^-fr t LTflJffl
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3.2 I t l f M t l
SWAT W^S^if t f twaEfLS: Fig. 3.1 K^to itz, 4?LifrWH:\ t'coy r 4 )V 5&*#£ffi£:Ji, 2fc^<f r&2*i4^£Fig . 3.2 C ^ t o
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-&®%ffi.ii\zxz>t^ SRAC tfimznx, mmmmmt^^:f-9,^9 v^ijmm £ f t £ 0 ZCO&WcUs S R A C CO P D S File K t e t t S f t S o f L t , L I B M A K ^ \ P D S
File U fig access L CJ&i? 4 r* * £ $f# L, SWAT Library fr^co?-9 k^tbX, ORIGEN2 Format W»ffflfl[7 r 4 ^ S r f ^ t ^ o f L T , ORIGEN2 ri'tBift £ f i r , ft
1 2
JAERIData/Code 97047
®fti&2titzmmtikr-9i:tiimLx, oRiGEm^zxiBMtfmnio i>L. m&m m*&%.$>&<OX$>til£* tcomi&co&tzlj LIBMAK (; J: h »fffi«ftj£ t, ORIGEN2 \z x h ■mmm^m. o ^ *. $ *i * „
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JAERI-Data/Code 97-047
147 Group Cross Section Library for Actinide and FP based on JENDL-3.2
FP Decay and Fission Yield Library based on JNDC FP Library 2nd ver.
LIBMAK
1-Group Cross Section which depends on burnup and type of reactor
/
Acti: Capture,(n,2n),(n,3n),Fission FP: Capture,(n,2n),(n,alpha),(n,p)
Variable Actinide Cross Section ) O R I G E N - 2
Input File
Results.
Step Wise Result
t TABMAK
Input File
Burnup Parameter Power, Time
Cell Parameter Pitch etc.
Figure 3.1: Flow Chart of SWAT
- 1 4 -
JAERIData/Code 97047
3.3 £ ^ i > * i J K D « t e
3.3.1 LIBMAK
SWAT izmiZ ORIGEN2 fflKfffifltftoftli, LIBMAK lz£vXftt>ti&0 ZcoQm
C0:Mtl£, Fig. 3.3 iZTfii-o
Zcoa- \?\t, &&Mmm*%-Km&i:-tZ<r)X'$>Z*K SRAC co$\%^^t LTft f&Ztltz PDS file K f i & 7 * b X f c f i ^ \ ftta^ft^flfH^IS^ib'So CI W «fc 7 fc & 3 £
^ f t l l C t f ^ W t i ^ a ^ i B f f l C * * ^ LIBMAK It, %\%>r-7%i, 7,7- 7 ^ » , ^ L
T«&&^&5&*f>&>E$;rl& PDS file fefcifeeLT, ^ f 9 £ BWWffi^J^ store t & o
$f>K, SRAC K « f c o T f t * £ ; r i £ £ B & t e « # W * 1 4 T * ' ^ F J ^ t f f l L T , fcs&ft
H ^ t f ^ o fcf&fcfc&Rtfcli, (n,7) i: (n,f) XhZ>0 ZC0tztb\Z LIBMAK T}?7 ?bX £
fi7 PDS file it, Micro Effective Cross Section File (MICREF) t Flux File (FLUX) X
h&o Z<r>mSL\Zt£i>nU^\t, SWAT C0AtUz£>\s^X%ifcZtlZ>o
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107
a i 9 , * = £zTo7 (3X)
£<bu, SWAT 7>f 7*^uicrtaof*^ (ftEis if?T* ) =S:^*Ji^■e, eft*
S R A C U J i & ^ t t i ' T , ^ h^C*fil«jL/w»fffi««:fflTftr6o ttSlKfc&Hftftli, SWAT
Library lZftmZtlX\<*ZmtiLfct'<XX'$>Zo 7 9 1-y 4 ViZffltZKfclt,
(n,7),(n,2n),(n,3n),(n,f) CO, FP izmt^K^it, (n,7),(n,2n),(n,p),(n,a) WWf1B«**ffl
t L T * ^ . „ tztz.tf, 79^yJV*<D(nM)frfc^&fr^f&W<V(n,a)fcfclt, SRAC
<7) PDS filet: l i ^ i f r f c ^T}*\ ORIGEN2 <7)7f 7*7 U T ' f i ^ g T ^ ^ o I W i ^ i f
?*> SWAT Library KliftiStS flX\^hC0Xhho ft, 10 MeV ^Xl.CO^^.^7^9 Y )V
it, SRAC Ximn-Ztib^COX, ffigftjK, U235 O f l i f r g * ^ * h;ufc, SRAC "Cft
J t S t t & X ^ * hfrlzmtitlX, 20 MeV £C<7) tH4T*^* h JUfcftJft LT*SMN£fc??
1 5
JAERI-Data/Code 97-047
Burnup Step Loop
Burnup Region Loop
Write Data Read Data
Figure 3.2: Relation of Modules in SWAT
- 1 6 -
JAERI-Data/Code 97-047
-SRAC-
PDS File—
MICREF
-PDS File
FLUX
Read Micro Effective Data from PDS File (capture.fission)
Read Flux Data from PDS File
J
SWAT Library
Make One Group Cross Sections for capture and fission reactions using data in PDS File
Read Data from SWAT Library actinides - capture.fission,(n,2n),(n,3n) FP - capture,(n,2n),(n,p),(n,alpha) J
Original ORIGEN2 Format Data Library v
-zzz* V ■cr
/
Updated ORIGEN2 Format Data Library
Make One Group Cross Sections for capture.fission,(n,2n),(n,3n), (n,p), (n.alpha) reactions using Cross Section Data in SWAT Library and Flux Data in PDS File
Substitute Old Cross Section Data with New Data Prepared in Previous Procedures
Figure 3.3: Flow of Process in LIBMAK
- 1 7 -
JAERIData/Code 97047
zconmzmm-t&v t-r, JENDL3.2 **), u-235 cozmmyrQ^-f-7^9 v ^ZWO&LX 147 &cor-9t LT£<0 *ti* xg ^t^o 147 ffcomMit, SRAC Public Library <T> 107 SMf J t C 10 MeV frb 20 MeV £ 250 KeV &iZ 40 fflMlfrSI L / j f f ^ i t ^ « ^ L / j t c 7 ) c * ^ 4 o **ltf\ SWATLibrary KrtJfcSifCfc < 0 ^ L T , SWAT Library O i ^ ^ S C ^ t t SRAC H «t o TftfcB $ fltz^f±^7^9 b;K7)x* ^SffcRteLTAfi&xfcfcwfcff t f^ fcLT^Ti:, W T ^ J : ^ : 147 # w * ^ * h
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147
a l 9 ,x = —147 ( 3 3 )
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fe#{iov>Tli), SRAC co%\%\z X %>%%j) ffr *jW$ffl3*i&o
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1 8
JAERI-Data/Code 97-047
2. *ti?ti<nM1&mmzi3ilrzffl®:fc<n%A<n%\ (g)
3. *ft?n<nte&m&izmzm&it<7)M<7>&milztti-zm&(%)
4. ztirticoBmmmzisij-z uo21 g &tziocom&foco«dm (mg/guo2)
5. ztimcoBMffimzisnz uo21 g &tzt)com&fccomm (mCi/guo2)
6. iliiwMt^l^ti/^fi^f i (g)
7. % FIMA ( The Number of Fissions per initial atom in % )
8. m&Bt (MWd/Timtial Heavy Metal)
9. BM& (MWd/gram-atom-present)
10. SRAC coAtJiZfrtzZti&mZfccom^m&^m (# 1024/cm3 )
ii. i%mt^&ti±y'jizMfcLtzi%mm®m,^m&®m(# io24/cm3)
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JAERI-Data/Code 97-047
4 SWAT Tfcffl-fS^'f 7 7 ' J
4.1 SWAT Library
SWAT library it, 147 W M r * - 9tf%ft LX&Z> 7 r -f ;Ut?*-6o S £ , JENDL-3.2 i : l o ' w / : 7 r ^ M { 4 i " C $ ) i o fi7)7 r -f ;WCrtJK$fiTv>4|BHi3[#£ Table 4.1 i : ^1"o i f c , SWAT Library O 147 S O f f f l l J i * T a b l e 4.2 ( ;^1"o i ^ ^ ^ T S * * ,
SRAC Public Library 107 ISMfcitHftflnSfi^ 40 mco%&X&?bo
Table 4.1: Nuclide in SWAT Library RA223
TH230
U235 PU239
CM241
BK249
GA000
SE74
KR80
SR88
ZR94
MO 96
RU101
PD106
CD 108
SN114
SN126
TE125
XE126
CS133
BA137
PR143
PM148
SM153
GD154
RA224
TH232
U236 PU240
CM242 BK250
GA 69
SE 76 KR82
SR89
ZR95
MO 97
RU102
PD107
CD110
SN115 SB000
TE126
XE128
CS134
BA138
ND142 PM148M
SM154
GD155
RA225
TH233
U237
PU241
CM243
CF249 GA 71
SE 77
KR83 SR90
ZR96
MO 98
RU103
PD108 CD111
SN116 SB121
TE127M
XE129
CS135
BA140
ND143
PM149
EU0OO
GDI 56
RA226 TH234
U238 PU242
CM244
CF250
GE000
SE78 KR84
Y89
NB93
MO 99
RU104
PD110 CD112
SN117 SB 123
TE128
XE130
CS136
LA138
ND144
SM144
EU151
GD157
AC225
PA231
NP236 AM241
CM245
CF251
GE 70
SE79
KR85
Y91 NB94
MO100
RU106
AG000
CD113
SN118
SB124 TE129M
XE131
CS137
LA139
ND145
SM147
EU152
GD158
AC226
PA232
NP237 AM242M
CM246
CF252
GE 72
SE80
KR86
ZR0
NB95
TC 99
RH103
AG 107 CD114
SN119 SB125
TE130 XE132
BA130
CE140
ND146
SM148
EU153
GD160
AC227
PA233
NP238 AM242
CM247
CF254
GE 73 SE82
RB85
ZR90
MO000
RU96
RH105
AG 109
CD116
SN120
TE120
1127
XE133
BA132
CE141
ND147
SM149
EU154
TB159
TH227 U232
NP239
AM243
CM248
ES254
GE74
BR 79
RB 87 ZR91
MO 92
RU98
PD102 AG110M
IN113
SN122
TE122
1129
XE134
BA134
CE142
ND148
SM150
EU155
TH228
U233
PU236 AM244M
CM249
ES255
GE76
BR 81
SR86 ZR92
MO 94
RU 99
PD104
CDOOO
IN115
SN123
TE123
1131 XE135
BA135
CE144
ND150
SM151
EU156
TH229 U234
PU238 AM244
CM250
FM255
AS 75
KR78 SR87
ZR93
MO 95
RU100
PD105
CD106
SN112
SN124
TE124
XE124
XE136
BA136
PR141
PM147
SM152
GD152
- 2 0 -
JAERI-Data/Code 97-047
Table 4.2: Energy Bounday of SWAT Library (147 Groups) 1.00000E-05 3.52380E-04 1.46630E-03
1.35430E-02 1.84670E-02 2.41540E-02
5.45200E-02 6.40170E-02 7.42760E-02
1.22930E-01 1.37000E-01 1.51830E-01
2.18780E-01 2.37420E-01 2.56830E-01
3.42060E-01 3.65280E-01 3.89260E-01
6.02360E-01 6.82560E-01 7.73440E-01
1.27520E+00 1.44500E+00 1.63740E+00
3.92790E+00 5.04350E+00 6.47600E+00
1.76040E+01 2.26030E+01 2.90230E+01
7.88930E+01 1.01300E+02 1.30070E+02
3.53570E+02 4.54000E+02 5.82950E+02
1.58460E+03 2.03470E+03 2.61260E+03
7.10170E+03 9.11880E+03 1.17090E+04
3.18280E+04 4.08680E+04 5.24750E+04
1.42640E+05 1.83160E+05 2.35180E+05
6.39280E+05 8.20850E+05 1.05400E+06
2.86510E+06 3.67880E+06 4.72370E+06
3.34230E-03
3.06020E-02
8.53970E-02
1.67430E-01
2.76990E-01
4.13990E-01
8.76430E-01
1.85540E+00
8.31530E+00
3.72660E+01
1.67020E+02
7.48520E+02
3.35460E+03
1.50340E+04
6.73800E+04
3.01970E+05
1.35340E+06
6.06530E+06
5.98040E-03
3.78130E-02
9.70800E-02
1.83780E-01
2.97920E-01
4.69120E-01
9.93120E-01
2.38240E+00
1.06770E+01
4.78510E+01
2.14450E+02
9.61120E+02
4.30740E+03
1.93050E+04
8.65170E+04
3.87740E+05
1.73770E+06
7.78800E+06
9.38050E-03
4.57850E-02
1.09630E-01
2.00900E-01
3.19610E-01
5.31580E-01
1.12540E+00
3.05900E+00
1.37100E+01
6.14420E+01
2.75370E+02
1.23410E+03
5.53080E+03
2.47880E+04
1.11090E+05
4.97870E+05
2.23130E+06
1.00000E+07
1.02500E+07
1.17500E+07
1.32500E+07
1.47500E+07
1.62500E+07
1.77500E+07
1.92500E+07
1.05000E+07
1.20000E+07
1.35000E+07
1.50000E+07
1.65000E+07
1.80000E+07
1.95000E+07
1.07500E+07
1.22500E+07
1.37500E+07
1.52500E+07
1.67500E+07
1.82500E+07
1.97500E+07
1.10000E+07
1.25000E+07
1.40000E+07
1.55000E+07
1.70000E+07
1.85000E+07
2.00000E+07
1.12500E+07
1.27500E+07
1.42500E+07
1.57500E+07
1.72500E+07
1.87500E+07
1.15000E+07
1.30000E+07
1.45000E+07
1.60000E+07
1.75000E+07
1.90000E+07
- 2 1 -
JAERI-Data/Code 97-047
4.1.1 SWAT Library </)*§&
SWAT 7 f 7*7'J(i , ^ 7 y-tWmffir~9frh%^X^^, \XT\zyr 4 )Vcom
mmm-tho mncofsit^y-yYXlb&o 2^Uit, Zooyy 4 )ico;i-i?3 y^7r,-fo 3ftUit,
zz-*)i¥ucommx,
1. £zz-*)lJf%$ (IGGC (=147))
2. M&fft&m&tkWcom (IGFGC(=99))
3. &m&t&McomR (IGRGC(=36))
4. $<>MC0m'&C0& (IGTGC(=D)
-mzfr®m.co$k!%xit, im*m&&x\ &m*A$\<^tf*-*fr;3ftfi&<%z>-t)\ SWATLibrary-Cii, KU LTf&V^ X <0 {£#£ ;HTV>£^;;r±;i£ L T t L V>0 Zflit, feft-fZ CRECTJ5 izX&fotiZZcottmmir&tzfrXJb&o
>XiZ, zz-*)l^mffi&G0r-9~tf(lGGC+im)i%?f2tiZo ZCOzt-^)l^r^it, 1.0x10s
eV fr h 10 MeV $ XCO SRAC Public Library CO 107 &coM&K, 10 MeV fr h 20 MeV &4omzfrmLtz&m&*&tit&Ltz, wmcomn&z^tx^Zo zflit, fflimfc ZWOi&dtz&X&Zo
^co>kcoy'uy 9it, IGGC ffico U-235 coW^m/J7^7^9 YhXlb&o ZCOr- 9 it, SRAC Xt\%^fitz7^9 Y )liz&$L2tiZ>tz&iz8)M2tiX\;^0
Zco>kcol7it, Zcoyj 7yi)izi%ft2tiX^^, mi.fo&XJb&0 ZcoMXit, 60 mmoor-9-hmfcZtiX^&tUmLXJbZ>0
%C0>kC0 Block it, actinide W^-g-Hli,
i. mmooitmm-
2. ZA #-^
3. M A T # #
4. *14^-ffli»BfffifltliAo-C^4^(=l) v>&v^(=0)
5. (n,2n) KffiftfiAoTV>£jj» (=1) V>&V> (=0)
- 2 2 -
JAERI-Data/Code 97-047
6. (n,3n) BfffiftlUo X^Zfr (=1) v>&v^ (=0)
7. (n,f) Wfff i^{ iAoTv^^(=l ) v^v^>(=0)
8. ^ t t f f f i « l £ ^ £ t t £ « J t
9. (n,2n) Rfc^Jolt&frKit
^ 4 ^ ^ o FP 7 ^ 7 ' J « S ^ : i i , (n,3n) t (n,f) E l S ^ ^ ^ C (n,p) i: (n,a) KfccommW3bZ>frt~7fr*^tzt t L t V > 4 o
^ L T , *-<A&T% IGGC^^ig(7Difffiffir*-^^M<o Sample of SWAT Library
JENDL-3.2 ACTILIB FOR SWAT BY KENYA JNDC-PNT.(300K)+SIGMA1(900)+CRECTJ5 JENDL-3.2 VER. 2.1 147 99 36 1 1.00000E-05 3.52380E-04 1.46630E-03 3.34230E-03 5.98040E-03 9.38050E-03 1.35430E-02 1.84670E-02 2.41540E-02 3.06020E-02 3.78130E-02 4.57850E-02 5.45200E-02 6.40170E-02 7.42760E-02 8.53970E-02 9.70800E-02 1.09630E-01 1.22930E-01 1.37000E-01 1.51830E-01 1.67430E-01 1.83780E-01 2.00900E-01 2.18780E-01 2.37420E-01 2.56830E-01 2.76990E-01 2.97920E-01 3.19610E-01 3.42060E-01 3.65280E-01 3.89260E-01 4.13990E-01 4.69120E-01 5.31580E-01 6.02360E-01 6.82560E-01 7.73440E-01 8.76430E-01 9.93120E-01 1.12540E+00 1.27520E+00 1.44500E+00 1.63740E+00 1.85540E+00 2.38240E+00 3.05900E+00 3.92790E+00 5.04350E+00 6.47600E+00 8.31530E+00 1.06770E+01 1.37100E+01 1.76040E+01 2.26030E+01 2.90230E+01 3.72660E+01 4.78510E+01 6.14420E+01 7.88930E+01 1.01300E+02 1.30070E+02 1.67020E+02 2.14450E+02 2.75370E+02 3.53570E+02 4.54000E+02 5.82950E+02 7.48520E+02 9.61120E+02 1.23410E+03 1.58460E+03 2.03470E+03 2.61260E+03 3.35460E+03 4.30740E+03 5.53080E+03 7.10170E+03 9.11880E+03 1.17090E+04 1.50340E+04 1.93050E+04 2.47880E+04 3.18280E+04 4.08680E+04 5.24750E+04 6.73800E+04 8.65170E+04 1.11090E+05 1.42640E+05 1.83160E+05 2.35180E+05 3.01970E+05 3.87740E+05 4.97870E+05 6.39280E+05 8.20850E+05 1.05400E+06 1.35340E+06 1.73770E+06 2.23130E+06 2.86510E+06 3.67880E+06 4.72370E+06 6.06530E+06 7.78800E+06 1.00000E+07 1.02500E+07 1.05000E+07 1.07500E+07 1.10000E+07 1.12500E+07 1.15000E+07 1.17500E+07 1.20000E+07 1.22500E+07 1.25000E+07 1.27500E+07 1.30000E+07 1.32500E+07 1.35000E+07 1.37500E+07 1.40000E+07 1.42500E+07 1.45000E+07 1.47500E+07 1.50000E+07 1.52500E+07 1.55000E+07 1.57500E+07 1.60000E+07 1.62500E+07 1.65000E+07 1.67500E+07 1.70000E+07 1.72500E+07 1.75000E+07 1.77500E+07 1.80000E+07 1.82500E+07 1.85000E+07 1.87500E+07 1.90000E+07 1.92500E+07 1.95000E+07 1.97500E+07 2.00000E+07 5.61030E-17 3.70669E-15 3.14837E-14 1.24848E-13 3.46469E-13 7.09910E-13 1.18876E-12 1.84923E-12 2.71497E-12 3.81004E-12 5.14767E-12 6.77546E-12 8.71663E-12 1.09950E-11 1.36381E-11 1.66656E-11 2.00531E-11 2.38308E-11 2.81588E-11 3.31453E-11 3.85718E-11 4.44312E-11 5.10544E-11 5.82229E-11 6.59249E-11 7.44199E-11 8.35468E-11 9.34156E-11 1.04030E-10 1.15361E-10 1.27543E-10 1.40527E-10 1.54377E-10 1.77684E-10 2.14351E-10 2.58632E-10 3.12001E-10 3.76309E-10 4.53942E-10 5.47610E-10 6.57893E-10 7.89684E-10 9.54758E-10 1.15489E-09 1.39275E-09 1.85162E-09 2.69869E-09 3.92969E-09 5.71910E-09 8.32320E-09 1.21100E-08 1.75731E-08 2.54792E-08 3.70784E-08 5.40623E-08 7.88112E-08 1.14783E-07 1.67060E-07 2.43171E-07 3.53906E-07 5.14710E-07 7.45354E-07 1.08273E-06 1.58079E-06 2.30316E-06 3.35507E-06 4.88604E-06 7.10883E-06 1.03442E-05 1.50525E-05 2.17867E-05 3.16560E-05 4.62711E-05 6.73704E-05 9.79931E-05 1.42598E-04 2.07532E-04 3.01935E-04 4.39120E-04 6.35528E-04 9.24185E-04 1.34810E-03 1.95859E-03 2.84572E-03 4.13100E-03 5.99552E-03 8.68944E-03 1.25770E-02 1.80981E-02 2.60161E-02 3.74125E-02 5.35110E-02 7.60687E-02 1.06926E-01 1.47795E-01 1.99160E-01 2.59728E-01 3.26632E-01 3.94163E-01 4.52475E-01 4.82724E-01 4.61645E-01 3.83256E-01 2.69439E-01 1.54795E-01 6.80323E-02 2.10059E-02 8.39211E-03 7.09201E-03 5.98983E-03 5.05614E-03 4.26263E-03 3.58904E-03 3.02043E-03 2.54074E-03 2.13455E-03 1.79098E-03 1.50211E-03 1.25933E-03 1.05449E-03 8.81837E-04 7.37197E-04 6.16073E-04 5.14289E-04 4.28837E-04 3.57475E-04 2.97901E-04 2.48018E-04 2.06283E-04 1.71526E-04 1.42588E-04 1.18432E-04 9.82806E-05 8.15394E-05 6.76345E-05 5.60543E-05 4.64166E-05 3.84280E-05 3.18079E-05 2.62995E-05 2.17199E-05 1.79345E-05 1.48062E-05 1.22213E-05
-23-
JAERI-Data/Code 97-047
1.00861E-05 8.32245E-I RA223 RA224 RA225 RA226 AC225 AC226 AC227 TH227 TH228 TH229 TH230 TH232 TH233 TH234 PA231 PA232 PA233 U232 U233 U234 U235 U236 U237 U238 NP236 NP237 NP238 NP239 PU236 PU238 PU239 PU240 PU241 PU242 AM241 AM242M AM242 AM243 AM244M AM244 CM241 CM242 CM243 CM244 CM245 CM246 CM247 CM248 CM249 CM250 BK249 BK250 CF249 CF250 CF251 CF252 CF254 ES254 ES255 FM255
882230 8825 882240 8828 882250 8831 882260 8834 892250 8925 892260 8928 892270 8931 902270 9025 902280 9028 902290 9031 902300 9034 902320 9040 902330 9043 902340 9046 912310 9131 912320 9134 912330 9137 922320 9219 922330 9222 922340 9225 922350 9228 922360 9231 922370 9234 922380 9237 932360 9343 932370 9346 932380 9349 932390 9352 942360 9428 942380 9434 942390 9437 942400 9440 942410 9443 942420 9446 952410 9543 952421 9547 952420 9546 952430 9549 952441 9553 952440 9552 962410 9628 962420 9631 962430 9634 962440 9637 962450 9640 962460 9643 962470 9646 962480 9649 962490 9652 962500 9655 972490 9752 972500 9755 982490 9852 982500 9855 982510 9858 982520 9861 982540 9867 992540 9914 992550 9915 1002550 9936
1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 ** JENDL-3.2 * RA223(8«
8.82230+ 4 2.21103+ 2 0.00000+ 0 0.00000+ 0 0.0 + 0 0.0 + 0
36 6.86611E-06 1 1 1.0 1 0 1.0 1 0 1.0 1 1 1.0 1 0 1.0 1 0 1.0 1 1 1.0 1 1 1.0 1 1 1.0 1 1 1.0 1 1 1.0 1 1 1.0 1 1 1.0 1 1 1.0 1 1 1.0 1 1 1.0 1 1 0.5 1 1 1.0 1 1 1.0 1 1 1.0 1 1 1.0 1 1 1.0 1 1 1.0 1 1 1.0 1 1 1.0 11 1.0 2 1 1 1.0 1 1 7.991E-01 1 1 1.0 1 1 1.0 1 1 1.0 1 1 1.0 1 1 1.0 1 1 1.0 1 1 8.900E-01 1 1 1.0 1 1 1.0 1 1 4.999E-02 1 1 1.0 1 1 1.0 1 1 1.0 1 1 1.0 1 1 1.0 1 1 1.0 1 1 1.0 1 1 1.0 1 1 1.0 1 1 1.0 1 1 1.0 1 1 1.0 1 1 1.0 1 1 1.0 1 1 1.0 1 1 1.0 1 1 1.0 1 1 1.0 1 1 1.0 1 1 1.0 1 1 1.0 1 1 1.0
1.0 1.0 1.0 1.0 1.0 1.0 1.0 1.0 1.0 1.0 1.0 1.0 1.0 1.0 1.0 1.0 1.0 1.0 1.0 1.0 1.0 1.0 1.0 1.0 1.0
585E-01 1.0 1.0 1.0 1.0 1.0 1.0 1.0 1.0 1.0 1.0 1.0 1.0 1.0 1.0 1.0 1.0 1.0 1.0 1.0 1.0 1.0 1.0 1.0 1.0 1.0 1.0 1.0 1.0 1.0 1.0 1.0 1.0 1.0 1.0 125) SWATLIB-ACTK9609) * T=
0 0 0 1 3 3 3 3
1 0 0
451 16 17 18 102
900.0(K) *« 0 0 1 10 18 15 53 53
0 08825 08825 58825 8825 18825 08825 08825 08825 08825 8825
1451 1451 1451 1451 1451 1451 1451 1451 1451 1 0
0 1 2 3 4 5 6 7 8 9 10
- 2 4 -
JAERI-Data/Code 97-047
4.1.2 SWAT library WflsjSfc&a
SWAT library W f ^ ^ f f i J i f f i ^ L T * * . t^XCO tool it, EWS ^#ff i£;fx, shell
script Z'gft't&tzljX', ftj&Zti&o M ^ o ^ T t i ^ & v ^ \%.mLtzy°u9*yU* ^i~0
RECENT[14, 15]
^.n$/N°7 / - 9 £M1"Z>y°U9'y l*o Z. tiff, PJTM "Point wise cross section" £ffc
LINEAR[16, 15]
mm%co\Hw&£.zmww\z^i-z>o
SIGMA1[17, 15]
#<&'*? J-9£&m.-tZ%&llzit, F-yfJ-fcWVZ^fa-tZfztbiz, fil££J& feLbtftitibhZ^o tcotzsbiz, -feftJ&Ztitz Point Wise WfMWz, HMco
CRECTJ5[18]
Kfte«ll*7pn^7Ao ztiizX^X, SWAT yJ7y')co&jXiz^2iz&0
4.2 flMLKtffcftHJR^f-'-*
FP izmtXii, *<7)mfrUM&£ffii&fc&<0&mLit5Z.%vtZo ZKhcor-9 it, FP co^kJ5ft chain £&;£-f & S H & T * - * T*<6o & # * ftff^r*- * £ fc ^ V
fc$tf3"§lJK!£tf>f'- ? <h LX, JNDC(Japanese Nuclear Data Committee) Nuclear Data
Library of Fission Products - Second version- [19](JNDCFPV2) ri*flj ffl tfi 5fe £ <, CI
co, JNDCFPV2 xwmztitz FP mmcomm^^t mid-mimr- 9 %, ORIGEN2 <r> FP Library O f ^ C ^ I L t , ftJfKflJffinTtifc «fc ^ i :L / : 0
- 2 5 -
JAERI-Data/Code 97-047
4.3 SWAT T'feffl t Z *i#J y 4 If y lJ
mmmizt3^x&m2tiz>r-9\z\t, w,?m<ox7iz®mfe&t ix5-z.b*.*>& sew*)<?)#**o ttz, '<%mtco®&i>, &.mti±.ijtf$>tzz.btitui:m%.0Lizxvx5-TL^iLho -mz, t\n^m^^com^\tmLtz^^^izit, ztibittmznimxA t}t\^x^7Lhxhh7-h%, mmizitmmMKmzitNixmntzmzzzo ZCOU&JCO tztb\Z, SWATT'fi, PlWXflimt2>ttfto&}%r-9£Kl:&lXJb2>o Ztllt, READMASS
t STERM t^7 2^C0n®)yJ7*y])X*)^X, Ztlftl, IfC^M i <££P#CO&g£^-x_
ZtzfriZim-fZo
4.3.1 READMASS y -f 7)'y *J
READMASS library it, |s|f£#:<7)J!§C^ft£j^«&&tr tz#)<n 7 4 7*7 ]) Xhh0 Zflit,
fcj-imm&ztmtzmizimzti&o miztatzr-9it, BNL OWWW -y—A-
READMASS library imifttZiZlt, m^MHt^th^^^hho t%t>*>, READMASS Library CD subroutine tf%&AZ * - y°y-$h 7 r -OU&Jtg? L f c l t f t t f f c k V*o
tz£x.l£, Zcoyr j )lrf,
/home/codes/swat/readmass/ms
« ' M READMASS $:, csh fcfljffl LTV»4 <7)T-*;fltf,
setenv READMASS /home/codes/swat/readmass/ms
READMASS 7*7*7'J fclfcffiLfc^Jir&Cli, SWAT (D*yy")V-+>[zis\.^X, % ^titz(hh\At^7LXh^tz)%%.W, Ummz^y YZti&o
4.3.2 STEAM ^-T^'^ 'J
STEAM 7*7*7'J(i> B*W,^Mmpft\zis\.^Xffl%Ztifzmmin^vy-~'JlzA'3
t*o llTMFKfcit* PIE wISWKli, ^mtco^m^mtKh-hK ZCD7-9ZWM
- 2 6 -
JAERI-Data/Code 97-047
» M I ^ - C < &mt, ffifficomm±j%mtfhz>o SWAT xa, zco STEAM 7*77U zmm-t2>z.txmvr±.<D%)mt, immucontmit*B%iLx^z>0
STEAM )v-7-y*mfBL%^^&\zit, SWAT co(pizftMZtix^z>&U&&izis
JAERIData/Code 97047
SWAT it, SRAC t ORIGEN2 coW$.L£"f£ 3 Y~X&Z>0 ZcotztbiZ, \Xitiit
ORIGEN2 t SRAC coy 4 >)),-•?■> ^ 7 ^ f ^ L T f l J f f l L T i > / : [5, 6]0 Lri*Lfc
#£>, ORIGEN2 !i <h *> ^ < , SRAC itht •) C f l ^ ^ 3 KA7 7" y f * •), hfE<7)
X7%y?mxit, y°fyl»tfA^ < fcijfr*, *fc, SRAC «3!>&o/ji§£UI±, MoggMfc, SWAT t; U y9 Ltzy-7y°u ?y ^iZ^myLKijtilSKh?, W£coty # ' & > o i o t , UNIX (7) system M&fcflJfflLfc, r W ^ v ^ ^ T O Y i L J M
fcejflgt L/Jo f t(±, ORIGEN2 <h SRAC £ SWAT ^faiz LINK J f r fC, 0? tfHJ L
Tl£fflf£«e&£0 : m : J ; ^ SRAC <7)f£iHu»& <*«fi£nTI6Ui*0 SWATT
( i , SRAC \zXZ$T%.tfe%$:, jtf)X-lt%< PDS file U access 1&*tM#"CV>&7t*!>
U, ( 7 ) j ; ^ ^ y ^ p T f ^ : ^ o / : 0 i o t , SRAC (7) PDS file O B j f r & ^ M K i ' b f c v ^
? •), SWAT l± SRAC OfJg&t6£flJffi nTj|gC**o
^OHSB^v i ^ l i , Jir± SRAC t ORIGEN2 ODftm LlM$fflnTt6T*o t \ swat O make £ f H E 8 ^ preprocessor ffl<7)£^U&l>T, USERSRAC <t USER0RI2
£5EIIU 3^K, SRAC95 Zfem-tMS, ^ f i i : W £ L t v x ^ n ^ 7 A ^ # ^ i
5.i ^a^vi^sis^rswaisEft ^ G ^ v x ^ ^ f £ H ( ± , SRAC fflW SRACMOD , <? L T 0RIGEN2 ffl(7) ORI2MOD
(7)2 oc7)ifit^m^fijffl-r^o csh CO shell script <7) + T\
setenv SRACMD / codes / s rac / s rac_scr ip t
setenv 0RI2M0D /codes/origen2/origen2_script
coX7iz, ftifeZirtiif iv>0 ^tifp script <r>mithtizf^ir0
- 2 8 -
JAERI-Data/Code 97-047
6 \ t ) ? - 2
AJJT- 9<nmW*&T£ftn o SWAT <DAljr-9itA^ <frlfZ£,
1. 7 r^ ;b^f5£
2. SWAT - ten> Yu~)l
3. SRAC coAti^y Yu-)V
4. fff-tftfj $ t i ^ . ; t y i - i K 7 ) 3 > Yu-)V
5. ' B M S n > b o - )V
6. Zcoi&coilhmUife^yYu-Jl
<7)6'*-Yfrb%Zo yr-i^coi^^lXmt, f<X, SRAC t |W|&W7 V - 7 * -
-77 bA^^nrtg-c***o &TK, At}r-9coMW£ii7o
- 2 9 -
JAERI-Data/Code 97-047
6.1 7 7 <-MBJ£
Zco;S- Yit, SRAC £ SWAT Library Wj&gfcfHo ±iZ7y\LtzX 7 iZ, SWAT
it, SRAC UioTf t f i f cS t i f c PDS file IZW.&7 9-kZ* IX, T * - ? M ? # 1 - & 0 t
tz, SRACXMjf)Wit>ti^^mmntr-9it, SWAT Library cor-9 £f£ffli-&0 : :
6.1.1 PDSfile <7)*g3l:tz*jit*a*Stta)S3l:
SRAC *mRlLtzzi\7%bWft%\tz'}:\t!g,7tf, SRAC KfcltS PDS file nftfclt, 'g'JiMiZit, directory <D Full Path £ffiS1~£ - £ T * * £ 0 ft&#£*{i* MEMBER t
n^ t f t l* file t L T , -?-W directory WBSTK'ifd&S ti&o
ZX, ~16L\Z, PDS file (!&IZ Public Library tP^ l f tL* SRAC <7)&il7 r >f Jl/) ! i ,
* f i : ^ ^ > / : « 6 i : > &&w*ijffl#ri*|aj C t w£j£ffl1-<&0 X^X, ^co Path (i, SRAC £ install L f c ^ f f t o T L J v * , /f^TNfc£0 £ £ , i — t f - ^ ^ ^ i - * PDS file *>,
directory WlSfife± (SS&fc local W file system hUffrS Ltzfitf&^'COX), Path fcggx.
: w i 7 ftiii'kiz, i-^xtnt+l&r-ziz&^x PDS file C0\ZW*, Full Path T-Jg 7Ei-^^!i, nn^nimizt^xitmn^m^^h^o %<ntz#>\z, SWAT - t ^ i i n ^ &£j£ff lLT PDS file Wf£g£j&j£1-£0 1-&fr*>, Table 6.1 \Z7fiLtz$ i<r>W&£&
£fgffl1"^o 4?& < £ i , ^* l^<0 3 o « directory liHfr<Ofljj{;#£ LTV>fcltfttf & £
Table 6.1: PDS file %fc<Dtz#) CO»^& %%%%£I rt£
PBLIB Public Library <0*fe^ PATH (FASTP, THETMALP MCROSSP)
USLIB User Library C0&M PATH (FASTU,THERMALU)
OULIB ^rcomco User Library co$>tt PATH MACRO,MICREF,FLUX,MACROWRK,UMCROSS)
tztz.lt, ^ f t l " * PUBLIC FAST file O j & g K i J ^ T , fastp £ directory £?!>*
Jt5e3*U PBLIB d*/vork/srac95/pdsdir / t J |5e$ *iTV>£ £ <b,
- 3 0 -
JAERIData/Code 97047
/vork/srac95/pdsdir / fas tp t^7 directory^ PUBLIC FAST file coyyy<-tfU
#£tl"C"V">& directory tft&o ZCO, /work/srac95/pdsdir / fastp 11^ directory
it, SWAT COm^COwiiZ, &&lX^%imi£%h%\;^o
ttz, USER FAST file CO^^iZlt, USLIB tfj%%2tl&tf, ^tL7i?/home/srac95/
tftifcZtl, USER FAST file C0^^.iZiS^X, fastu t directory fcjW&^Stt&fc
h, /home/srac95/fastu tf USER FAST Library coy >><;&*&# 3 ft* o ZCO,
/home/srac95/fastu *>, ^'rtCDmiZft&LX^Zlitlifbhb^o
Zhiz, &&<7)mtifflM-<n&%:Ztfift-fZtzif)llz, SWATitBM7-rvy°izX^Xik
^ £ fl To 7-- 7. % £ f # o sub directory ^ M t i ^ ^ i o i t L l i , OULIB K «fc o T Ji
£ 3 * 1 * PDSfileWffi^TMs&JflStt&o i ^ a * ( i > OULIB C*g5£3*1* fcWIi, —«tld
*<Dff#Kia;£w & w e * & > ■?* h 60
tzt?Uf, M 1 " & MICREF file CD^fciZisv*t\ micref fc directory £ # * § £ 3
ft, OULIB 75s/tmp/pdsdir/ fcf&5£3;HTj3 «K 7--7%tf CCCl X&Z>% h,
/tmp/pdsdir/CCCl/micref t\**7 directory tf MICREF file COy > / < T W £ # 3 ft&
directory t%&0 ZCO^^it, / tmp/pdsdir/ T ! / ? # £ L t V & l t t t t f f c h &V^0
^tKbcT), » ' £ £ f c ( 2 , SWAT ^ H R R t r n f f t S shell script <D*TN ^%^-fhco
tf-~Wl.WXhh7o itzii, loginshell 0 ^ 7 7 ^ ^ t , *&5eLT fc^fibiv^
csh £1£fflLTW&c7)e&tU£\
setenv PBLIB /home/codes/srac/publ ic l ib/
6.1.2 P D S file m directory (D g Uf^j£ t Mfc
SRAC jM$ffit& PDS file itBAX&Zo tCDtz&iZ, W l C i o f c PDS file 12
£S8MK8IJ&£LCJ3< £ £ # £ £ Lv^o ftlz, SWAT "C12glb^H PDS file £ M L T
W</;tf>^ ;&»£ • ) » * £ * £ > disk £j£ffl1&0 3 t « & OULIB C ^ ^ ^ t L ^ PDS file
it, &M#j*l\n\Z X Z> t , 6.1 M Byte/ ( step £fc x mfaffi&&) X$>Z0 X^X, BM
5PUBLIC Library i © m « T ' * i **:ti\z¥Gm*-t&t USER Library t f x . t ' k USLIB ?J&563:ftS *0>Ji, i ^ J ^ T O ^ J M
>P2?e*£^#v>0 i o t , USLIB ?%i'£Ztl2> PDS Directory <7>Ji5£C(J, ^ ^ . ^ ^ ^ o sub direc
tory l i f t S L i v w c i i o
3 1
JAERIData/Code 97047
mt&&tmMZTyzftf&\,*m&izit, disk ®m^%.tz>&msnztiz>0 ttz, % a ± quota iW1X^&*M YtctXit disk gftWfflRRWfc*KftJltf*ffi5fc£ < ^*"Tf^
1*75***0
i o t , SWATT^(2, OULIB \zXoXfgfeZtitz PDS directory C0TC0T--7%*
%+& directory *&W!tfiiZft&lX7r-%lZtj:^tzft&XWm+&Wlt&:G:%LX^Z0 Zfl it, SWAT CO make £ ? f ■ ? # £ ■ £ , preprocessor XCO^^iZiS^^X RMPREVDIR ^ ^ S 1 "
&¥"C^S3* i& 0
6.1.3 xtxDmm
CARD 1| 3 y y Y ft /A80/
CARD 21 PDS file PUBLIC LIBRARY(FAST group) /10X,A8,5X,A1,5X,A1/
PDS file C0^m%&t7--7%Xl%7£Ztitzmz®i<U7r* 8 St^lftXifelZ -tho ZLX, PDS file \Z access t&tifCO*- Y'^co 2 i ^ ^ ^ S t * o ZCO
ftiJZit, SRAC95C0ZfrtmffiX&Z>o X^X, mi<it, JAERIData/Code 96015 %%!®LX^fztz&tz^o tztzL, Public Library <M&&\Zit, file C
X^Xlxtti, STATUS (2 OLD t IX Access 3 fiZ>Q itz, SWAT X%&
M L & ^ P D S file ( tztx.it, MACRO ) (2, Scratch 7 r >f ;u t L X h o
M \ SRAC95 co%\%\k\Z file £5$3fcv*J: ^ Kt*<Wft££>ie5ii14£>tg£ T ^ t & t M * U > U MICREF * FLUX £> J: T K , SWAT *** i: "C^ffl 1 * ^ ? 5 * t ) ^ o C V ^ PDS file (2, file79-teZ\Z£t)7 9-bZLX, 7 r >f
;w::f?£5$3&it*U3rfc<bfcv\, ioT, : ; t ^ f t n : ^ * ^ i v > m&izit (tZ4ot>7y y 9 tthif), Vk±.&'<tz£7iz&9b&}iz%fe2tiZ>0
i o t , # t : ^ S w * v ^ ^ H ( 2 , Jg5£L&v*.l££t&i&*o WT\ CARD 2 ^g? | CARD 11|12, | 0 ] ^ t : PDS file W j g ^ f c f i ^ o
21 FNAME /A8/
PDS file ( Public Fast Library ) CO Directory %
22 FSTATUS / A l /
- 3 2 -
JAERI-Data/Code 97-047
PDS file Public Fast Library COi%#^- K
• = O i"C{;#^EL-CV>*
• =S 79 yyy-7 r J )lt iXimfcimxZ
2-3 ACSMODE / A l /
PDS file Public Fast Library ^CO access -=E- K
• = F 7 r -Y;M^7y--t:Xl-&
• = c ^-t';±.cois.mPDS 7 7 ^ v ^ ^ 7 ^ - t x t ^
CARD 31 PDS file PUBLIC LIBRARY(THERMAL group) /10X,A8,5X,A1,5X,A1/
CARD 41 PDS file USER LIBRARY(FAST group) /10X,A8,5X,A1,5X,A1/
CARD 51 PDS file USER LIBRARY(THERMAL group) /10X,A8,5X,A1,5X,A1/
CARD 6| PDS file USER LIBRARY(macro working file) /10X,A8,5X,A1,5X,A1/
CARD 71 PDS file USER LIBRARY(flux file) /10X,A8,5X,A1,5X,A1/
CARD 81 PDS file USER LIBRARY(macro file) /10X,A8,5X,A1,5X,A1/
CARD 91 PDS file PUBLIC LIBRARY(mcross file) /10X,A8,5X,Al,5X,Al/
CARD 101 PDS file USER LIBRARY(micro effective file) /10X,A8,5X,A1,5X,A1/
- 3 3 -
JAERI-Data/Code 97-047
CARD 111 PDS file USER LIBRARY(mcross file) /10X,A8,5X,Al,5X,Al/
CARD 12 | 3 y y Y ft /A80/
CARD 131 FT93 / 8X, A80/
7 91-y 4 Kffi SWAT 7 ' f 7 " 7 , J 7 7 > f ^ 7 7 > f H
CARD 141 FT94 / 8X,A80/
myrUtn® SWAT 7 ^ 7 ' J 7 r ^ ^ 7 7 ^ ^
CARD 15 | FT95 / 8X,A80/
ORIGEN2 <n*>) i/t)immmy ^( y"y ]) coy r 4 )i^0 SWAT izis^^xit, ZZXftfcZtitz ORIGEN2 7 4--V7 v<ny r 4 )v<n-miBimfikr-9 £, LIBMAK iz£vXfttfLZtitz-fttiimfaXAnmx.2>o X^X, mm&Vmyr ®wmr-9t:%ibl< itz*), &%.%tf<n&&<nffii&r-9 ij&m-tzmir iza, f w i L ^ 7 7 ^ ; ^ ^ ^ T l ^ t ^ o
ft, ZZX%i7E-tZ>y7 4 )lit, ORIGEN2 TMfcffi L T vȣ W 2: $^tz<mC
7 t - 7 7 YX, 1XTC0 NLB # ^ - ^ W L T ^ ^ ^ ^ m f $ | ^ L t i ^ o Table
6.2 K, NLB 1H|-£^1~o
CARD 16 I ?y y Y /A80/
CARD 17) FT10 /8X.A80/
ORIGEN2 TM£ffi-f&7* F > f - ^ 7 7 ^ H „ J l f t W ^ - v a >-C(2,
- 3 4 -
JAERI-Data/Code 97-047
Tab NLB
1 2 3
204 205 206
le 6.2: f£fflt& NLB # " t imr-9
tiLtoitsn&mnmmr-9 7 9^-y 4 Ycojwm.T-9 m7T%k$L$Lmcommr-9
MMt^^mcommm 791-y i Y'cowmm myrm^f&^commm
6.2 SWAT -fe=i> hP-;b
ORIGEN2 co&7£m%&1Jit, &n&fcco TSMJ Xhho L^L&# ? ^ ^co%co r~9\zymikft^tz\^^hho SWAT (2, \;*<ifrcomn)l~1-y*ljLXisV), si^s^i :Ltz&ij*mcomi. iz$z&tz>wx£2> 0 ttz, mmmr-9com®Kis ^xit, mmnZAti&z-%^'x^^wmnr-9xnMZft7mi>nmzLx\;^o zco ^9yByxit, ZtihcDftm^ftio
CARD is I 3 y y Y /A80/
CARD 19) 3 y y Y /A80 /
- - xgjjE. Ltz^yy Yit, SRAC co 3 y y Y t ORIGEN2 co^ 7 v- TMJ
- 3 5 -
JAERI-Data/Code 97-047
6.2.1 wtM^^iHt)
CARD 20 1 aj;frflHtP /20 I /
SWAT co^^comti^mmi-^o
20-1 SUMMARRY(l) HI
ztincoBmmco&mmconw (g)
• =0 ftyjL£^
• =1 ft7j-r&
20-2 SUMMARRY(2) HI
zixncDBmmcD&m&faco'Micom (g)
• = 0 a U j L £ i >
• = i ttiti-fZ
20-3 SUMMARRYQ) / I /
Z1x?1x<nmfcmt&x~<n&mfofc<nft1tm&(%)
• = 0 ft7jL£^
• = i &7j - r&
20-4 SUMMARRY(4) / I /
Zti^ticomtLfoco mg/gU02 (OECD/NEA/BUC Phase-IB ^ > f v - ^ f f l )
• = 0 ftyjLft^
• = l ft7J-T£
20-5 SUMMARRY(5) / I /
^^I^tic7)(0]f5#:c7) mCi/gU02 (OECD/NEA/BUC Phase-IB ^ > f v - ^
ffl)
- 3 6 -
JAERI-Data/Code 97-047
• =0 ffl^L&v*
• = i m # - r *
20-6 SUMMARRY(6) HI
zti?ti<vmm<7yBmm?tcD%mzmrm L / : R I (g)
• = o aujL&v>
• = i m # - r *
20-7 SUMMARRY(7) HI
mitmi) (n*<D*m<r>tz*>)
20-8 SUMMARRY(8) HI
W&mj) (n*<r>$M<r>tz*>)
20-9 SUMMARRYC9) HI
m±mh (w*coimcotz>o)
20-10 SUMMARRY(lO) HI
mmn (n*<o\m<r>tz*>)
20-11 SUMMARRY(ll) HI
m&mi) (n^coimcotztb)
20-12 SUMMARRY(12) HI
m&mi) (w*<r>*m<r>tz*>)
20-13 SUMMARRY(13) HI
ffl£*m (n*<r>$M<r>tz*>)
20-14 SUMMARRY(14) HI
mftrn® (m*cotmcotz>b)
- 3 7 -
JAERI-Data/Code 97-047
20-15 SUMMARRY(15) HI
mi.mi) (n%<r>im<r>tztb)
20-16 SUMMARRY(16) HI
m&mi) (imootmootzib)
20-17 SUMMARRY(17) / I /
* ! # M (ft*<n&ffi<r>tzit))
20-18 SUMMARRY(18) / I /
JjtftM (Wk<r>im<r>tztb)
20-19 SUMMARRY(19) HI
i$A±mi) (n*<r>$M<ntztb)
20-20 SUMMARRY(20) / I /
iJltiMM (M^coSfc&cotztb)
- 3 8 -
JAERI-Data/Code 97-047
6.2.2 7 < ^ 7 U -
CARD 211 7^7*7 U ~W$ /SI/
ZC07J- Y'X, y J yy i) com^wmmcoW£®:lizffli-Z>%i7Z$:ft7
21-1 XSLIB HI
mfrm^f&Wmmr-9y jyy i)coM^mfct&o ORIGEN2 mmcoyj yy')t, JNDCFP y4yy^m2mLfrhftfcLtzi>C0i)m&ifcXh?oo
• = o ORIGEN2 mmy^yy1) (874 mm)
• = i J N D C F P 7 4 7*7 >; ^ 2mfrhft$.Ltzmmy 4 yy>; (1227mm)
21-2 LIB / I /
7 9 f- 7 ^ Kffl SWAT 7 ^ 7*7 V coftiTZo IR&it, JENDL-3.2 / i t t « f f l oT
ft£o -ftfe<7) (7)(2, S £ # j £ i ; i * L ^ & v ^ \ ENDF/B-VI Hov^Tl2ifiH ^iz
ftm-f&'fTZo X-oX, Mttit, 1 *%%.LX&<Z.to
• = 0 ENDF/B-V + JENDL-2
• = 1 JENDL-3.2
• = 2 ENDF/B-VI
• = 3 ENDF/B-VI + JENDL-3.1
21-3 DUMMY HI
FP m SWAT 7 >f 7*7 U O ^ g 0 &&it, JENDL-3.2 tzifWfem n$&0 ENDF/B-
VI izmLXltftfc-t&^fctfh&o X^XMfeit, ftiz 1%%%.LX&<Z. t0
• = 0 ENDF/B-V + JENDL-2(te$j)
• = 1 JENDL-3.2
• = 2 ENDF/B-VI(M)
• = 3 ENDF/B-VI + JENDL-3.1(te$j)
- 3 9 -
JAERI-Data/Code 97-047
21-4 XSSHOW(l) HI
PDS file iZ7 9*x£ltzftcomWL*^tZ>frl%^'fr£mtRo r-9£M %Ltzy y^-^mt^7r^fiio
• = o ^ p L f c v *
• = 1 ^ky^-$h
21-5 XSSH0W(2) HI
SRAC izxzmmmmxm£&tzmcommz^t&fri%^^zmjiRt Z> o
• = o ^7FL&v>
• = 1 W\\-$h
21-6 XSSHOWO) HI
7 9 +J 4 Y'CO-ffiWimffiZ^t&frltc^'frcomtRo fe&tZ> swat2ori2£ femt&iSi&iZlt, 1 izixis<zt0
• =0 ^ /TL^i '
• = 1 %7T<-f/b
21-7 XSSH0W(4) HI
m7rU£j&WC0-&mffim*^-fZ>frl%\<^frC0mtRo M t £ swat2ori2 £ fem-mk&izit, lizLx&izto
• = 0 ^ L £ v >
• = 1 W\\-$h
21-8 ACTILIB / 1/
7 9^-y A r-'UfflL-C, LIBMAK ^fiu£LfcH£Kfffi«l£tefflt* ri*Lfcv>
^©SJR. ffifflLiv^, CARD i5-C*&5EL£7 7>f;H;:!f i i6L-C**7'-* **cott\m-$ho -$+**>*>, LIBMAK-Cft*Lfcig*{i4Sffi3tL*o
- 4 0 -
JAERI-Data/Code 97-047
• = 1 teffl-r*
21-9 FPLIB HI
myr$i:±mzmLX, LIBMAK tM^$ L / — M M ^ f f l - f &rt>L£v>
^ S « o f f f l L ^ V ^ , CARD 15Tj&SLfc77>f ^Ufe&L-C**-?*-* S : f w n f f f l t 4 o t£ ;b*> , LIBMAK xnnitz&%itm%2tiZ>o
• = 0f$ffiL&v>
• = i \tm-fh
21-10 SLIBM / 1/
' W ? * ' ^ WKAJ&5EO - jRUJi , SRAC -Cft» 3 fifc ^ 1 4 ^ - 7 ^ 7- Mi/£
imixmmmzftntf, ^^^umza^xu, U S E R ^ H L / ^ I ^ 7,^9 YfrZmmLXtmZft^'tz^'Wifttfh&o ZZXit, ZcotztbcoWU Zft7o ^Mitl tlX, SRAC nffltLtz, ^^^7^9 Y)V*i&mLXm mtn*ft7o 0 Zftfc-t&t, CARD 67tf&%iZt£&0 tztzL, OtLX
i>, SRAC izxht\ntf>\*vyztihfoi7Xit?£^^ %i&mmik*femL.tz
• = 0 USER ^mco^^^-7^9 Y )l^itm-tio
• = 1 SRAC xnmtztpr±?X'<9 W ^ ^ f f i t £ 0
- 4 1 -
JAERI-Data/Code 97-047
6.3 SRAC <7)A7J=I> h P - ; u
Zco-t9's3 yXit, SRAC C0At)iZ&mf£r-9*ty<lAZ5-k.Z><
6.3.1 SRAC ?-*
CARD 221 SRAC -isitom*yy 3 > /201/
: « * - K l i , SRAC W-«feiWJtlpfciofc<l^i:7'-^ !g:4x.4o -tftfr*> JAERI-Data/Code 96-015 W BLOCK 3 X'fgfct* 20 l@<0ggfc£4x.&o
f¥L<ti JAERI-Data/Code 96-015 £l.-C&Lv»o ZZXii, ±£fr%m&$: ^ U o StfiW SWAT (2, SRAC W H ^ t t f i ^ M £ i r ^ « & i ; : 2 . o T
22-1 IC(1) / I /
• =0f$ffiL£v>
• =i femt*
22-2 IC(2) / I /
T » < 0
=0 ^<o;i /- f->M£ff iL&V'
=1 mmmmk =2 ANISN
=3 TWOTRAN
=4TUD
=5 CITATION
22-3 ICO) HI
9-y^y%m\Wcoyu-t7,(r)miR
- 4 2 -
JAERI-Data/Code 97-047
• =o -?r'J7;W§gA#-fe?v3 yxcoAtim • =1 mmmmzx^xtm-th • =2 Tone colj&xt\%1r h (\z y 9 4 ycoBMizimfc^)
22-4 IC(4) HI
Z^^JV^^MCO^^.
• =0 M&fficofr
• =1 ^ ^ ^ ; b ^ f g | g
22-5 IC(5) HI
%2 &m^*'^^mizisiiz^mmmmm^mcomiKo (pj mxh&Kh 2 &&W(2-2 *%iK.Ltz{l7i)iX^)
• =0NRi5Ja^So '< Bondarenko Sir-7*^[*Hf
• =1 IR JfiflJU;*^ < r-7*;H^*¥
• =2 j@M#ffi£fi£^& ( PEACO ^ - - r >1£ffl )
• =-2 Mim&m^mmii;( PEACO ^--r>i£ffl )D tew^
22-6 IC(6) /I/
t§5EMH (ic(2) > o) tz&^x, wmmcoPM^mtzftn fri?7 fro
• =o#7Kft;L&v>
• =1 IC(7) X%fetZs\J&X£jnik1rZ>
22-7 IC(7) / I /
S ^ i S ^ S ^ i s f t & ^ x ^ ^ ^ f e H - c w ^ t t ^ ^ ^ ^ l F f i l l i ^ ^ o ffl# (2, f W x ^ ; u ^ f 6 H i f t S t ? * * S W 7 & * M i L v ^ - C * , IC(7)=4 t IXis <0 < fr L < i2, JAERI-Data/Code96-015 £#BBt&*o
- 4 3 -
JAERI-Data/Code 97-047
22-8 IC(8) HI
PEACO xmmtZ> MCROSS yjyyi)cozz.^>i¥$.mtzz.*)i¥
y -y's3-ComtR(IC(5)=±2 con\Z^ty)
• =0 130.07 eV ( V t v - ( @ 0.00125 ) ~ cut off
• =1 961.12 eV (V^rV-% 0.000625 )~ 130.07 eV ( U ^ v - * S
0.00125 )~ cut off
• =2 961.12 eV (VtV-%% 0.0005 )~ cut off
• =3 961.12 eV ( U ^ v - i p g 0.000250 )~ 130.07 eV(U^v-ip@
0.0005 ) ~ cut off
22-9 ICO) HI
HOMOSP/HOMOFP )l-+ > \Z X ^ t e f f l ^ M M M ^ f f i L
nxmhtitz POI&7T?>'<9 hktfmmztiZo 1-%*>*>, m^mm conmt, m&fc&xtmzztizfr, ^y9')yy\zxh\\nco^ %fr\ ZCOty'sa >iZ£iXM*) Atihti&o
• = 0 7 * 7 7 °
• =±1 Pi &M
• =±2 Bl jftift
• =±11 PI &UIZ £&&%'*'? 9 'J >^*^-f-
• =±12 Bl &mz£2>TS&R/*'y9 'J > ^ - f -
22-10 IC(10) HI
IC(12) -C^Je-r-SH^rlitftltOffU, MACROWRK Wlfflffvy-
n » f ® * f £ M # j L - C MACRO 7 r 1 )i>\zU®t ZfrLtt^fro IC(10)
i: IC(13) 7&5#U 1 -C-*o-Clifcfcfcv*0
• =0 7 * 7 7°1" &
- 4 4 -
JAERI-Data/Code 97-047
• =1 mmtz
22-11 IC(ll) HI
&m%L*%mAijir2>friz\<*fro ( SWAT xit^iz^mAti)
• =0%f%LAt)t2>
• =immAD*£-r, mcoy~7,trmcommw*imt&
22-12 IC(12) 111
£zr-*)i,¥-mz£&mGmfflMtLx, HT«^f>-ci<0 (
« S W A T lift/ft L-Cv>&v> )
=0 t~co)V- + yt>\tmLf£^ =±i mimmk =±2 ANISN
=3 TWOTRAN
=4TUD
=5 CITATION
IC(12)=-1 t-t&t, FLUX CO^CO caseAbSp COT.^9 h frZftU
mm:MAtt2>£mizxzmfeMFmtLxM<o ic(i2)=-2 *m
22-13 IC(13) HI
IC(12) X%i%.Ltzm%m\%coJbtX, MACROWRK co~? 9 n»f M £ M ^ L T MACRO 7r>f;W:fil|FtS^L«:v»^0
• =0X + 7 7 ' t 4 • =1 st^-r &
22-14 IC(14) 111
- 4 5 -
JAERI-Data/Code 97-047
* 'J v t ; b CITATION fflw»fffijfcf1:jft*7p>' a >Q SRAC faMX (2£v> CITATION £{£fflt ££#>0 $ # 3 1 1 : 7 7 ^ ^ 1 ^ ? ft£0 CITATION A*-b^v3>T*ffiJ£A***)o (SWAT12CCO A#{::*tlfcLTv>£v> )
• =o X * 7 7" t4
• =1 M/f £
22-15 IC(15) / I /
• =± I £mmm<?>ttmffimT-w*wixftj&irz> Gt,g = GUgft<g
• =± 2 &J£E£<7)3IS&Wf S o f f i t L T M t £
ic(i5)=i <nm&izit, ^mmmfri%tfztiz>x7iz, g r a & m St<7)ffi*JISS3H*o ^ii'JFWJStffTMi, IC(15)=1 Xhho m^co MVfxit, 4j%,%mtf£\<>o fwmiz-tzt, mx.*)],¥-frbmw-
zr-*)l¥-^<Dt1jWL%Lt:&&WL&iZ$it>Z>ftQk$:rr7o
22-16 IC(16) HI
%F7ij&m>i<—+>x&m%&-?7- >; 7)ico-?9 u&mmmmcDftf&ij
• =o imm&ftw £<r,g = ^0,g ~ 2 ^ ^l,g-»g'
9'
fc£L, ^ R l M f t J T W , ^ i : E ( r , = E0]9 <!:3ft£o
• =1 P, mmWi-X tjf fig;
£<r,g = £0,9 - 2J l,9'-»9 ( ~j~ J • =2B, jfiiBLftfttw J: 19^^
£<r,g = S0>9 - 2 J ^l,g'-»9 I j ~ I
- 4 6 -
JAERI-Data/Code 97-047
• ^ ^ ^ s n t t i r m ^ m f t (ic(i2)=-2 t-thzt) Ztr,g = S0)ff - 2 ^ £l,g'->g ( -J- J
22-17 IC(17) HI
&®L%&<oimt&mto<Djjfe0 mtmitw;%L&&fti&ij&i:, JEP. imn%&. tY-9 )vmmmm<om * &%.+h 0
> 0 cot%&
Y.D.*. , Eg-D _ geG 1_ _ g€G^t,g
E ^ s 'E*-9 E ^ J geG geG
• <o corns E ^ E s ^ ,
1 _ 9EG g V - 9€G — ' ^t,g -D° 5 > , ' l'9 E ^ geG geG
• ±i mmwmmoomtkt L-c-Mt* D*=3^g
• ± 2 Benoist ^r'^co Behrens i^coWtj^yrt L t M t ^ o -
coty-yzyit, fi%mm&tffem2titzmzG%}iz%2>0 P £^.9 E ^r^
• ± 3 Benoist ^T^co Behrens l&co^jjf&frt L T M t ^ o
zcoty^a yu, m^m&frfemztitzmz^mztt&o E<A>9 E ^rL
n _ j ^ J k>f> - — q r , „
3 Z , <Pn >>9
JJlft SWAT (2, 'h&ffitmt comfit*%z_X\;^£^tz&iZ, Zcot yy 3 yitmn&)izmjjx&z>o
22-18 IC(18) HI
Kfcmm*yy3 >
• = 0 7 ^ 7 7 °
- 4 7 -
JAERI-Data/Code 97-047
• =1 j fcES^fcft j r- t*
SWAT XitMfclX^tc^o X^X, Mt, SWAT Xfti&Ztitz SRAC coAt)£i> tiZZCotztbco®££lXfrh, SRAC con%ft £ft7 Lfr%^\
22-19 IC(19) 11/
-79 n%ftmnif}&^-+y (MACROF,MACROT,PlBl,HOMOSP,IRA,PEACO
) xcotatimm
• =0 fsmti}^
• =1 im&ti
22-20 IC(2Q) HI
tefBmmtyy a ><7)#f5g0 ( SWAT l i : « A / j f M i : ^ L t v» i v» )
• = 0 X ^ 7 7 °
• =1 «ffifc&ft*£?f-5
CARD 23 I ^ ( P J ' ^ W ^ ' 7 ? U > ?* (1/cm2) /E /
23-1 BUCKLING / E /
- 4 8 -
JAERI-Data/Code 97-047
6.3.2 +1$^*^? YMzmtzinn CARD 24 J x ^ l / ^ S K K I - a l ^ /3I/
24-1 IFAST /I/
24-2 ITHERMAL / 1/
24-3 LETH / 1/
SRAC t ; ^ v ^ - r ^ f f i 3 t L / c 4 J t t ? 7 ^ ^ r-;i/(**v>(i, USER 5efg<o#14^-
T ( t i 7 j 3 t i ^ 4 J t t ? - 7 ^ ^ WW2, U^y-(@75J«rtt-C*-6*75f*-60 SWAT coftUco&mizis^^Xit, (pr±IFZ'<9 Y frizu*ri/-UfrfrfriX^^£\s^ $:1RfcLX\<->&tf, S i v i - y 3 > « SRAC Xit^KfrM^t^^£^fr^)^ tzcox, i i ^ o J I ^ c L T v ^ o 3i£-C(2M£W&*P*L^&v>0 l izLXisi
• = 0 i i j ^&v^
• = 1 §ij&
CARD 25 | &&&<DffilfyJ87r- 9 /IFAST 1/
C1W T * - ? (2 IFAST + ITHERAL^ 107 ^ | : £ « I i : 4 4o 'JMRlSf ~ fc H, M
#<OfflMR£ IFAST 1B*&3£1-4o
CARD 261 f&Mcoffifom% /IFAST I/
ZC0T'-9it IFAST + ITHERAL/ 107 COtffiZ&mtZ&o 'bRftZTt IZ, M
&CO&%L* ITHERMAL 1B*t5e1-*o
CARD 25 t CARD 26 itm±.?%%^X&Z>COX\tm LX12& h & V>0
IFAST + ITHERAL = 107 -C<t l t ff t £> &V>0
1-&fr*>,
- 4 9 -
JAERI-Data/Code 97-047
6.3.3 ffi£m&aig|ffii£«R£MItt£J[
CARD 271 mmmmmcoumtBMmmk /m/
ZCOi)- Y'CO 1 frh 18 iig tXC0r-9it, JAERI-Data/Code 96-015 com
^mmmcotzibco^^.tn-xhi>o i9fsgc swAT#mwf-?7m<o
27-1 IGT 111
mmm9 4y
= 1 ->k7£*t
= 2 - ^ A 7 C «
= 3 -^ATCRIWI
= 4 W\<mfrmiz X ZiEtjfe+
= 5 Lzfrftfrmiz x ?b£m§+-
= 6 Iwj^H^fJCJ^iEA&teT
= 7 -&7C#tPJK«t*IEAftt&?-
= 8X-Y^SiJi;«t* 45 ° *rftjE0ft*&tt
= 9 tf>n-y Y'*WMLtzX-Y/Jy%\iz£h 45 ° *JifaEffl^*£-ft
= 10 fcf > n 7 K £ W S d f i L £Sft:|**£#
= 11 \£yu-y yzmmmwitzmik%&&
= 12 t">D7 mpHfa&mLtzxftyk&fc = 13 X-Y ^'J 7 Y*&iz\zyn-y K ^ S d f i L / c f t / ^ i l ^ f t
= 14 tf>o-y KfcAftte^-KKfiL £ * £ * £ • #
= 15 H£M r / i / ' J 7 K*tctT>n<y Kfc&gL £ * £ * £ • #
= 16 X-Y 9~V 7 K^ictf > n <y K£B£itLfc 1/4 * M f c £ # B £ £ #
27-2 NZ / I /
- 5 0 -
JAERI-Data/Code 97-047
sub-region Wlito sub-region 12, JfaitzitHiZ £-oXfrZ ttltzWchCOWX
<h%>0
W--^y^)V^T)VCO^^[Zit, Fig. 6.1 K ^ Ltzo ZC0&1Xit, NZ (2 5 X
<h%>0
IGT=9 coMit, Fig. 6.2 iZ^LtZo ZCoMXit, NZ (2 30 Xhha
Figure 6.1: One dimensional circular cylindrical of multi-shell
27-3 _NR HI
T-region <7)£fc0 T-region (2, V* < ofrCO sub-region frh $L o X V h 0
27-4 NRR HI
R-region <D&&0 R-Region (2, V>< -DfrCO T-region frhffc-oX^^&o
27-5 NXR HI
X-region <M&M0 X-region (2, ^ < -DfrCO R-region frh&oX^&o ZCO X-
region fr h, Bm\%X\mt h «fffi*7*- 9 *%h 0
27-6 IBOUND / I /
• =0 1 73 MM (white reflection)
- 5 1 -
JAERI-Data/Code 97-047
10
^
Figure 6.2: Octant symmetric square pillar divided by X-Y coordinates with square array
of pin rods
- 5 2 -
JAERI-Data/Code 97-047
• = 1 5 c ^ r a - (Perfect reflection) 0 tztzL, IGT=2(lDslab) t tzit IGT=13(2D
X-Y pillar) ComSiZit, ^M (periodic) mW%ftfri£M 3 ft&0 IGT=15 XitmhXhho
• =2 mfo (Black)
• =-1 60 ° 13 *K (IGT=12 CO^SCOH)
27-7 _NX HI
X myiWyytm (IGT=2,8,9,13,15,16)
WJ ft fttij^ (IGT=1,3,4,5,6,7,10,11,12,14)
27-8 _NY 111
IGT=11,12,13,15,16 X^%j]
Y ^77^55-fiM (IGT=13,16)
M77l6]53«C(IGT=ll,12)
^nmsfc<Dnffiffii&yTm& (IGT=IS)
27-9 NTPIN HI
\zyuy K<7)« (IGT=9,10,11,12,13,14,15,16 XG%})0 SRAC95 C0i%& t it H£*K IGT=9 ComSX t>, ftfrX$miXAyj-lXiS< Zt0
IGT=10,ll,12-ei2, i ^ ^ # ± « R i ^ t " > D 7 Kt L t t i f , RX iZ £2>»%mtiLtk%to
IGT=14,15 COmSiZit, ^>km±-COP]m*^yu-y h't Lxrn^o
I G T = I 5 < 7 ) ^ ^ 60 ° tmx&zfr, &mfm&#.*<n\£>uy K W # » £ A
tl-tZo
27-10 NAPIN HI
IGT=9,10,14,15 Xfttj)
X $177 \ai<D \zyu-y Y*co$m (IGT=9 com)
Myu-y YiimhWitf\<»&0 tztzL, *>b$lit$£ fcv* (IGT=10)
- 5 3 -
JAERI-Data/Code 97-047
\zyv-y Yfrm&m'L^ffi&co&o tztzl, * 'kWl££tr(IGT=l4)
X mzmtZ'^ftS- 7 y a O » (IGT=15)o
27-11 NCELL HI
*&+<7>m.m*&7-m^*i&o
27-12 IEDPIJ HI
m^mmcoy) > Yty->3 >0
• =o 7°'J y Y l£v>
• =1 7'J y M"&
27-13 NGR HI
mtifa&mmfrizffltz, #7x*»#w#:&(iGT=2T-ii&sb)o mmmte-1 0 t * 4 o i i ^* l ^^ fmt^B#rB l l2 , iW^UJtffili-*o IGT = 8,9,13,15,16 -c(2, ^ 7 x f f i ^ i 2 ^ f f ^ i ^ i : g ^ ^ x ^ a , zcoma, zcofrmmztc&o
27-14 NDA / I /
n^ti^mumTrcon&mmizMt^Tr^mo I G T = 4 ~ I 6 T W ^ - C * * 0 «
27-15 NDPIN HI
\zyu-y KWg;frl6]5Hpj&o (IGT=9 ~ 16 T'W^)
27-16 IDIVP 111
RPP K J: ZmtMiRo (IGT= 9, 10, 11, 12, 14 Xfi$h)
• =0 RPP it^.iz\^yu -y Y'co¥'&iZ.W*7Ft0
• =i RPP 12 \zyu-y Y'cof&W.W^m'tt t i>iz, RX tmWiz, x ®
fifottzim^faco^mnmfrm^ftn o • =2 RPP it^hiz, \£yv-y K^&£rtg&fcWSM:#»t&o
- 5 4 -
JAERI-Data/Code 97-047
RX, TY H £ & M i i # ! (IGT=13,16 X^%±)
• =0 NTPIN ^ 0 comS, RX,TY iz£&&.&#&&&&£&%}t IX, \L
• =1 RX, TY iZ£Z>frm£tJ$1)ttZ>0 M'git, IDIVP = 1 t-fh0
27-17 IBETM HI
( IGT=4 ~ 16 XMt1))
imiEyife+'Zh 45 £, im^7\n^^-f£h 30 £, IBOUND = 1 tthlMco mco 2 fecomziXA-f&o ^nfoxhhtth, 360 *m%.-$z>0 ->kjtco^
Siza, mi)Xhz>o
27-18 IPLOT / 1/
mmmyuy Ytyysy
• =0 7°n 7 h L&v>
• = l ^ D " 7 l > t 4
27-19 IBNODE / 1/
^*i(2, SWATc75A^r!|fWwfit:'*^o BMffim&ZiXAt&o hi, u o 2 , ft«fl\ ^i(]tfM^c75 3||itc75-b^-t:\ m&coBMffii$.$:i%®lf£^coX&Z> t£h, BMffimt 1X&&0
CARD 28[ NREG /NZ 1/
# sub-region iZijfotZ T-regin c^-ja- (Required if NR < NZ)
CARD 29) IRR /NR 1/
& T-region IZftfc-f & R-region <7)fHr ( Required if NRR < NR)
- 5 5 -
JAERI-Data/Code 97-047
CARD 30 1IXR /NRR 1/
& R-region Zltco X-region # ^ (Required if NXR < NRR)
CARD 311 MAR /NRR/
& R-region I ' ^ v f ' J 7 ^ (t/K) O # ^ 0 v-f 'J T;K^#-^l i , SWAT <T>
WKftiTE.conmizK&o *&&&&& btSfiZlX^vtzfitf^i Li>0
CARD 32 I NPIN /NAPIN/
IGT=10, 14 X NAPIN ^ 0 comSiZ^
IGT=10 com, ^'^tcO^Wit NTPIN i;£tf>£v>
IGT=14 coiisSit, rp'khcoFimt NTPIN K-frA-So £tz, IGT=14 X, NPIN(l) =0 t-tht, ?7 *)V Y\$.fr%i7£.Zti?bo
CARD 331 RX /NX+1/
^mmutiztmix, x mmyrtrnw., *kfr%<r>mifaftm¥®> ttz it, J&Rtxnmm* cm %L&xm-t0 tztzl, # t ; RX(i)=0o
CARD 34 I TY /NY/
IGT=11,12 X, NY > 1 wEr'g-UMo
CARD 35 | TY /NY+1/
IGT=13,16 O ^ I ^ H ^ ^
Y«Lfr|fi]##H£g& cm Wi-C^I-o # K , TY(1)=0
- 5 6 -
JAERI-Data/Code 97-047
CARD 36|TY /NY+1/
IGT=15 comSiZ&^o IGT=15 comSit, T Y I i H f t > 7 y a t ^ J ? a %^%&fommu*ffl&frn-tz>tz*>\zfc%iztiz>0 zcoms, ftM&wm* N Y ^ « I J L T , &frm&t&&it*.ki%xmz£t), mmmmzyrm-t&o TY (2, &9\-7\ftM<D-mi 1.0 t-tzmmmx-AJJl, tCTY(l)=0.0, TY(NY+1)=1.0 Xhho
CARD 37 I RPP /NAPIN/
IGT = 9,10,14 X NAPIN ^ 0 <Dt%&iZ&%0
I G T = 9 & ^ xmi5$\<D\zyuy h'&Wti cm mtXAIlt&o
IGT = 10 t£h, \zyu-y VtflkZHZtfrUi cm mtXAtitho
IGT = 14 t£h, *>bfrb&mkXft&<nmmtx<nym (cm) £A#t&,
CARD 38] RPP /NTPIN/
IGT = 1U 12 -C NTPIN ^ 0 Wj&^U&go
# k ° > D 7 K W * 4 > t £ £ - f t * ' k W g E £ £ cm NMi-C^-to
CARD 39] IXP /NTPIN/
IGT=13,15,16 "C NTPIN ^ 0 <M8i&\Z&%
&\£yu-y voxmmmz, RXizim-thmkm.x7r.-t0 &i, IGT=I3,I6 comSii, JET9-])y Vmmfr (1,1) ^£&o i o t , IGT=13 ^±§£-(2 IXP * 1 ~ NX+l co^mxm^tho IGT=15 coWsSit, %SVf^^C0 9'') 7 K l | ^ ( 0 , 0 ) t t ^ . o i o t , IGT=15 COikSiZit, IXP * 0 ~ NX co%im X^^.tho NTPIN mcOAyj-fr&^Xfr&fr, 1GT=15 coWsSiZitftMttlZ
60 • mmmfrfomzti&tzto, I / 6 * ^ # £ I E L < A # L , mtri -A
^ j t L T , IXP=1 t IXhfrthtc^o
- 5 7 -
JAERI-Data/Code 97-047
CARD 40 | THETA /NTPIN/
IGT=10,11,12 X NTPIN ^ 0 co^SiZ-H^
&Myuv Y'coftmijfailLW.*, 6 ° XTf.-tc
CARD 411IYP /NTPIN/
IGT=13,15,16 X NTPIN ^ 0 <DWsSiZ&m
&\£yu*y Y'COY mmw.£, TY iztithmmxif.-to
CARD 42 | RDP /NDPIN+1/
IGT= 10,14 X NAPIN ± 0 C0W}SiZ-Z-^o
IZ^yUy yftMCOfrm^r&^^XCOtzyUy YAZ&m)o RDP(1)=0.0 t~t
O o
CARD 43 | RDP /(NDPIN+1)*NTPIN/
IGT= 9,11,12,13,15,16 X NTPIN ^ 0 comSiZ&^o
&\£yu-y YcofomyrtW&o RDP(l,j=l~NTPIN) =0.0 t t ^ o IGT=9 CO
mSiZit, *tft$Lhc7) i /8 tffcco \£y u -y Y'izHlX5-z.Z>CDX,
NTPIN=NAPIN*(NAPIN+l)/2 Xhho IGT=15 CDWsSiZit, &$))tf)iZ 60°
vmmtifatffofcZtiZtzibiz, 1/6 mSfayr*fcl< At) IX, ftt)C0A tat, yi-AtitixfrtfoK^o
CARD 44 | IPLOT=l £ h-H^ /3I/
44-1 _1S 111
PLOT t £ M v 7 7<nMi8m7fi (TM£ i )#g£B Kttta&tefc M+&)
- 5 8 -
JAERI-Data/Code 97-047
• =0 SIL
• = + 1 Sub-region
• =+2 T-region
• =+4 R-region
• =+8 7 f ' J r ;u#^-
• =+16 X-region
44-2 I SCALE HI
m<D*r 4 xcoifejF
• =1 7,9 ')-y$>tzn, 20cm W f i g O 1 o<7)g]£#<
• = 2 X ^ ' J - ^ D , 15cm <7)jUg(7) 2 o w g | £ # <
• =3 79 U -Vihtz »K 10 cm <7)itg<7) 5 o w @ 4 f <
44-3 ICONT / I /
• =1 * - Y<r>miitWT"$Z>
CARD 45pg##J«^g§<7)iiflJffl /5I/
CARD Z\\X%comfr^mZlltzb'SL^Xhho
45-1 _IBD / I /
• =1 i§5J$££
. =2 & $ (^ffl^oT)
- 5 9 -
JAERI-Data/Code 97-047
45-2 IGEOM 111
^7 2mffi#mizfrgbti&o
• = i «
• =2 Rfgf
• =3 It
45-3 MODEL HI
mmimK®T-izisi7zwjmmmm*r^(D^
• =i mmmm^rn (m%)
• =3 &mwmmfrhco*n+'Mihmm£i£mi-z>*r^
• =4 Mw.f£mm^r^
45-4 _RF /E/
#P,!M1iii£<7)¥«3 (IGEOM=l) i^li^g(IGEOM=2,3)(cm)
45-5 _RM / I /
mZmmnfe-^co^mZ (IGEOM=l) 2 / J ( 2 ^ @ ( I G E O M = 2 , 3 )
(cm)
- 6 0 -
JAERI-Data/Code 97-047
6.3.4 * 1 £ ^ * ^ ? hJUfffflfiUtt
CARD 4 6 | 4 ] f t : f 7 . ^ ^ h )VT~ 9 £JRf#Lfc^ X-Region #-Sj- /IBNODE 1/
%&ffi$M<r> X-Region # - t ^ ^ ^ 1 " ^ o ^ X-Region frb^f±y-9,^9 Y
n'tmtijmmmmmzti&o
46-1 XRGNNUM(l) / I /
46-2 XRGNNUM(2) / I /
$j'J&M 2 co^=t-s\s<9 Y )V*nm-tkffi$.
46-NZ RGNNUM (IBNODE) HI
BmR® IBNODE W H i T - X ^ ? h ^£frMBH"&^*£
- 6 1 -
JAERI-Data/Code 97-047
6.3.5 SRAC Hfc t t a t t JKDt i i a
CARD 47 1 |aj 1; |HH£#*&|£ £#"* -*& fi^ffc / I /
47 NMAT / 1 /
zzx-mfc2titz®%it, SRAC co At) iz is if ybmv.m^.xnmizmm^ti ho £^x, BMffimzMfo-t&tyKco&^Z^tx^TzZlKtfnifKbti:
CARD 48 | W&CO-immW /4I.6E/
48-1 NISO / I /
>L<7)tl«7^fr [ ! ]{£« :
48-2 EACHBTAG / I /
d <7)tlK75?'B'MfIti<7) hC0fr^7Xt£^"fr
• = 0 M i i ^ - C £ ^
• = i«$M-e&£
48-3 COOLTAG / 1/
- COtynfritvlftttintikCO h COfrZ 7 Xtt^'fr
• =o<£:WM-e&^ • = l i$mtvMi&(Dhcox$>/b (zcomSizit, STEAM i : i o
•c, TkcommmnztiZo zcoAtiizis^x l frftiT&ZtitzWsSizit, htxmH-t&BM* r 7 y i « , *w F $ , **nym&, zixj±t)frb, u-i, o-i6, B-io, B-iicow^mwftmn&ix, ftfcitzmtxti&k. *ft7o fc*£L, ^ t t « ^ & o T k f t « ^ f f i 5 E L / : H-K O-16, B-10, B-11 <7)J^j®»^£*IJffl-f £<7)-C£;fll2\ 0 t LT
- 6 2 -
JAERI-Data/Code 97-047
48-4 IRRSF 111
M « £ 'J 7 9 - r- 7 r >f ;l/j&»t>l£*&tr^fc'J5 ^
• = 0 f f L V > M £ ^ L - t f % ^ £ £ j >
• = 1 VZ9- YyrJ^frbT&it 1 W f - ^ ^ & t r
• =2 v 9,9- Yy7 J frfrb^ifr 2 <r>?-9ZUfr&ts
• = NN 'J 7 ? - h 7 r 4 frfrbfflfiL NN <7)x -? £ § ^ j i f r
48-5 VOLRATIO / E/
zco^Kcommo zcoimt, ^ i f - ^ o M ( g i ) ^ ^ ^ ^ c teffl3*i*0 SRACOA;frfcfc&/SC*1@&*J£wftJ^::tttefflLfc
48-6 UMCL /E/
Cl<7)$7S?<7)TO&JI(cm)
48-7 DC / E/
r > 3 7 ^ ^ o # i l l 2 , SRAC W r t 3 C C J t » 3 a & W - C \ tefflLfc
< T «t v>0 0.0 £*t5£1-*il£«t v>0
48-8 DENSITY / E/
U0 2 WffiJS ( g /cm3 )
48-9 ENRICH / E/
U-235 <£>**&]£ ( M %)
48-10 GDENRICH / E/
Gd203 comS ( M % )
- 6 3 -
JAERIData/Code 97047
SRAC (2, ZCOntM-iZis^^X, Jj§C?1@S?ff* (#/cm3) £ f t f f l t * o Ifrltcfrb,
wM&%m<r>Mtfxit, mtLfcconm.(g)mm^tix*frsbcofr%mx&sbo h^h A, BM&co^mzii, %m%&*t+Z!&tiLtf&<k<nM1fcmfefrb#)tzz.btiZ (MWd/THM C0£7iZ)o Zcotztb, SWAT itmUX, ft&.&Z^it^z.btitzm&fcnMfrb, W,+ m&mmizm&i-Zo
mfafci izo^x, MJt frBmz+yyj CWft#3ftfc®*(g) tzttio t l
X, \\\ fr%co|WJfi#: i coW,7*, ,46o £ 7 *' # K o ft fc 1" 6 0 3 <b i ; , V0 fr, MB MTG
ffwfCSKttfcLfcttflttfi:1"*0 t a t , l£iM@M«l2, J i r ^ t 4 x . ^ f U „
A/J 1
SWAT coAtJizis^^Xii, &BMffii&izis\s*x®Mnjimconwcomil.Oxio6 (g) H $ f e f l : 3 f t T i ^ t U 2 £ £ > £ ^ 0 tztx.it, i'lftsK 3.0 wt % w U02 BM<Dt%S, U
235 i: U238 W i l l i 3.0xl04(g) fc 9.7xl05 (g) t IX 5-k.Wtiittt b & v>0 ffcfr
^ M t ° = 1.0xl06(9) (6.2) i = i
SWAT (2, 3 ^ c u o 2 mf^xhsb^ZUfelx, V0 %&T<n£xtt&i-Z>0 zco &\Z&\*Xit, lifts 7 7 7 (2 U235 t U-23% frbht^X^^^ZUfclX^ho ZZX,
W5,W8,W6 it U-235, U-238 Z IX 0-16 COm^MX&sbo DENSITY it, U0 2 CO
1.0 x 106 / 200 x W6 \ 0 ~ DENSITY \ + ENRICH ■ W5 + (100 ENRICH) ■ W8J ^ ' '
hi, mcoBM&cofflffi£ft7mSizit, tztx.it, Th*r4 9^commt£t:xit, w Mm.jtm<D%w.COW l.OxlO6 (g) XhhiW-AZiS^^X, DENSITY t ENRICH frW mmT-m&&mt:$iz£ni~m&ii%iitiit%b%^o zcom&it, *><txt>, M &JJ>PfP3MS£ SRAC izfe-ttztbcomk^y y - 9 £ $itb Ztz to iz ft 7 hcox, SWAT
- 6 4 -
JAERI-Data/Code 97-047
nftMxit, mnztitzm&ft<nMimi%tfbm&ift^X^Z$izft&it^&X& •O o
CARD 491 ^COW&^Xn^-tZmtfcCOftifc /7\j 49-1 DINTE(l) / 1/
W$Lfc<T> ZA f f ( Z x 10000 + A x 10 + IS XhtzTLbflh) is (2, m&ftm t£b i, mmmtzb0o A^^^iti^-t^ma^coms it, A=0 RXf \S=0Xh>bo
49-2 IRES / 1/
JAERI Data/Code 96-015 P115 * I t l I L v > o ^ R l ^ t £$U: t t LT(2 2 iftfeti^o tztzl, t*co£7%mizHlxh 2izlxis^x%nWiz?$m (2&v>o
49-3 IMX / 1/
JAERI Data/Code 96-015 P117 (IXMICR ) £ MTU Lv>0 H8&Sfffifc£ MICREF t ;## f f i1 -^*CJ i , 1 fc LT*s< -<ho
49-4 DINTE(4) / 1/
^<7)[5H£ft^\ ® £ « i : & £ ^ A » 7 £ J t £ # t £ r a f £ % ^ i : L T * o ^ t >
*l*5&\, Zflit, SRAC Cfctf * TOtt^^S (m-tag) O t ^ ^ ^ t ^ / :
• = 0 » o m-tag <7)#^(2«*ft<7)Jif£c7)ft^f£ffl£;ft£0
• = l A M f i f t K o m-tag CO 4 # g c 7 ) i ^ ( 2 "N"
• = 2 &ffim0 m&'\mcomfri%iE-t&mz, znfr, &m'vmx&z>m *7fi1rtzt>iZfemZtlZ>0 m-tag coXtit "G"o
• = 3 Slfe^So m-tag Wjt^ l i "M"
49-5 DINTEC5) / 1/
- 6 5 -
JAERI-Data/Code 97-047
imw&Stm^TF-to zfiit, SRAC izisi7Z>n\sLfcnm£co 5 #g<7)£ ^ ( C - T a g ) *iktbZ>tztf)iZ\tmZfiZ>o
= 0 gftJK^o C-tag (2 "0"o
= 1 &m^]) ]) 7 A (Be)o C-tag 12 "B"o
= 2 Mit^]) ' J 7 A (BeO)o C-tag (2 "E"o ( B t O iZ^x.i>)
= 3^y-£y (C6H6)0 C-tag (2 "Q"0 ( C t H i : 4 i 4 )
= 4 | i & ( C ) o C-tag (2"C".
= 5 ^ ' i x f U > (C2H2)o C-tag 12 "P" 0 (C ii&feWJ-)
= 6 t l ^ 7 > (U)o C-tag (2 "0"o
= 7 *Hfc7 7 > (UC)o C-tag (2 "V"0 (*'T£J&)
= 8 3 i t - > 7 > ( U 2 0 ) 0 C-tag 12 "W"o (V t O IZ5-X.Z)
= 9 $ l * ( H 2 0 ) o C-tag 12 "H"0 ( 0 ( 2 £ M - f )
=10 m^K (D20)0 C-tag it "D"0 (O ( 2 g r t ^ 7 - )
=11 * M v ^ 3 - 7 A (ZrH)o C-tag (2 "Z"0 (Z t H i : 4 x . 4 )
49-6 DINTE(6) / I /
H * i j M ' M £ LIBMAK -Cf£ffi-f£o - C l t \ ffiffl-r*«t-5i:*&5£L/cl^ft«:
<D%$j)WMmit, LIBMAK X~\t$rtZ> ORIGEN2 7 * —? 7 h <7)7 r >f ;uft
j£Ufcl>T, SRACUJ:*^&KflSflreg£ftx. t) t i*o U-238 3M2, j^fct,
1 \ 1 £J&5eLfclttU£fc'bfcv>0
• = 0 Afi&x.&i>0
• = 1 A t i ^ x . ^ 0
49-7 DINTE(7) / 1/
MJ£iM@ft®&<7)4x.^
*5-x.Z> ( CARD 48-4 fr 0 X%<, <J 7 * - h 7 r - f ; M ^ M £ f % &
&tf l$Ji , 0 t L T f c < )
- 6 6 -
JAERI-Data/Code 97-047
• = i -fccow^m&ftmz^ixis<0, BM^Xh^x&ht-tho Z cohtcoti- Y'X-£<7)jJiC+M@ft^|g£4x.&0
• = 2 S ) I f i ^ 4 x . ^ ^ %comm:m\%com$kfrAt}ZfiZ>o ( >L CARD 48-4 fr OXtti, <J 7, 9 ~ Y 7 7 4 )lfrb®.J&*txfr&tsttfii,
%%b*\tm-tz>coxm&zfiz>)o mmn.itmconmcomt i.oE6(g) t
CARD 49 I (2, NISO ( | CARD>48-l | Xftjfc) ® < fr frx.-f0
CARD 501 I I (g) /[CARD 49-7 | fr "2" <7)|5]f£fcft E/
CARD 49-7 fr"2" <7)|^4ftlCOV>-C, I i ^ 4 i ^ o SWAT Xlt, Mit%
cotyfflKmCOftfr, 1 0 6 ( g ) - ? & £ * £ { M J g L T , mij$i5-x.2>$izm&-t&
50-1 WEIGHT(l) /E/
CARD 49-7 | fr "2" <7)§ftJ<7)|WH£ft<7)M (g)
50-2 WEIGHT(2) / E/
CARD 49-7 | fr "2" <7) 2 # B < 7 ) | B H £ # < 7 ) M (g)
50-NN WEIGHT (NN) /E/
CARD 49-7[ fr "2" £> NN #B£>Hf£#:<7)M (g)
CARD 511 lf>7-f@ft^Jf (# 1024/cm3) /|CARD 49-7 | 7&* " 1 " XJb2>ffl&#.&. E/
- 6 7 -
JAERI-Data/Code 97-047
BMizftf£te-f-fem,+®m^z%tzmimm,+mm>&*i%xztz>o -£W£M*8f]£, tt«#, U 0 2 ^ I / 7 h^(7) 0-16 , f L T , Th i&4><7) F W.t-5 13, ' ^ ^ ^ ^ ^ ^ f i ^ ^ ^ T ^ ^ ^ # A ^ t l ^ f s ] f i # ( 7 ) J ^ i 1 ^ f t ^ S ^ 4 x ^ o dd-c4x.^1BS:arJt^ ZcoZZ, SRAC <DAt)iz5-x.bfiZ>o h t h t , zcoi>y^3y\t, B^^co^vv Y\zis\^x\tO-i6co%^-\ fr-^Xhh t^7%^%^rthtz^biz^A^fitZo
51-1 CONSTDENS(l) /E/
CARD 49-7 | ri* " 1 " T*&£ft#Jc7)[sH£ftc7)J£i^ft$]f (# 1024/cm3)
51-2 C0NSTDENSC2) /E/
CARD 49-7|ri*"l" Xhh 2 # g £>|WHi#£>fiiC?-1B&$rJ£ (# 1024/cm3)
51-NN CONSTDENS(NN) / E/
CARD 49-71 fr"T Xhh NN # H <A|WH£ft<7)JSC:HB$:af'l£ (# 1024/cm3)
CARD 48 | 75^ I CARD 511 (2 NAMT (|CARD 47 | -CJi£) H]i$! fr T^x. L A # 3 tl&o
- 6 8 -
JAERI-Data/Code 97-047
6.4 fftftfj £ f t f t £ ^Ev 3. -)\s<D =1 > r - P - ^
6.4.1 ttjfl£*tr»
CARD 52 i B ^ M I t l t ORIGEN2 OfH^MIS /2I/
SRAC (2, titiTTftznnix, zfi* $s# 99 coy74)^\zm$toix^ ho SWAT (2, ZcomZUfrtfLiX, liit)7rftZm%-fZ>WniifeX$)Sbo * tz, ftgB*yi-;Wfc3ftTv>fcv>ORIGEN2 £* i J f f i t **£Kl i , totlfr^ mzbsbcoZffiCtztbiz, ORIGEN2 T5 ? #§ tot At)<DJ.a-/<y 9 £ 3-£fc
i > 2 ^ H - f £ W M £ 0
52-1 SPTAG / 1/
SRAC KJ:&ffl;fr$Hiftg£*lJffi-*-*^Lfcv^
. • =OSRAC \z£/h&t)7jm\nikmmii£^^o
• = 1 SRAC iz£?b totsTrmf^mm-t&o
52-2 0RI6TAG / I /
ORIGEN2 (7)m^(7)^iJ^i0 : ( 0 t y - > 3 yit, ftU^V^-^co ORIGEN2 £
mmthmsizitmnxhho
• = 0 ORIGEN2 CO At) CO echo back £ L&v>
• = 1 ORIGEN2 CO At) CO echo back £"f &
CARD 53] SRAC K 2 & HitlTT^ttUco^m /IBNODE 1/
SRAC \z£^xnto2Ktztoyj-7Ti$*mmtht5m*m7i-tz><
53-1 IVOLSAHP(l) / 1/
B.mm 1 i:ot>T,
-69 -
JAERI-Data/Code 97-047
• =-1 tot)®feX%liE*ft7
• = 0 z<n&mttiJEizmx.%\<*
• = i totixtiiJEZft7
53-2 IVOLSAMP (2) / 1/
m&m&.2 iz-o^x,
• =-i mtjmmxmjEift3)
• = o zomaat^jEizmx.^^
• = i mijx-mjEt:ft7
53-IBNODE IVOLSAMP (IBNODE) / 1/
M M IBNODE i:ov>-c,
• = - l ffi#$J£-C*SIE£fH
• = 1 HJTj-ClSIEfcfi1?
-E-tL^tLc7).B^IJt(7)tH^ A^WPK(i) (21^T-C-st^3ti^ (
IBNODE MWPK (i) = SPRATIO (i) x £ MM7 (j) (6.4)
3 = 1 IVOLSAMP(])=\
Y, POWER (j) 3 = 1
IVOLSAMP(]) = l
POWER(i) it, SRAC COtot) ( $ # 99 ) 2 *)%%&&% fiho IVOLSAMP = -1 <7)i§ SiZit, SRAC cotot)frbm^ZA,tztot)i^txm^tz littot)] i , POWER cofr
t>«)iztiimi-Zo
- 7 0 -
JAERI-Data/Code 97-047
POWER (i)
SPRATIO (i) = J0°DL
EUME{1) (6-6)
7 IBNODE p0WER(j) V ' 1% VOLUME (j)
IVOLSAMP(j)=-l
zcommit, SRAC xit, nnmtizb&izycomnz'tcoi&cohcocof-frtixm mix^^tztoiz, SWATnisit* i®MMitmconmco%\frio6(g)j i v > ^ i n * ^ -£*fctf>K#gfcfc*o <> L, SRAC O r t ^ T ' f t ^ 3 t i ^ ^ ^ M ^ W # : | | ^ - t - ^ T | W ] i : - r &&?£b, IV0LSAMP=1 T'2v^0
- 7 1 -
JAERI-Data/Code 97-047
6.4.2 «&jft*x7 7
CARD 54 1 Bm\%C0 7,ry -?&% /21/
Bm\n*ftnmc077-yy^ ORIGEN2 \zisi7Z>Bm\nco7T-yy$L*
54-1 ISTPTOTAL HI
Bm\%co£7,7- y y$t.o BM* T- 7 7ft t it, SRAC iz £ fr MM m*n#iz&i-®&tm*&x.zztwx*&z> (^^mm^tttu nimfeco%mZfa±-2-£Z>tzsbizit, 1 x f y yhtz fr <» mm.\t,
2000 MWd/T WTKfcS £ 7 iZWC&th^%Xihha
54-2 NBSTEP / 1/
ORIGEN2 i : i - l t 4 | | f t | « X f 7 m SWAT-e*5£3tL* ORI-G E N 2 \ z i s i 7 h i m y \ + yymz^^xmm-tho z<r>mt, ORI-
GEN 3 7 > K W - o t * 4 , "IRP" c7)f tc^iIL-Cv^o SWAT
[:j3V>-Oi, "IRP" 3-7 7 V<r>9$IE\AT v -fit DAYS/(NBSTEP-
1) tlXnWZfl&o tztzl, DAYS li|CARD_57j-e*g^3^LSo B" \<*&x.2>t, mtitft&n&Rit, ORIGEN2 COtotjCO NBSTEP # B CO "VECTOR" T J ^ ^ ^ ^ I ^ O : w "VECTOR" ^ " IRP 3-v > K " i : o v > t t i , ORIGEN2 CT)-7-J .T;1/[12] ^ M . T ^ / : / i ^ / : ^ o ft, NBSTEP 12 12 m r - C - ^ t t ^ t i ^ ^ ^ ^ o
CARD 55 [ Jtflje'flC0BM7f 7 7 t : £ t t & 3 7 > KWft /ISTPTOTAL 1/
« 7 f - 7 7^ f t ^ ; f t j : ; k t>T^f i : 3 t i£3 -?> K<7)ft£t££1-£o
55-1 ICOM(l) / 1/
BMs\+ yy lXcou-?y Kft
55-2 IC0M(2) / 1/
- 7 2 -
JAERI-Data/Code 97-047
BM*T-yy2 xcoa-?y Kft
55-ISTPTOTAL IC0M( ISTPTOTAL) / 1/
BM* T 7 7° ISTPTOTAL X<D n v > Kft
- 7 3 -
JAERIData/Code 97047
6.4.3 MfoZ + yyz:t(Dzi^> K
CARD 561 Zfl?'flCOBM7 f 7 y&CO 3 7 > F / |CARD 55) " C ^ 3 fltz ? v > Kft 1/
CARD 551 Ci2, # l t t X T 7 y | « 3 7 > K « S H H ^ L / : „ d<7)*K"C
(2, 3 7 > K « ^ ^ ^ t ^ „ 3 v > Ki: L T ( 2 ^ T<7) ) (7) ^^5gHTfgC*
■2) o
• = 1 STEP
: « 3 7 > K l i , X f 7 / f f f o ^ ^ t ^ « | : j ^ t ^ 0 SWAT"C
12, X f v y f f ^ SRAC \Zis\jZ>7-~7/?i*)felEl-Z>tzit)\z\tmi
t v ^ „ i H t w / s ^ g 7CI2, mJ)cot\%i-~7izis\^xmm\z l n
t7h3ti, i lx f ' y^ oA^^^r^ : , mmiz -iiiy> Y7yyZfiZ,0 £->X, mm'liZi£F%-tZ,&mt%'^o
• = 2 TABMAK
TABMAK £ CALL i~h0 m£C0^~V3 yXit, SWAT rtfgf«^
TABMAK £ CALL f £ fr L& i > 7 > £ W f & 2 T Ufco " C ^ W f ,
• = 3 SRAC
SRAC \z£Z>^\±^7^9 Yfrt%m$mm\%*ft7o SRAC <D%ft
comiz, STEP n v > K r i ^ f f S f t , r-7^fr o A £ < & £ 0 ^ L
■C, TABMAK T^\ "MAKE I N P U T " * KT call 3 fiX, SRAC ffl
CO At) 7 r >f W f t J & 3 ft&Q
• = 4 ORIGEN2
ORIGEN2 t: 2 £ « f t f ¥ £ f i ^ o t L, onpower Vm<Ott%X$>&%
b, ZC0M\Z&%®\Z LIBMAK fr call 3 f t £ Q ^ L " C , S f L ^ B f M
yr>()]/tfftf&ZtlZo KHiZ, '<%£mfflX&Z>f£b, LIBMAK (2 call
3ft&v>0 ORIGEN2 %f%cohtX, SifrWC TABMAK T&* "STORE
RESULT " t K t ^ f f $ t i 4 o ClfUJ, M M f t / i l t < fr^x.3ft
%> o
• = 5 LIBMAK
- 7 4 -
JAERI-Data/Code 97-047
LIBMAK Zmftt&o S f t W 7 < - y * 3 yXit, SWAT l ig l&Wt; LIB
MAK £cal l tho
56-1 COM(l.l) / 1/
! X f 7 7° 1 co 1 #@(7)n-7> K
56-2 C0M(1,2) / 1/
7 - r 7 7° l<7)2 f : Bc7)n-7>K
56-ICOM(l) C0M(1,IC0M(1)) / 1/
1 1 X T 7 ^ 1 CO ICOM(l) # B < 0 3 - 7 > K
CARD 561 (2, £ « 7 r 7 7°ft (ISTPTOTAL) H fr TJ X. t <
- 7 5 -
JAERI-Data/Code 97-047
6.5 J T O S J S = J > h n - ; u
6.5.1 JIC^E- Kt»«
CARD 57] f t l ^ t l W ^ ^ X f - 7 y<D'MM^~ K /ISTPTOTAL 1/
57-1 0PE(1) / 1/
i i x f 7 7 1 coSMS*- K
• = o #£P
• = 1 i l l s
57-2 0PE(2) / 1/
i i x f 7 / 2 co j l lg* - K
• = 0 '<%0
• = 1 i l ls
57-ISTPTOTAL OPE (ISTPTOTAL) / I /
i i ^ T 7 7° ISTPTOTAL <DM&*- K
• = o #£p
• = 1 iltc
CARD 58 « 7 f 7 yco 0 ft (day) i: tot) (MW) /E or (IBNODE+1) E/
O & Li££f]7f-7 7&£>
58-1 DAYS / E/
M M (day)
O h imU^ryytzb
58-1 DAYS / E/
- 7 6 -
JAERI-Data/Code 97-047
mUmm (day)
58-2 MW(1) / E/
■%BcoBMffiMcotot) (MW)
58-3 MW(2) / E/
A&BcoBMffii&cotot) (MW)
58-(IBNODE+1) MW( IBNODE) / E/
IBNODE BcoBMvmcotot) (MW)
CARD 58 J it^BM7 T 7 7°I§Jft (ISTPTOTAL) ^ fr ^x .1" 0
- 7 7 -
JAERI-Data/Code 97-047
6.5.2 &$Ii!tCr>>S!£
CARD 591 -e-ft^ftcO^HcoiSlK /NMAT E/
-en-e*tLco^®cojajt ( K ) £^-x.&o
59-1 TEMP(l) / E/
t/« 1 coum 59-2 TEMP(2) / E/
%K 2 cofiS
59-NMAT TEMP (NMAT) / E/
t /K NMAT CT)SS
CARD 59 1 it^BM* T 7 7f t (ISTPTOTAL) & fr ^ i t „
- 7 8 -
JAERI-Data/Code 97-047
6.5.3 #att«*<*>ttJMg££M-r$fl!«
CARD 60 | <§0tt<Dj±tj / I /
60 IPRESS / E/
ZCOtj-Y'it, '^m^COKtS^^n'm.-thCOiZ^m^fl^o SWAT (2, [CARD 48-3
izn\^x, '<%m^V.xhi> tt%7zZfitzhcoizmixit, STEAM 7 ^ 7 7 v ii£mix'<%mtco®j%*nnis zcomzitm-t&ztfrto^&o STEAM
*mmit£^ms\zit, &bfriftM%%£ fr h ttotz&ufc&izisii-zmg. zmmftnixxtbZo tztn, [CARD 48-31 co^izfrfrfrb-r, Atat-t ZZto
• = -1 A ^ I ± (lkgf/cm2)
• = 0 PWR C0f±t) (157.0 Kgf/cm2)
• = 1 BWR C0i±tJ (73.1 Kgf/cm2)
CARD 611 *M K « S /ISTPTOTAL E/
BWR c O f i W ) ^ ^ ^ 'f^ K $ ( 7 ) ^ l i i ' s - i : l l T ^ ^ „ ZZXit, *
fi^ficoBMz + yy&com vm(%) ^ ^ t ^ o & ^ A , , PWR<ofi?#f W^^T- t , AtStlXitmi)Xhho
SWAT (2, |CARD 48-3 | KfcHT\ M#t /«T*&& t }g;£3 tlTj & ( 0 ^ ^ I Xit, STEAM 7 ^ 7 7 U £ M L T f t » W ® J f £ f t » L , ^co-fi^^fflt ZZtfrto^&fr, %comz, #4 Y*mco$j)W:ZAfiZ>tzt6izi£f8ZfiZ>o tz tzl, [CARD 48-3\ CO]%feiZfrfrt>b-f, At) itt h Z t 0
61-1 VOIDRATIO(l) / E/
S ^ f 7 7 1 T-co*M K^ (%)
61-2 V0IDRATI0(2) / E/
*$7 f 7 7 2 "Cco** K^ (%)
-79-
JAERI-Data/Code 97-047
61-ISTPTOTAL VOIDRATIO (ISTPTOTAL) /E/
BM7T- 7 7 ISTPTOTAL Xcom vm (%)
CARD 621 mmgfemm /ISTPTOTAL E/
tfi?ficoBM7Tyyncommiikjg.(ppm) ^^-^i-^ 0 &*b6A,, BWRW
»*fcoJir^-ei, A ^ i : LT(2^JJ-C&£o
SWAT (2, [CARD 48-3 | iZiS^^X, '<§mtW&Xhsh t ^ ^ 3 fltz h COiZffl I
xit, zco^fczfitz^&thtizixftmtm&tntot&fr, zbiz, % j£zntzwmi8k&frb B-IO t B-II co^m&mmznto-t&o zzxcoAt) it, %<r>mffi£kfe*ft'm.-tZ>o tztzl, | CARD 48-31 COmfciZfrfrtob-r, A
Jjit-t&Zto
62-1 BORICCONC(l) / E/
BM7f- 7 7 l -c-cofflJSfcift* (ppm)
62-2 B0RICC0NC(2) / E/
'B'J^7 -r 7 7 2 -eco«8gft&J£ (ppm)
62-ISTPTOTAL B0RICC0NC( ISTPTOTAL) /E/
W%7 -f 7 7 ISTPTOTAL Xcomm^^. (ppm)
- 8 0 -
JAERI-Data/Code 97-047
6.6 * COfftCOWJPW«flE =1 > h P - JU
CARD 63] B f l i « S 6 * f f T f f i M IV
-&wmmcomzm&tz>mim%.zm7E-tz>
63 TOTNUM / I /
CARD 641 WmtmiECOm /I,4E/
<> L CARD 63 ^ 0 t - i v > * f ) . £ . g - C * 4 o - - T ^ ^ L / C ^ J E M ^ I . O CJn £3 f t -C \ ^coiit£f£jEi!frcoKlfffi^i;#Ht£o 1-fcfc*>,
922350 0.01 0.0 0.0 0.0 0.05
t%fe2tix\,*tzig,&izit, u-235 co, *®.+nmwmmfr 1%, myfmmm
mfr5%, mmzfizmzM&t&o
64-1 TARGET / 1/
£M1-&|H|tt#C0 ZA#-^-
64-2 GAIN(l.N) /E/
64-3 GAIN(2,N) / E/
(n,2n) MJS-»»fffil»^Mfi:
64-4 GAIN(3,N) / E/
(n,3n) R l S - M f f l M j g f t o tztzl FP co%£i:i2, (n,p) M&o
64-5 GAIN(4,N) / E/
JAERI-Data/Code 97-047
® 5 ^ & l £ - » f f i M g m o tztzl, FP coi§£&:(2, (n,a ) &
Zcoii- K (2 [CARD 63] XftiizZ fitzmtz if At) 2 fi% if fiittcbb^^ (TOT-NUM)0
CARD 65\yrmitr- 9 fc!E$tt& / I /
$miz\&mi-z>frm&*te£i-&mfofc<n&
65 NBRAN / I /
CARD 661 ZL-if-fcmcOyTl&itr- 9 /I,2E/
& L fCARD 641 fr 0 X'ftiTtlit, &%Xlbh0 tztx.it,
952410 0.6
t^^^fltz^SiZit, Am-241 CO^ftiT-Mm&fciZiS^X, Am-242 fr±f&
Zfi&coit, Am-241 c o ^ t t ^ M S J S c o 60 % - C & & y £ , ^ L T ^ & 0 JFg
SCO SWAT (2, ORIGEN2 PWR-U Library K f l j $ c o # t t J £ f ' - - * £|* | jg L
X^Z>o
66-1 INAME(N) / 1/
yjti&itr- 9fr®JE2fi2>miZfcco ZA ##o
66-2 BRABCH(N.l) / 1/
^ t t : f f f l ^ S ^ H i 3 ^ T * ^ i c ^ ^ ^ 3 t i ^ * i J ^ o 0.0 * i f coffin
fefeZHZt, SWAT Library M c o f f i ^ c o i i ^ f f l 3 t l £ o
66-3 BRABCH(N,2) / 1/
(n,2n) S^ t : i3^T*^#c . l?^ ? #l i3 !c3 t i^SiJ^o 0.0 *fficomfr$%7E.
3 t L £ £ , SWATLibrary 1*1 j$ coffin* CO i iftffl 3 t i £ 0
- 8 2 -
JAERI-Data/Code 97-047
i c o * - KI2, |CARD 65\Xftfe2titz& ( NBRAN ) 0*ifr frx. 3 f t £ 0
CARD 6 7 | U S E R ^ ^ C 0 ^ - a + ^ 7 ^ ^ Ml/ / E /
h l SLIBM fr 0 X'&&%b, Zcoii- Vlt&%iz%&0 IFAST+ ITHER
MAL mcOT-9 ( 4 " t t T - 7 ^ ^ Y)l) £%i7ztZ>o
67-1 FLX(l) IEI
- p c o t f t t T - ^ ^ ^ Y)l
67-2 FLX(2) IEI
:Mco^n+'9,^9 Y)l
67-(IFAST+ITHERMAL) FLX(IFAST+ITHERMAL) IEI
IFAST+ITHERMAL^C04"t tT-7^^ Ml/
CARD 67 (2, BM9
BMmi$L%L (IBNODE) x ( LIBMAK fr call 3*l£IUft, r 7 7ftc04"-C, ftmtmi&^tz®.) ®mfrx.2ti&o
tf£h*>
- 8 3 -
JAERI-Data/Code 97-047
7 3SfT01
7.1 SWAT ZMfttZtcltoCj Shell Script COfli]
SWAT -5-*li#(i , At)y7-()l^ inputjfile t t h t ,
swat input_file
fcm^sWIffSti&o LfrL£ri*<b, SWAT l2^<co?t±ft»£f£fflt&coT\ shell script £ *U ffl t & CO rt5\ & o fc & ffiflJ-C**,, & T K , ^ C O ^ ^ t o ^COtp-Cli ,
^#n:i><o^coi,lii'£ft£f£fflLT S W A T ^ H t f i - ^ ^ g B ^ v i - ^ ^ , f£fflt& PDS file ZftfclX, %<D'ik, ^^^frn^X^-i>ikSizit, ^cotztbiZ%ft*yttbm<D >$mikltz'&iZ, SWAT £ ^ f L T i > & 0
#! /b in / sh if [ $# -eq 0 ] then
echo "Usage: run_swat swat_input_fi le" ex i t
f i ## ## pds file allocation ## following set is for FCS ## please change for your setup.... ## # PUBLIC LIBRARY PBLIB=/work/codes/srac95/lib/usrplib/ export PBLIB # USER LIBRARY USLIB=/home4/kenya/lib/srac95/ export USLIB # OTHER USER LIBRARY OULIB=/tmp/pdsdir/ export OULIB # EXECUTION MODULE EXM0D=/home5/codes/swat9705/swat export EXMOD # READNASS FILE READMASS=/home5/codes/swat9705/readmass/ms export READMASS # 0RIGEN2 MODULE 0RI2M0D=Vhome5/codes/swat9705/0RI2M0D' export 0RI2M0D # SRAC MODULE SRACM0D='/home5/codes/swat9705/SRACM0D' export SRACMOD ## run ## if [ -f Sl.out ] then echo "Hummm.... I think you have already calculated result with SWAT.
NAME- " ll.out echo -n "Delete old results ? (y or n)" read RMRES
- 8 4 -
JAERI-Data/Code 97-047
case $RMRES in 1) RMRES="Y";; 2) RMRES="y";; 3) RMRES="N";; 4) RMRES="n";;
esac if [ SRMRES = "Y" -o $RMRES = "y" ] then rm Sl.out
fi if [ SRMRES = "N" -o SRMRES = "n" ] then echo "Oh! I hesitate to continue ...." exit
fi fi
if [ -f srac95.out ] then echo "Hummm.... I think you have already temporary result with SRAC95.
NAME= " "srac95.out" echo -n "Delete old results ? (y or n)" read RMRES
case SRMRES in 1) RMRES="Y";; 2) RMRES="y";; 3) RMRES="N";; 4) RMRES="n";;
esac if [ SRMRES = "Y" -o SRMRES = "y" ] then rm srac95.out
fi if [ SRMRES = "N" -o SRMRES = "n" ] then echo "Oh! I hesitate to continue ...." exit
fi fi if [ -f $l.srac95.out ] then echo "Hummm.... I think you have already final result with SRAC95.
NAME= " $l.srac95.out echo -n "Delete old results ? (y or n)" read RMRES case SRMRES in
1) RMRES="Y";; 2) RMRES="y";; 3) RMRES="N";; 4) RMRES="n";;
esac if [ SRMRES = "Y" -o $RMRES = "y" ] then rm $l.srac95.out
fi if [ SRMRES - "N" -o SRMRES = "n" ] then echo "Oh! I hesitate to continue ...." exit
fi
-85-
JAERI-Data/Code 97-047
f i
-f $1 ]
("_-)
$1
d a t e u s e r hos t inpu t > S l . o u t
i f [ t h e n
echo echo echo echo echo echo echo ${EXM0D} echo echo echo echo echo mv f o r t . 9 7 Sl .sum mv f o r t . 8 0 $ l . s r a c 9 5 . i n p mv f o r t . 6 1 S l . x s l i b mv s r a c 9 5 . o u t $ 1 . s r a c 9 5 . o u t cp f o r t . 9 1 S l . r s t
# rm - r f f o r t . * e x i t
echo "No Inpu t F i l e " e x i t
f i
RUNNING SWAT
' " d a t e " ' " 'whoami ' " ' " h o s t n a m e " ' $1
I' -+'
(o_o)
d a t e : ' END OF SWAT
" ' d a t e ' "
-+' I1
-+' -+'
7.2 ftn^;JjL-)\>t imftZfiZ SRAC CO shell script ffl
^ CO shell script 12, JEt*i '£ft SRACMOD T * $ S E 3 flh h CDXhhQ tztzQiZ, S R A C 9 5
Z'kftZ^X^^tzijXh&o %ttMZ, ZCO shell script (2 , SRAC95 C 0 7 - 7 C f t H c O
# ! / b i n / c s h ################################################################## # # « run SRAC95 on UNIX » # # Consultant : keisuke OKUMURA, Tel 029-282-5321 # E-mail okumuradmiike.tokai.jaeri.go.jp # ################################################################## # # # REMAKED BY K.SUYAMA FCSE,JAERI # kenyaflcyclone.tokai.jaeri.go.jp # ################################################################## # # Fortran logical unit usage (allocate if you need) # # The meaning of each file depends on sub-programs used in SRAC. # [ ]:important files for users. # # 1 binary (ANISN,TWOTRAN,CIATION) # 2 binary (ANISN,CITATION), scratch # 3 binary (SRAC,ANISN.TWOTRAN,CITATION), scratch # 4 binary (PIJ,ANISN,TWOTRAN), scratch # [ 5] text:80 standard input # [ 6] text:137 standard output, monitoring message # 8 binary (ANISN.TWOTRAN), angular flux in TWOTRAN # 9 binary (TWOTRAN,CITATION)
-86-
JAERI-Data/Code 97-047
# # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # # #= # # # # # # # # # # #
10 11 12 13 14 15 16 17 18 19 20 21 22 26 28 31 32
33 49 [50] 52 81 82 83 84 85 [89] 91 92 93 95 96 97 [98] [99]
binary binary binary binary binary binary binary binary binary binary binary binary binary binary binary
flux map in CITATION, angular flux in TWOTRAN (ANISN,TWOTRAN,CITATION), scratch (TWOTRAN,CITATION), Sn constants in TWOTRAN (TWOTRAN), restart file for TWOTRAN (TWOTRAN,CITATION), restart file for TWOTRAN ft CITATION (TWOTRAN,CITATION), scratch (CITATION), scratch (fast I/O device may be effective)
scratch fixed source in CITATION scratch scratch scratch
(CITATION), (CITATION), (CITATION), (CITATION), (CITATION), (PIJ), scratch (PIJ,CITATION), scratch (CITATION), scratch (CITATION), scratch
text:80 (SRAC-CVMACT.CITATION), macro-XS interface for CITATION binary (PIJ,ANISN,TWOTRAN,TUD,CITATION)
fixed source for TWOTRAN, power density map in CITATION binary (PIJ,TWOTRAN,TUD), total flux in TWOTRAN ft TUD device internally used to access PDS file text:80 burnup chain library (SRAC-BURNUP) binary (SRAC-BURNUP), scratch binary (PIJ), scratch binary (PIJ), scratch binary (PIJ), scratch binary (PIJ), scratch binary data table (PIJ), always required in PIJ plot file : PostScript (SRAC-PEACO.PIJ) text:80 (CITATION), scratch binary (CITATION), scratch text:80 (SRAC-BURNUP), scratch text:80 (SRAC-DTLIST), scratch binary (SRAC-PEACO), scratch binary (SRAC-BURNUP), scratch text:137 (SRAC-BURNUP) summary of burnup results text:137 calculated results
Set by user LMN BRN
ODR CASE WKDR PDSD
load module name = SRACsc.30m(Scalar,30M), SRACvp.50m(Vector,50M), burnup chain library data =ucm66fp : U-Np-Pu-Am-Cm ft 65+1 FP ft B-10 (standard model) =thcm66fp : Th-Pa-U-Np-Pu-Cm ft 65+1 FP ft B-10 (Th model) =ucm30fp : U-Np-Pu-Am-Cm ft 26+4 FP ft B-10 (simple FP model) directory name in which output data will be stored case name which is refered as names of output files and PDS directory name in which scratch PS files will be made and deleted directory name in which PDS files will be made
/work/codes SRACsc.30m ucm66fp Change if you like ============================
# setenv HOMESRAC setenv LMN setenv BRN # # setenv SRAC_DIR $H0MESRAC/srac95 setenv LM $SRAC_DIR/bin/$LMN setenv DATE 'date +%b%d.%H.%M.%S' # setenv fu50 $SRAC_DIR/lib/burnlibT/$BRN setenv fu85 $SRAC_DIR/lib/kintab.dat
- 8 7 -
JAERI-Data/Code 97-047
# setenv fu89 $0DR/$CASE.SFT89.$DATE # setenv fu98 SODR/SCASE.SFT98.SDATE # setenv fu99 SFT99.SDATE # setenv OUTLST SFT06.$DATE # #============= Exec SRAC code ============= # $LM < f o r t . 5 »& srac95.out
7.3 flS ^ v n. - )\> t IX Hf? £ ft 3 O R I G E N 2 <D shel l s c r ip t m
ZCO shell script (2, 3 ^ ^ f t 0RI2M0D XftijzZ fli> h COXhho tztz&iZ, ORI-
GEN2 Z%ftZ^X\;^tzi7X*)Z,o
#! /b in /csh setenv EXDIR /home5/codes/origen2.1/bin # use kenya-enhanced module setenv EXMOD $EXDIR/ori21ske setenv LIBDIR /home5/codes/origen2.1/libs/user setenv PHOLIB SLIBDIR/photonlib setenv INPUT fort.5 setenv OUTFN origen2_out # linking photon library if ( ! -f fort.10 ) then In -s SPHOLIB fort.10 endif SEXMOD < SINPUT » SOUTFN # unlinking photon library rm fort.10
7.4 y>yj\>At)
tmWtlX, SRAC95 C0-7-SL7^[2] <D 194 ^ - y iZ^mz 3 flX^Z, ?-- 9 t F)mcor-9COM$X7s:ftl h<DX, U-235 *«£*fgJf(2 3.2 wt%, BM& 33000 MWd/tHM
Xhho *IX, BMcO&tX 1095.75 Bt 730.50 B cO<££fl£ff o t v > 4 c tztzl. Wig
m^&cotztbCOAyj-Xit, J ^ # ^ f f £ White Boundary £ ltza
===== p D s FILE AL0CATI0N ====== FASTP pfast THERMP : pthml FASTU fas tu THERMU : thermalu MACWRK : macrowrk FLUX : flux MACRO macro MCROSSP: pmcrs MICREF : micref UMCR0S : umcros ==== for libmak ====== u s a c t i : /home5/codes/swat9705/xsl ib/act i . j32.v2.1 usfp : /home5/codes/swat9705/xslib/fp.j32.v2.1
- 8 8 -
JAERI-Data/Code 97-047
or i2or i : /home5/codes/swat9705/or i2or igl ib/decaydat . fp- j3 .v7 ==== for origen2 ===== photo :/home5/codes/swat9705/ori2origlib/photodat COMPARE OF SWAT WITH SRAC95 PIJ BURNUP FOR SWAT9707A SRAC95 — JAERI-DATA/CODES pp. 194-196 (PWR 3.2 WT7. , 33000 MWD/THM) 10 0 0 0 0 14(100) / Result Control 1 1 1 1 1 1 1 1 1 1 / Library Control 1 1 1 1 2 1 4 3 - 2 1 0 0 0 0 2 0 1 0 0 0 / SRAC General Control 1.0000E-25 61 46 1 / Fast Thermal Lethargy 4 6 6 3 3 0 6 0 0 0 0 0 8 15 0 0 30 0 1 / Col l i s ion Prob. Control 1 1 1 2 3 3 / R-T B-4 0.0 0.2413 0.3413 0.418 0.475 0.570 0.6616 1 3 67 1 0 0 1.0 0.836 0.0 9.81157 3.200 0.0 / U02 PELLET 922340 2 10 0 10 / U -234 922350 2 1 0 0 1 2 / U -235 922360 2 1 0 0 1 0 / U -236 922380 2 1 0 0 1 2 / U -238 932370 2 10 0 10 / Np-237 942380 2 10 0 10 / Pu-238 942390 2 10 0 10 / Pu-239 942400 2 10 0 10 / Pu-240 942410 2 10 0 10 / Pu-241 942420 2 10 0 10 / Pu-242 952410 2 10 0 10 / Am-241 952421 2 13 0 10 / Am-242m 952420 2 12 0 10 / Am-242 952430 2 10 0 10 / Am-243 962420 2 10 0 10 / Cm-242 962430 2 10 0 10 / Cm-243 962440 2 10 0 10 / Cm-244 962450 2 10 0 10 / Cm-245 962460 2 10 0 10 / Cm-246 641520 2 10 0 10 / Gd-152 641540 2 10 0 10 / Gd-154 641550 2 10 0 10 / Gd-155 641560 2 10 0 10 / Gd-156 641570 2 10 0 10 / Gd-157 641580 2 10 0 10 / Gd-158 641600 2 10 0 10 / Gd-160 541350 2 10 0 10 / Xe-135 601430 2 10 0 10 / Nd-143 451030 2 10 0 10 / Rh-103 541310 2 10 0 10 / Xe-131 551330 2 10 0 10 / Cs-133 621490 2 10 0 10 / Sm-149 430990 2 10 0 10 / Tc- 99 621520 2 10 0 10 / Sm-152 621510 2 10 0 10 / Sm-151 611470 2 10 0 10 / Pm-147 631530 2 10 0 10 / Eu-153 601450 2 10 0 10 / Nd-145 631550 2 10 0 10 / Eu-155 631540 2 10 0 10 / Eu-154 621500 2 10 0 10 / Sm-150 420950 2 10 0 10 / Mo- 95 471090 2 10 0 10 / Ag-109 611481 2 13 0 10 / Pm-148m 441010 2 10 0 10 / Ru-101 551340 2 10 0 10 / Cs-134 461050 2 10 0 10 / Pd-105 611480 2 12 0 10 / Pm-148 451050 2 10 0 10 / Rh-105 591410 2 10 0 10 / Pr-141 360830 2 10 0 10 / Kr- 83 461080 2 10 0 10 / Pd-108 621470 2 10 0 10 / Sm-147 461070 2 10 0 10 / Pd-107 420970 2 10 0 10 / Mo- 97 481130 2 10 0 10 / Cd-113 551350 2 10 0 10 / Cs-135
-89-
JAERI-Data/Code 97-047
420980 2 1 541330 2 1 491150 2 1 591430 2 1 631560 2 1 441030 2 1 621480 2 1 601470 2 1 611490 2 1 80160 0 0 32000.0 968000.0 4.3777E-02 1 0 0 0 1.0 0.114 400000 0 0 1 0 0 1 4.2507E-02
Mo-Xe-In-Pr-Eu-
98 133 115 143 156
7 0 0 10010 80160 400000 280000 240000 260000 410930 4.5869E-1 0 1 14 12 14 (2)
1.0
Ru-103 Sm-148 Nd-147 Pm-149 0-16 Weight of U235 and U238 016 constant density 0.0 0.0 0.0 0.0
/ ZRN / ZRN
0 . 0 0 .0 0 .0 0 . 0 H-l 0-16 ZRN NIN CRN FEN NB3
1 1 1 1 1 1 1
2934E-2 8.7989E-4 9.6919E-4 3.8407E-4 3.5563E-4 5.7770E-5
3 4 / 1 3 4 / 2 3 4 / 3 3 4 / 4 3 4 / 5 3 4 / 6 3 4 / 7 3 4 / 8 3 4 / 9 3 4 / 10 3 4 / 11 3 4 / 12 3 4 / 13 3 4 / 14 11(1) 0 0 2.63579 37.916 23.737 37.916 39.561 37.916
65.9356 37.916 65.9356 37.916 65.9356 37.916 131.871 37.916 131.871 131.871 131.871 79.123
/ Step of burnup ( total steps, step in ORIGEN-2 / Number of Command for each step
1000.0 1000.0 1000.0 1000.0 1000.0 1000.0 1000. 1000. 1000. 1000. 1000. 1000. 1000.0 1000.0 0 /PWR 14(0.0) 14(0.0)
.0
.0
.0
.0
.0
.0
37.916 37.916 37.916 37.916 1095.0 730.50 730.50 600.0 600.0 600.0 600.0 600.0 600.0 600.0 600.0 600.0 600.0 600.0 600.0 600.0 600.0
/ Operation
'>>
'} (5
//6 'J I? !? /10 (n I 12 / 13 / 14 581.05 581.05 581.05 581.05 581.05 581.05 581.05 581.05 581.05 581.05 581.05 581.05 581.05 581.05
Void ratio BORIC
i is 0 */,
1 2 3 4 5 6 7 8 9 10 11 12 13 14
- 9 0 -
JAERI-Data/Code 97-047
0 / xs val. 0 / branching
- 9 1 -
5 y>y)\s&ij-
tot}C0-U*®\tlX7F-to %)tb\Z, At)CO^a-;iy 9fr%7jk2flZ>c
VERSION CONTROL DATA BY RCS $Date: 1997/10/15 01:41:43 $:$Revision: 1.3 $
SSSSS W W A TTTTTTT S S W W W AA T S W W W A A T
SSSSS W W W A A T S W W W AAAAAAA T
S S W W W A A T SSSSS WW WW
S W A T SYSTEM VERSION 9710A BASED ON STEP WISE BURNUP ANALYSIS METHOD K.SUYAMA KENYAfflCYCLONE.TOKAI.JAERI.GO.JP
===== MACHINE AND ROUTINE INFORMATION SUN FORTRAN 1.4 VERSION USING STEAM ROUTINE USING READ MASS ROUTINE USING YOUR 0RIGEN2 USING YOUR SRAC95 REMOVE PDS FILE OF PREVIOUS CASE
PATH OF PUBLIC LIB:/work/codes/srac95/lib/usrplib/ PATH OF USER LIB:../9707a/pdsdir/ PATH OF OTHER LIB:/tmp/pdsdir/ PATH OF SRAC MODULE:/home5/codes/swat9710/SRACM0D PATH OF 0RIGEN2 MODULE:/home5/codes/swat9710/0RI2M0D
*********************************** * * * Input Data List ( Unit = 90 ) * * * ***********************************
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40
1 * 2 *. PDS FILE AL0CATI0N =
.7.2. FASTP pfast THERMP : pthml FASTU fastu THERMU : thennalu MACWRK : macrowrk FLUX flux MACRO macro MCROSSP: pmcrs MICREF : micref UMCROS : umcros ==== for libmak ====== usacti :/nome5/codes/svat9705/xslib/acti.j32.v2.1 usfp :/home5/codes/swat9705/xslib/fp.j32.v2.1 ori2ori:/home5/codes/swat9705/ori2origlib/decaydat.fp-j3.v7 ==== for origen2 ===== Ehoto :/home5/codes/swat9705/ori2origlib/photodat OMPARE OF SWAT WITH SRAC95 PIJ BURNUP FOR SWAT9707A SRAC95 — JAERI-DATA/CODES pp.194-196 (PWR 3.2 WT/. , 33000 MWD/THM) 10 0 0 0 0 14(100) / Result Control
/ Library Control 0 0 0 0 2 0 1 0 0 0 / SRAC General Control
1 1 1 1 1 1 1 1 1 2 1.0000E-25 61 46 1
6 3 3 ' 1 2 3 3 3
0.2413
1 1 4 3
1 1 -2 1
6 1 2 .0
4 1 1 0 1 3 67 1 0 922340 922350 922360 922380 932370 942380 942390 942400 942410
16 0 0 0 / R-T B-4 / M-R B-6 0.3413 0.418 0.475
/ Fast Thermal Lethargy 0 0 8 15 0 0 30 01 / Collision Prob. Control
0.570 0.6616
1.0 1 0 0 0 0 0 0 0 0 0 0
0.836 0.0 9.81157 3.200 0.0 / U02 PELLET / U / U
-234 -235
U -236 / U -238 / Np-237 / Pu-238 / Pu-239 / Pu-240 / Pu-241 ....* 3. .7.2.
2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40
*** Continue *** i£+#B&
*********************************** * *
CO
161 162 163 164 165
* Input Data List ( Unit = 90 ) * * * ***********************************
....*....1....*....2.. . .*.. ..3....*....4....*. 14(0.0) / Void ratio is 0 V. 14(0.0) / BORIC 0 / xs val. 0 / branching ....*....1. ...*....2....*....3....*....4....*. *** Input Data End ***
.7.2. 161 162 163 164 165
.7.2.
FILENAME FILENAME FILENAME FILENAME FILENAME FILENAME FILENAME FILENAME FILENAME FILENAME
pf ast ?thml astu thermalu macrovrk flux macro pmcrs micref umcros ************
STATUS STATUS STATUS STATUS STATUS STATUS STATUS STATUS STATUS STATUS
0 0 N N S N S 0 N S
MODE MODE MODE MODE MODE MODE MODE MODE MODE MODE
FILE ALLOCATION
F F C C C C C F C C
************ LIBRARY /home5/codes/swat9705/xslib/acti.j 32.v2.1 LIBRARY /home5/codes/swat9705/xslib/fp.j 32.v2.1 LIBRARY /home5/codes/swat9705/ori2origlib/decaydat.fp-j 3.v7
ACTINIDE FP 0RIGEN2 XS 0RIGEN2 PHOTON LIBRARY /home5/codes/swat9705/ori2origlib/photodat
COMMENT ************ SWAT INPUT DATA ECHO BLOCK SRAC95 -
************ JAERI-DATA/CODES pp. 194-196 (PWR 3.2 WTV. ,
OUTPUT OF RESULT CONTROL 1
100
1
1 0
0.10000E-24
61
0 100
1
1 0
46
0 100
1
1 0
1 FAST
0 100
1
1 0
GROUP
0 0 100 100 100 100
CROSS SECTION CONTROL 1 1 1 SRAC GENERAL CONTROL
2 1 4 2 0 1
BUCKLING
THERMAL GROUP DEVIDE LETHERGY
4 0
3 15
PIJ-CONTRILL 0 6 0 30
R-REGION NUMBER BY T-REGION 3 3
MATERIAL NUMBER BY R-REGION
RADIUS OF PIN (CM) O.OOOOOE+OO 0.24130E+00 0.34130E+00 0.41800E+00 0.47500E+00 0.57000E+00 0.66160E+00
X-REGION NUMBER FOR GETTING FLUX
1 CO CJ1 1
NMAT 1 /
1
3
3 NUMBER 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30
M A T E R ISOTOPE U234 U235 U236 U238 NP237 PU238 PU239 PU240 PU241 PU242 AM241 AM242M AM242 AM243 CM242 CM243 CM244 CM245 CM246 GD152 GD154 GD155 GD156 GD157 GD158 GD160 XE135 ND143 RH103 XE131
TOTAL
I A L I N F - MEMBER XU04000X XU05000X XU06000X XU08000X XNP7000X XPU8000X XPU9000X XPUOOOOX XPU1000X XPU2000X XAM1000X XAMMOOOX XAMGOOOX XAM3000X XCM2000X XCM3000X XCM4000X XCM5000X XCM6000X XGD2000X XGD4000X XGD5000X XGD6000X XGD7000X XGD8000X XGDOOOOX XXE5000X XND3000X XRH3000X XXE1000X
NUMBER
■ 0 R • USE
M
OF MATERIAL FOR SR.
A T I 0 N CROSS SECTION
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30
C-i
> M
s o o o-
CO I o .&. -J
31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50 51 52 53 54 55 56 57 58 59 60 61 62 63 64 65 66 67
CS133 SM149 TC 99 SM152 SM151 PM147 EU153 ND145 EU155 EU154 SM150 MO 95 AG109 PM148M RU101 CS134 PD105 PM148 RH105 PR141 KR 83 PD108 SM147 PD107 MO 97 CD113 CS135 MO 98 XE133 IN115 PR143 EU156 RU103 SM148 ND147 PM149 0 16
XCS3000X XSM9000X XTC9000X XSM2000X XSM1000X XPM7000X XEU3000X XND5000X XEU5000X XEU4000X XSMOOOOX XM05000X XAG9000X XPMMOOOX XRU1000X XCS4000X XPD5000X XPMGOOOX XRH5000X XPR1000X XKR3000X XPD8000X XSM7000X XPD7000X XM07000X XCD3000X XCS5000X XM08000X XXE3000X XIN5000X XPR3000X XEU6000X XRU3000X XSM8000X XND7000X XPM9000X X006000X
31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50 51 52 53 54 55 56 57 58 59 60 61 62 63 64 65 66
VOLUME RATIO TO TOTAL BURNUP REGION(0.0 FOR NON-BURNUP REGION) l.OOOOOE+OO
MEAN CHORD LENGTH(CM) AND DANCOFF COLLECTION FACTOR 8.36000E-01 O.OOOOOE+00
DENSITY, U-235 ENRICHMENT AND WT'/. OF GD203 9.81157E+00 3.20000E+00 O.OOOOOE+OO
INITIAL WEIGHT(G) SPECIFICATION U235 32000. U238 9.68000E+05
CONSTANT NUCLIDE DENSITY(#/CM**3)
0 16 4.37770E-02
NUMBER 1
M A T E R I A L I N F O R M A T I O N ISOTOPE MEMBER USE CROSS SECTION
ZR 0 XZRNOOOX
VOLUME RATIO TO TOTAL BURNUP REGION(0.0 FOR NON-BURNUP REGION) l.OOOOOE+OO
MEAN CHORD LENGTH(CM) AND DANCOFF COLLECTION FACTOR 1.14000E-01 0.OOOOOE+00
DENSITY, U-235 ENRICHMENT AND WT7. OF GD203 O.OOOOOE+00 O.OOOOOE+00 O.OOOOOE+00
INITIAL WEIGHT(G) SPECIFICATION CONSTANT NUCLIDE DENSITY(#/CM**3)
ZR 0 4.25070E-02
M A T E R I A L NUMBER
1 2 3 4 5 6 7
ISOTOPE — H 1 0 16 ZR 0 NI 0 CR 0 FE 0 NB 93
— MEMBER XH01H00X X006000X XZRNOOOX XNINOOOX XCRNOOOX XFENOOOX XNB3000X
I N F O R M A T I O N USE CROSS SECTION
>
O o o a. <D
VOLUME RATIO TO TOTAL BURNUP REGION(0.0 FOR NON-BURNUP REGION) l.OOOOOE+OO
o -J
MEAN CHORD LENGTH(CM) AND DANCOFF COLLECTION FACTOR 1.OOOOOE+00 0.OOOOOE+00
DENSITY, U-235 ENRICHMENT AND WTV. OF GD203 O.OOOOOE+00 O.OOOOOE+OO O.OOOOOE+00
INITIAL WEIGHT(G) SPECIFICATION
H 1 0 16 ZR 0 NI 0 CR 0 FE 0 NB 93
CONSTANT NUCLIDE DENSITY(#/CM**3) 4.58690E-02 2.29340E-02 8.79890E-04 9.69190E-04 3.84070E-04 3.55630E-04 5.77700E-05
SET SRAC POWER CORRECTION AND
CO 00
1 0
1
14 12
2 2 2 2
1 1 1 0
TABLE OF BURNUP HISTORY +-STP-H 1 1 1 2 1 3 1 4 1 5 1 6 1 7 1 8 1 9 1 10 1 11 1 12 1 13 1 14
TABLE ( +-STP-J 1 1 1 2 1 3 1 4 1 5 1 6 1 7 1 8 1 9 1 10 1 11 1 12 1 13
-COM-+-BUP I BUP 1 BUP 1 BUP 1 BUP 1 BUP 1 BUP 1 BUP 1 BUP 1 BUP 1 BUP 1 DEC I DEC I DEC I
—DAY +—MW( 1)—+ 2.63581 37.91601 23.73701 37.91601 39.56101 37.91601 65.93561 37.91601 65.93561 37.91601 65.93561 37.91601 131.87101 37.91601 131.87101 37.91601 131.87101 37.91601 131.87101 37.91601 79.12301 37.91601
1095.OOOO1 0.OOOO1 730.50001 0.00001 730.50001 0.00001
)F CUMULATIVE BURNUP r-MWD( 99 900 1499
2500 2500 2500 5000
1)—+CMUMWD( 1) + 93861 99.93861 01211 999.95071 99491 2499.94561 01421 4999.95991 01421 7499.97411 01421 9999.98841 02101 15000.00931
1 5000.02101 20000.03031 5000.02101 25000.05131 5000 02101 30000.07221 3000.02771 33000.10001
1 o 0 00001 33000.10001 00001 33000.10001
0RIGEN2 INPUT ECHO BACK
VOLUME IS GIVEN BY THE FOLLOWING REGION
TOTAL BURNUP STEP AND STEPS IN 0RIGEN2
COMMANDS BY EACH BURNUP STEP 2 2 2
OPERATION OF 0RIGEN2(0=DECAY;1=BURNUP) 1 1 1 1 0
I 14 I + +- 0.00001 33000.10001
CO CO
-STP-+-TMP( 1)—+-1 2 3 4 5 6 7 8 9 10 11 12 13 14
1000.001 1000.001 1000.001 1000.001 1000.001 1000.001 1000.001 1000.001 1000.001 1000.001 1000.001 1000.001 1000.001 1000.001
TMP( 2)—+-TMP( 3)—+ 600.001 600.001 600.001 600.001 600.001 600.001 600.001 600.001 600.001 600.001 600.001 600.001 600.001 600.001
COOLANT DENSITY DEPEND 0
581.051 581.051 581.051 581.051 581.051 581.051 581.051 581.051 581.051 581.051 581.051 581.051 581.051 581.051
ON REACTOR TYPE(-1=STD:0=PWR;1=BWR)
VOID RATIO ('/.) HISTORY 0.00000E+00 O.OOOOOE+OO O.OOOOOE+OO O.OOOOOE+OO O.OOOOOE+00 O.OOOOOE+00 O.OOOOOE+00 O.OOOOOE+00 O.OOOOOE+00 O.OOOOOE+00 O.OOOOOE+OO O.OOOOOE+OO O.OOOOOE+OO O.OOOOOE+OO
BORIC ACID CONC.(PPM) HISTORY O.OOOOOE+00 O.OOOOOE+00 O.OOOOOE+00 O.OOOOOE+00 O.OOOOOE+00 O.OOOOOE+00 O.OOOOOE+00 O.OOOOOE+00 O.OOOOOE+00 O.OOOOOE+00 O.OOOOOE+OO O.OOOOOE+00 O.OOOOOE+OO O.OOOOOE+OO
VARIABLE CROSS SECTION 0
BRANCHING RATIO
> Pd
D s» t O o a. CD
CO
o .fc. -J
( f i r , SS-^T-v/coftUcSrffT) ******************** *** STEP CCC1 *** ********************
***************************** INPUT ECHO BACK FOR CASE 1 **************************
## SRAC ##
o o
CASE NAME => CCC1 TOTAL MATERIAL NUMBER => 3
REGION MATERIAL 1 FM11X11X 2 FM12X12X 3 FM13X13X
BORIC CONC(PPM) => 0.000
## ORIGEN-2 ## OPERATION STATUS => BUP DAYS => 2.636 CALC. STEP => 12
REGION MW 1 3.79160E+01
TOTAL POWER — > 3.79160E+01 > w 2 ************************************************************************************ i o
( SRAC <DAt)ftl&<DtzihiZ, TABMAK rf&W)2tlZ>o - t rLT, I - X f ; ^ SRAC I Z i i ) g. o o a.
ENTER TABMAK FOR SRAC(MAKEI) REGION : 1 AT Sun Sep 28 08:32:59 1997 ® VERSION CONTROL DATA BY RCS co
$Date: 1997/10/15 01:41:43 $:$Revision: 1.3 $ "J1 o •fa.
- REGION NUMBER « 1 » - IN TOTAL NMAT( 3) ^ NO ISOTOPE MASS CALC. WEIGHT DENSITY RATI0(F0R ANA.) DENSITY(E-24) 2 U235 2.350439E+02 3.200000E+04 7.090802E+20 l.OOOOOOE+00 7.090802E-04 4 U238 2.380508E+02 9.680000E+05 2.117874E+22 l.OOOOOOE+00 2.117874E-02
0 16 NUMBER DENSITY HAS SET TO 4.37770E-02 IN PRM. FILE
- REGION NUMBER « 2 » - IN TOTAL NMAT( 3) ZR 0 NUMBER DENSITY HAS SET TO 4.25070E-02 IN PRM. FILE
- REGION NUMBER « 3 » - IN TOTAL NMAT( 3) H 1 NUMBER DENSITY HAS SET TO 4.58690E-02 IN PRM. FILE 0 16 NUMBER DENSITY HAS SET TO 2.29340E-02 IN PRM. FILE
ZR 0 NUMBER DENSITY HAS SET TO 8.79890E-04 IN PRM. FILE NI 0 NUMBER DENSITY HAS SET TO 9.69190E-04 IN PRM. FILE
I o I
CR 0 NUMBER DENSITY HAS SET TO 3.84070E-04 IN PRM. FILE FE 0 NUMBER DENSITY HAS SET TO 3.55630E-04 IN PRM. FILE NB 93 NUMBER DENSITY HAS SET TO 5.77700E-05 IN PRM. FILE
OUT TABMAK FOR SRAC(MAKEI) REGION : 1 AT Sun Sep 28 08:32:59 1997 (SRAC <n%ft)
*********************************************************** * * * sSSSS RRRR AA CCC * * S R R A A C C * * SSSSS RRRR AAAA C * * S R R A A C C * * SSSSs R R A A CCC * * * * DATE AND TIME Sun Sep 28 08:32:59 1997 * * * *********************************************************** t;
( SRAC -cSr*S*ifcffi2j#*tf>liWf ) M **** POWER DISTRIBUTION BY SRAC **** 3 BURNUP REGION MTNAME VOLUME POWER POW/VOL SPRATIO VOL.RATIO O p.
1 FM11X11X 5.48911E-01 5.33192E-01 9.71363E-01 l.OOOOOE+OO l.OOOOOE+OO ^ 0
SUM 5.48911E-01 5.33192E-01 g, CD
**** BURNUP DISTRIBUTION ( IRRADIATION 2.63579E+00 DAYS ) **** <o - - - _ - _ - - - - - _ - - - - - - _ - j
BURNUP REGION MTNAME SPRATIO MW MWD SUM OF MWD PEAK. FACT. ^ ,b.
1 FM11X11X l.OOOOOE+OO 3.79160E+01 9.99386E+01 9.99386E+01 l.OOOOOE+OO "^
AVR 3.79160E+01
( 0RIGEN2 <T>Ay\)'fe$L<r>tzt><r> TABMAK c O g K ) ENTER TABMAK FOR 0RI2(MAKEI) REGION : 1 AT Sun Sep 28 08:42:14 1997 VERSION CONTROL DATA BY RCS
$Date: 1997/10/15 01:41:43 $:$Revision: 1.3 $
OUT TABMAK FOR 0RI2(MAKEI) REGION : 1 AT Sun Sep 28 08:42:14 1997
( LIBMAK rtJfeSfr£*lT, 0RIGEN2 fflcOKfffi^cOftlS^ff-? > ENTER LIBMAK FOR CROSS SECTION OF REGION : 1 AT :Sun Sep 28 08:42:14 1997 VERSION CONTROL DATA BY RCS
$Date: 1997/10/15 01:41:43 $:$Revision: 1.3 $
SRAC95 ~ JAERI-DATA/CODES pp. 194-196 (PWR 3.2 WT*/. , 33000 MWD/THM)
- MICREFECTIVE LIBRARY -
HUMM. I KNOW THAT SRAC95 MAKES DUMMY MEMBER.I WILL CHANGE 6TH AND 7TH TAGS OF CU04T119 TO ZERO FOR LOOKING OUT HUMM I KNOW THAT SRAC95 MAKES DUMMY MEMBER.I WILL CHANGE 6TH AND 7TH TAGS OF KU04T119 TO ZERO FOR LOOKING OUT
o CO
( PDS File frbWLitltz*>'<—Z0i7FLT^Z> ) CU04F119 CU06F119 CNP7F119 CPU9F119 CPU1F119 CAM1F119 CAMGF119 CCM2F119 CCM4F119 CCM6F119 CGD4F119 CGD6F119 CGD8F119 CXE5F119 CRH3F119 CCS3F119 CTC9F119 CSM1F119 CEU3F119 CEU5F119 CSM0F119 CAG9F119 CRU1F119 CPD5F119 CRH5F119 CKR3F119 CSM7F119 CM07F119 CCS5F119 CXE3F119 CPR3F119 CRU3F119 CND7F119
MU04F119 MU06F119 MNP7F119 MPU9F119 MPU1F119 MAM1F119 MAMGF119 MCM2F119 MCM4F119 MCM6F119 MGD4F119 MGD6F119 MGD8F119 MXE5F119 MRH3F119 MCS3F119 MTC9F119 MSM1F119 MEU3F119 MEU5F119 MSM0F119 MAG9F119 MRU1F119 MPD5F119 MRH5F119 MKR3F119 MSM7F119 MM07F119 MCS5F119 MXE3F119 MPR3F119 MRU3F119 MND7F119
CU04T009 CU06T009 CNP7T119 CPU9T119 CPU1T119 CAM1T119 CAMGT119 CCM2T009 CCM4T009 CCM6T119 CGD4T009 CGD6T009 CGD8T009 CXE5T119 CRH3T119 CCS3T009 CTC9T009 CSM1T119 CEU3T119 CEU5T119 CSM0T009 CAG9T119 CRU1T009 CPD5T009 CRH5T119 CKR3T009 CSM7T119 CM07T009 CCS5T009 CXE3T009 CPR3T009 CRU3T009 CND7T009
KU04T009 KU06T009 KNP7T119 KPU9T119 KPU1T119 KAM1T119 KAMGT119 KCM2T009 KCM4T009 KCM6T119 KGD4T009 KGD6T009 KGD8T009 KXE5T119 KRH3T119 KCS3T009 KTC9T009 KSM1T119 KEU3T119 KEU5T119 KSM0T009 KAG9T119 KRU1T009 KPD5T009 KRH5T119 KKR3T009 KSM7T119 KM07T009 KCS5T009 KXE3T009 KPR3T009 KRU3T009 KND7T009
CU05F119 CU08F119 CPU8F119 CPU0F119 CPU2F119 CAMMF119 CAM3F119 CCM3F119 CCM5F119 CGD2F119 CGD5F119 CGD7F119 CGD0F119 CND3F119 CXE1F119 CSM9F119 CSM2F119 CPM7F119 CND5F119 CEU4F119 CM05F119 CPMMF119 CCS4F119 CPMGF119 CPR1F119 CPD8F119 CPD7F119 CCD3F119 CM08F119 CIN5F119 CEU6F119 CSM8F119 CPM9F119
MU05F119 MU08F119 MPU8F119 MPU0F119 MPU2F119 MAMMF119 MAM3F119 MCM3F119 MCM5F119 MGD2F119 MGD5F119 MGD7F119 MGD0F119 MND3F119 MXE1F119 MSM9F119 MSM2F119 MPM7F119 MND5F119 MEU4F119 MM05F119 MPMMF119 MCS4F119 MPMGF119 MPR1F119 MPD8F119 MPD7F119 MCD3F119 MM08F119 MIN5F119 MEU6F119 MSM8F119 MPM9F119
CU05T119 CU08T009 CPU8T119 CPU0T119 CPU2T119 CAMMT119 CAM3T119 CCM3T119 CCM5T119 CGD2T119 CGD5T119 CGD7T119 CGD0T009 CND3T009 CXE1T009 CSM9T119 CSM2T009 CPM7T009 CND5T009 CEU4T119 CM05T009 CPMMT119 CCS4T009 CPMGT009 CPR1T009 CPD8T119 CPD7T009 CCD3T119 CM08T009 CIN5T119 CEU6T009 CSM8T009 CPM9T009
KU05T119 KU08T009 KPU8T119 KPU0T119 KPU2T119 KAMMT119 KAM3T119 KCM3T119 KCM5T119 KGD2T119 KGD5T119 KGD7T119 KGD0T009 KND3T009 KXE1T009 KSM9T119 KSM2T009 KPM7T009 KND5T009 KEU4T119 KM05T009 KPMMT119 KCS4T009 KPMGT009 KPR1T009 KPD8T119 KPD7T009 KCD3T119 KM08T009 KIN5T119 KEU6T009 KSM8T009 KPM9T009
> M 2 T o R o o p-CD
CO - J I o J^ - J
— MEMBER OF NEUTRON SPECTRUM CCC1A010 — CONTROL DATA : C0NTA002 — FLUX / LETH. / VOLUME
1.13188E-06 9.48261E-02 7.46998E-01 1.18894E+00 8.63495E-01 5.54913E-01 4.49335E-01 4.18186E-01 3.87268E-01 3.25506E-01 4.85914E-01 5.24586E-01 5.65954E-01 6.05727E-01 7.43815E-01 1.21905E+00 2.70331E+00 1.83167E+00
,17439E-04 .60546E-01
8.75383E-01 17282E+00 90270E-01 30479E-01 39396E-01 14869E-01
3.25390E-01 4.47632E-01 4.47845E-01 5.26779E-01 5.82821E-01 6.23911E-01 7.69779E-01 1.38646E+00 2.26965E+00 1.23817E+00
1.47608E-03 2.47896E-01 9.88030E-01 1.13514E+00 7.22372E-01 5.09669E-01 4.31126E-01 4.05251E-01 2.83208E-01 3.82747E-01 4.99136E-01 5.29020E-01 5.63409E-01 6.40299E-01 8.32200E-01 8 1.60455E+00 2.38493E+00 7.96703E-01
21634E-03 55662E-01 07825E+00 08051E+00 65203E-01 99512E-01 20887E-01 98316E-01 04155E-01 . 50733E-01 .91145E-01 .41391E-01 85628E-01 .45327E-01 .96216E-01 •80849E+00 .60294E+00 .63387E-01
2.16708E-02 4 4.79487E-01 6 1.14300E+00 1 1.01442E+00 9 6.20852E-01 5 4.75060E-01 4 4.07735E-01 4 3.91054E-01 3 4.17100E-01 4 4.70100E-01 4 5.04251E-01 5 5.55758E-01 5 5.90963E-01 6 6.69207E-01 7 9.80115E-01 1 1.53831E+00 2 2.38331E+00 2 1.26168E-01
.95182E-02
.12543E-01
.17939E+00
.40377E-01
.84050E-01
.60076E-01
.07918E-01
.86646E-01
.26982E-01
.50822E-01
.07445E-01
.63253E-01
.00083E-01
.04274E-01
.08914E+00
.30682E+00
.59815E+00
( SRAC -?tmztifzm®m®mr\ mmifim&immzAti&ix^z ) — 0RIGEN2 NEXT RUN CROSS SECTION TABLE —
FOR FOR
922340 FISSION CROSS SECTION HAS SUBSTITUTED 922340 CAPTURE CROSS SECTION HAS SUBSTITUTED
4.705E-01 => 2.065E+01 =>
4.721E-01 2.227E+01
FOR FOR
922350 FISSION CROSS SECTION HAS SUBSTITUTED 922350 CAPTURE CROSS SECTION HAS SUBSTITUTED
4.867E+01 => 1.049E+01 =>
4.857E+01 1.027E+01
FOR 922360 FISSION CROSS SECTION HAS SUBSTITUTED 2.933E-01 => 3.013E-01 FOR 922360 CAPTURE CROSS SECTION HAS SUBSTITUTED 7.927E+00 => 8.592E+00
FOR FOR
922380 FISSION CROSS SECTION HAS SUBSTITUTED 922380 CAPTURE CROSS SECTION HAS SUBSTITUTED
9.526E02 => 5.940E+00 =>
9.516E02 9.255E01
( 0RIGEN2 7 + - 7 ; Mc J: & f t £ £ *l£—SMBfffifft?)** ) 204 204 204 204 204 204 204 204 204 204
310690 310710 320700 320720 320730 320740 320760 330750 340740 340760
005E-01 216E+00 107E-01 853E-02 911E+00 815E-02
3.236E-02 2.226E+00 1.969E+01 6.034E+00
6.394E-1.350E-2.117E-6.034E-7.417E-1.436E-2.228E-8.908E-1.213E-5.341E-
05 04 05 05 04 04 04 05 05 05
904E-291E-368E-955E-652E-549E-394E-231E-503E-229E-
05 04 04 04 05 05 06 07 06 03
641E-525E-728E-664E-821E-863E-948E-750E-412E-039E-
04 04 ■04 •03 ■05 05 06 ■07 •04 ■03
OOOE+OO 877E-02 OOOE+OO OOOE+OO OOOE+OO 075E-02 250E-02 OOOE+OO OOOE+OO 507E+00
0.OOOE+OO 0.OOOE+OO 0.OOOE+OO 0.OOOE+OO 0.OOOE+OO 0.OOOE+OO 0.OOOE+OO 0.OOOE+OO 0.OOOE+OO 0.OOOE+OO
> 2 7 o «L o o a. CD CO
o -J
&*£B& 206 206 206 206 206 206 206 206 NLB
631550 641550 631560 641560 641570 641580 651590 641600 NUCL
8 2 4 3 1 1 1 4
.309E+02
.420E+03
.282E+01
.539E+00
. 035E+04
.981E+00
.409E+01
.544E-01 CAPT
8 2 3 7. 3, 1 1 1.
. 775E-04
.581E-03
. 789E-03
.065E-04
.408E-03
.239E-03
.126E-03
.961E-03 N2N
3 1 1 3 4 1 1 1
.361E-07
.537E-06
.918E-07
.919E-06
.546E-07
.959E-05
.230E-07
.855E-07 N3N
8 1. 3 1. 7, 6 1 1
.868E-07
.136E-06
.486E-07
.242E-06
.550E-07
.742E-07
.081E-07
.761E-07 NF
0 0 0. 0. 0, 0 0 0
.000E+00
.OOOE+OO
.OOOE+OO
.OOOE+OO
.OOOE+OO
.OOOE+OO
.OOOE+OO
.OOOE+OO SNGX
0 0, 0, 0. 0. 0 0 0
.OOOE+OO
.OOOE+OO
.OOOE+OO
.OOOE+OO
.OOOE+OO
.OOOE+OO
.OOOE+OO
.OOOE+OO SN2NX
( ORIGEN-S -C'i%mZ1n-Z> 3 ><7*~9<n&7F ) THERM= 5.19712E-01 RES = 2.98328E-01 FAST= 2.15645E+00
OUT LIBMAK FOR CROSS SECTION OF REGION : 1 AT :Sun Sep 28 08:42:39 1997
( 0RIGEN2 WHfr )
o
*********************************************************** * * * * * *
00000 0 0 0 0 0 0 00000
RRRR R R RRRR R R R R
IIIII 1 1 1
inn
GGGGG G G GG G G GGGGGG
EEEEE E EEEE E EEEEE
N N NN N N NN N N NN N N
22222 22 22
22 22 2222222
* * * * * *
* * * DATE AND TIME Sun Sep 28 08:42:39 1997 * * * ***********************************************************
( 0RIGEN2 #~f?-*K TABMAK # * S * £«*!>£ tz*) IC&I&S fl2> ) ENTER TABMAK FOR 0RI2(STORE) REGION : 1 AT Sun Sep 28 08:42:53 1997 VERSION CONTROL DATA BY RCS
$Date: 1997/10/15 01:41:43 $:$Revision: 1.3 $
> ?0 O
o o Q. CD
I o A. -J
**** PREVIOUS BURN-UP CONDITION DISPLAY **** FOR BURN UP REGION NO. — > 1
* SRAC95 — JAERI-DATA/CODES pp. 194-196 (PWR 3.2 WT*/. , 33CCC1M P0WER= 3.79160E+01 MW, BURNUP= 9.99466E+01 MWD, FLUX= 2.78E+14 N/CM**2-SEC
REACTIVITY AND BURNUP DATA BASIS=C95 — JAERI-DATA/CODES pp. 194-196 (PWR 3.2 WT'/. , 33000 MWD/THM
TIME, SEC NEUT. FLUX SP POW.MW BURNUP,MWD K INFINITY NEUT PRODN NEUT DESTN TOT BURNUP AVG N FLUX AVG SP POW
0.OOE+OO 0.OOE+OO O.OOE+OO O.OOE+OO 0.00000 0.OOE+OO 0.OOE+OO 0.OOE+OO 0.OOE+OO 0.OOE+OO
2 2 3 9 l' 7 9 2 3
0.2D .07E+04 .77E+14 .79E+01 .10E+00 L.39528 .03E+04 .39E+03 .99E+01 .78E+14 .79E+01
0.5D 4.14E+04 2.77E+14 3.79E+01 9.06E+00 1.38353 1.03E+04 7.45E+03 9.99E+01 2.78E+14 3.79E+01
0.7D 6.21E+04 2.78E+14 3.79E+01 9.10E+00 1.37608 1.03E+04 7.49E+03 9.99E+01 2.78E+14 3.79E+01
l.OD 8.28E+04 2.78E+14 3.79E+01 9.06E+00 1.37177 1.03E+04 7.51E+03 9.99E+01 2.78E+14 3.79E+01
1.2D 1.04E+05 2.78E+14 3.79E+01 9.10E+00 1.36926 1.03E+04 7.53E+03 9.99E+01 2.78E+14 3.79E+01
1, 2, 3, 9 l' 7 9 2 3
1.4D .24E+05 .78E+14 .79E+01 .10E+00 L.36776 .03E+04 .53E+03 .99E+01 .78E+14 .79E+01
1. 2, 3, 9. l' 7 9 2 3
1.7D .45E+05 .78E+14 .79E+01 .06E+00 L.36681 .03E+04 .54E+03 .99E+01 .78E+14 .79E+01
1, 2 3, 9. l' 7 9 2 3
1.9D .66E+05 .78E+14 .79E+01 . 10E+00 L.36616 .03E+04 .54E+03 .99E+01 .78E+14 .79E+01
1. 2. 3 9 l" 7 9 2 3
2.2D .86E+05 .78E+14 .79E+01 .10E+00 L.36568 .03E+04 .54E+03 .99E+01 .78E+14 .79E+01
2.4D 2.07E+05 2.78E+14 3.79E+01 9.06E+00 1.36528 1.03E+04 7.54E+03 9.99E+01 2.78E+14 3.79E+01
2.6D 2.28E+05 2.78E+14 3.79E+01 9.10E+00 1.36494 1.03E+04 7.54E+03 9.99E+01 2.78E+14 3.79E+01
*************************************** * TOTAL WEIGHT AND 7.FIMA * ***************************************
** REGION NUMBER *
1 o en I
STEP TWA
STEP TWF
STEP GAP
STEP GAP
STEP DBU
STEP SBU
1.
0.
0.
4.
2.
0
1 , 000E+06 1
.OOOE+OO 1
.OOOE+OO 1
.203E+03 1
.162E-03 1
.OOOE+OO
1.
9.
4,
4
2
2
2 .OOOE+06 2
.415E+00 2
.838E-04 2
.202E+03 2
.162E-03 2
.162E-03
1 * TOTAL WEIGT - ACTINIDE 3 4 5 6 7 8 9 10 11
l.OOOE+06 1.000E+06 1.000E+06 1.000E+06 l.OOOE+06 l.OOOE+06 l.OOOE+06 l.OOOE+06 l.OOOE+06 1. * TOTAL WEIGT - FP
3 4 5 6 7 8 9 10 11 1.880E+01 2.822E+01 3.761E+01 4.703E+01 5-645E+01 6.584E+01 7.526E+01 8.469E+01 9.407E+01 1.
* (7.) FIMA 3 4 5 6 7 8 9 10 11
1.371E-03 2.355E-03 3 .342E-03 4 .236E-03 5 .219E-03 6 .206E-03 7 .190E-03 8.075E-03 9 .062E-03 1. * GRAM-ATOM(PRESENT)
3 4 5 6 7 8 9 10 11 4.202E+03 4.202E+03 4.202E+03 4.202E+03 4.202E+03 4.202E+03 4.202E+03 4.202E+03 4.202E+03 4 .
* DELTA MWD/GRAM-ATOM(PRESENT) 3 4 5 6 7 8 9 10 11
2 .162E-03 2.162E-03 2 .162E-03 2 .162E-03 2 .162E-03 2 .162E-03 2 .162E-03 2 .162E-03 2 .162E-03 * MWD/GRAM-ATOM(PRESENT)
3 4 5 6 7 8 9 10 11 4.324E-03 6.486E-03 8.648E-03 1.081E-02 1.297E-02 1.513E-02 1.730E-02 1.946E-02 2.162E-02 2
12 000E+06 12 035E+02 12 005E-02 12 202E+03
> 2 1 o ? O o CL. CD CO -4 I o -4
12 378E-02
( £<7) 0RIGEN2 <DKt)iZt£hT~^<r)^j^ ) * NEXT ORIGEN-2 INPUT DATA *
- REGION NUMBER TL206 O.OOOOOE+00 TL207 PB208 7.33919E-21 PB209 BI208 0.00000E+00 BI209 BI213 1.81729E-25 BI214 P0213 2.72646E-34 P0214 RN218 1.48360E-30 RN219 RA222 1.64032E-27 RA223
« 1 » - DATA TO 4.73706E-24 TL208 1.46738E-28 PB210 0.00000E+00 BI210M O.OOOOOE+OO P0210 6.83666E-33 P0215 5.03926E-26 RN220 1.28010E-20 RA224
UNIT 5 2.27915E-23 4.54514E-26 O.OOOOOE+00 O.OOOOOE+00 2.22375E-29 5.69819E-23 3.29918E-19
TL209 PB211 BI210 P0211M P0216 RN222 RA225
1. 3, 0 0 1 0 1
.85671E-28
.66439E-23
. OOOOOE+00
.OOOOOE+00
.50933E-25
.OOOOOE+00
.67833E-20
PB206 PB212 BI211 P0211 P0218 FR221 RA226
0. 1, 2 2, 0 1 1.
.OOOOOE+00
.52174E-20
.16222E-24
.65286E-29
.OOOOOE+00
.28588E-25
.52016E-18
PB207 PB214 BI212 P0212 AT217 FR223 RA228
3, 0. 1, 6 1 1 1
.00863E-22
.OOOOOE+00
.27446E-21
.74273E-32
.41605E-29
.68893E-22
.69175E-22
AC225 TH229 PA231 U230 U236 NP235 NP240M PU239 PU245 AM242 CM241 CM247 BK250 CF253 ES255 V 66 CU 66 NI 67
i
3. 7. 1. 6 2 3 2. 1. 1. 1. 2 0 0. 0. 0 3 2 1
.92662E-22 80243E-14 .16472E-07 .82647E-23 .08323E+01 .08753E-12 •03223E-05 .71054E+01 .89194E-20 .4275IE-11 .58229E-20 .00000E+00 .00000E+00 .00000E+00 .00000E+00 .82159E-24 .27728E-11 .18856E-11 £B&
AC227 TH230 PA232 U231 U237 NP236M NP240 PU240 PU246 AM243 CM242 CM248 BK251 CF254 DUMMY CR 66 ZN 66 CU 67
6. 7. 1. 6, 2. 2. 6. 4. 0. 2. 5, 0. 0. 0 0. 1. 6 7
54385E-15 .14259E-11 .19860E-10 .91635E-17 .07506E-01 .99059E-10 87823E-04 .71167E-02 .00000E+00 .70813E-11 .29779E-12 .00000E+00 .00000E+00 .00000E+00 .00000E+00 .24528E-17 . 63098E-09 .91924E-08
AC228 TH231 PA233 U232 U238 NP236 NP241 PU241 AM239 AM244M CM243 CM249 CF249 CF255 MN 66 CR 67 ZN 67
5. 1. 2. 4. 9 1. 7. 2. 4, 8. 1. 0. 0 0. 7. 1 3
87463E-18 , 06523E-07 .27164E-11 .95518E-11 .67937E+05 59227E-10 69784E-12 .00194E-04 . 12220E-19 44336E-16 .97905E-16 .00000E+00 .00000E+00 .00000E+00 .44112E-16 .61870E-18 .13431E-08
TH226 TH232 PA234M U233 U239 NP237 PU236 PU242 AM240 AM244 CM244 CM250 CF250 ES253 FE 66 MN 67 GA 67
8. 2. 3 5. 5, 2, 7. 1. 3 4. 1 0 0 0 3 1 5
.15236E-26 18834E-09 .45969E-11 .03136E-06 .09375E-01 .90781E-02 .65933E-11 31086E-07 28742E-17 .16347E-16 .23541E-14 .00000E+00 .00000E+00 .00000E+00 .17452E-13 .03954E-15 .57104E-19
TH227 TH233 PA234 U234 U240 NP238 PU237 PU243 AM241 AM245 CM245 CM251 CF251 ES254M CO 66 FE 67 CR 68
3. 7. 1. 7. 3 1. 3 1. 1. 1. 2 0. 0. 0. 3 1 1
90078E-19 00958E-15 .30914E-11 .10432E-03 .65582E-05 .92375E-05 .70031E-10 .77035E-11 .58210E-08 .51902E-19 •27042E-18 •OOOOOE+00 .OOOOOE+00 •OOOOOE+00 •61197E-13 •59352E-13 •48540E-19
TH228 TH234 PA235 U235 U241 NP239 PU238 PU244 AM242M AM246 CM246 BK249 CF252 ES254 NI 66 CO 67 MN 68
7. 1. 4 3 8 3 4 2 2 0 2 0 0 0 1 1 1
63245E-16 02605E-06 .43647E-16 . 18811E+04 .01859E-15 .92304E+01 .96357E-06 .64539E-15 .54570E-12 .OOOOOE+OO .63659E-22 .OOOOOE+OO .OOOOOE+OO .OOOOOE+OO .46830E-08 .3533IE-12 . 11585E-16
************************************* * SUMMARY OF 0RIGEN2 RESULTS * *************************************
OUT TABMAK FOR 0RI2(ST0RE) REGION : 1 AT Sun Sep 28 08:45:27 1997 ( % 2 XT?7*>ft*0)HM& )
******************** *** STEP CCC2 *** ********************
***************************** INPUT ECHO BACK FOR CASE 2 ************************** ## SRAC ##
CASE NAME => CCC2 TOTAL MATERIAL NUMBER => 3
>
O to
O o a.
o —J
REGION MATERIAL — 1 FM14X14X 2 FM15X15X 3 FM16X16X
BORIC CONC(PPM) => 0.000
## ORIGEN-2 ## OPERATION STATUS => BUP DAYS => 23.737 CALC. STEP => 12
REGION MW 1 3.79160E+01
TOTAL POWER — > 3.79160E+01
************************************************************************************
( SRAC 0)Ajltt-$L<r>tz*)\Z TABMAK jj*j|fif& ) ( SRAC <r>Ajiiztj;Z>W,:f-fa%&%t<r)WF )
ENTER TABMAK FOR SRAC(MAKEI) REGION : 1 AT Sun Sep 28 08:45:37 1997 VERSION CONTROL DATA BY RCS
$Date: 1997/10/15 01:41:43 $:$Revision: 1.3 $
- REGION NO ISOTOPE 1 U234 2. 2 U235 2. 3 U236 2. 4 U238 2. 5 NP237 2. 6 PU238 2. 7 PU239 2. 8 PU240 2. 9 PU241 2. 10 PU242 2. 11 AM241 2. 12 AM242M 2. 13 AM242 2. 14 AM243 2. 15 CM242 2. 16 CM243 2. 17 CM244 2. 18 CM245 2. 19 CM246 2. 20 GD152 1. 21 GD154 1. 22 GD155 1. 23 GD156 1. 24 GD157 1. 25 GD158 1. 26 GD160 1. 27 XE135 1. 28 ND143 1. 29 RH103 1.
NUMBER « MASS
340409E+02 350439E+02 360456E+02 380508E+02 370482E+02 380496E+02 390522E+02 400538E+02 410568E+02 420587E+02 410568E+02 420595E+02 420595E+02 430614E+02 420588E+02 430614E+02 440627E+02 450655E+02 460672E+02 519198E+02 539209E+02 549226E+02 559221E+02 569240E+02 579241E+02 599271E+02 349072E+02 429098E+02 029055E+02
1 » - IN TOTAL CALC. WEIGHT 7.104320E-03 1. 3.188110E+04 7. 2.083230E+01 4. 9.679370E+05 2. 2.907810E-02 6. 4.963570E-06 1. 1.710540E+01 3. 4.711670E-02 1. 2.001940E-04 4. 1.310860E-07 2. 1.582100E-08 3. 2.545700E-12 5. 1.427510E-11 3. 2.708130E-11 5. 5.297790E-12 1. 1.979050E-16 4. 1.235410E-14 2. 2.270420E-18 4. 2.636590E-22 5. 4.941500E-09 1. 9.124330E-09 3. 1.204710E-05 4. 4.570110E-04 1. 4.053830E-03 1. 4.040000E-03 1. 3.406700E-04 1. 2.017880E-01 7. 7.833640E-02 2. 3.183800E-02 1.
NMAT( 3) DENSITY 580975E+14 064455E+20 596590E+17 117736E+22 388867E+14 085978E+11 726791E+17 022258E+15 325397E+12 820525E+09 418290E+08 477463E+04 071506E+05 802939E+05 139904E+05 240677E+00 636356E+02 825235E-02 580630E-06 694099E+08 087436E+08 050066E+11 526558E+13 345460E+14 332378E+14 109447E+13 790308E+15 854933E+15 611393E+15
RATIO(FOR ANA.) l.OOOOOOE+00 l.OOOOOOE+00 l.OOOOOOE+00 l.OOOOOOE+00 l.OOOOOOE+00 l.OOOOOOE+00 1.OOOOOOE+00 l.OOOOOOE+00 l.OOOOOOE+00 l.OOOOOOE+00 l.OOOOOOE+00 1.OOOOOOE+00 l.OOOOOOE+00 l.OOOOOOE+00 l.OOOOOOE+00 l.OOOOOOE+00 l.OOOOOOE+00 l.OOOOOOE+00 l.OOOOOOE+00 l.OOOOOOE+00 l.OOOOOOE+00 l.OOOOOOE+00 l.OOOOOOE+00 l.OOOOOOE+00 l.OOOOOOE+00 l.OOOOOOE+00 l.OOOOOOE+00 l.OOOOOOE+00 l.OOOOOOE+00
DENSITY(E-24) 1.580975E-10 7.064455E-04 4.596590E-07 2.117736E-02 6.388867E-10 1.085978E-13 3.726791E-07 1.022258E-09 4.325397E-12 2.820525E-15 3.418290E-16 5.477463E-20 3.071506E-19 5.802939E-19 1.139904E-19 4.240677E-24 2.636356E-22 4.825235E-26 5.580630E-30 1.694099E-16 3.087436E-16 4.050066E-13 1.526558E-11 1.345460E-10 1.332378E-10 1.109447E-11 7.790308E-09 2.854933E-09 1.611393E-09
30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50 51 52 53 54 55 56 57 58 59 60 61 62 63 64 65 66
XE131 CS133 SM149 TC 99 SM152 SM151 PM147 EU153 ND145 EU155 EU154 SM150 MO 95 AG109 PM148M RU101 CS134 PD105 PM148 RH105 PR141 KR 83 PD108 SM147 PD107 MO 97 CD113 CS135 MO 98 XE133 IN115 PR143 EU156 RU103 SM148 ND147 PM149
0 16 NUMBER
1. 1. 1. 9. 1. 1. 1. 1, 1 1 1 1 9 1. 1, 1. 1, 1, 1. 1 1 8 1 1 1 9 1 1 9 1 1 1 1 1 1 1 1
309051E+02 329054E+02 489172E+02 890625E+01 519197E+02 509199E+02 469151E+02 •529212E+02 •449126E+02 •549229E+02 •539230E+02 •499173E+02 490584E+01 089048E+02 .479175E+02 009056E+02 339067E+02 .049051E+02 .479175E+02 .049057E+02 .409076E+02 .291414E+01 .079039E+02 .469149E+02 .069051E+02 .690602E+01 .129044E+02 •349060E+02 •790541E+01 •329059E+02 .149039E+02 .429108E+02 .559248E+02 .029063E+02 .479148E+02 •469161E+02 .489183E+02
1. 2. 1. 5. 1. 1. 1. 4. 2. 2. 5, 3. 6. 1. 4. 2. 5. 1. 8 2 8 1 4 7 9 1 7. 7 2 1 1 1 9 1 8 1 4 DENSITY HAS SET
528900E-01 639400E-01 848100E-01 830390E-01 890750E-01 409760E-01 143950E-01 .152560E-02 .163550E+00 .490770E-02 .574750E-05 .182470E-02 496730E-04 631660E-02 629070E-05 268860E+00 733140E-05 .835100E-01 .675070E-05 .732240E-01 .341680E-02 .763070E-01 .636230E-02 .355920E-05 .631730E-02 .588080E+00 .028020E-03 .931440E-01 .476190E+00 .952480E+00 .497040E-03 .570710E+00 .019260E-03 .425030E+00 .106110E-06 .349490E+00 .764630E-01
6. 1. 6. 3. 6. 4. 4. 1. 7. 8. 1. 1. 3. 7. 1. 1. 2. 9. 3 1 3 1, 2 2 4 8 3 3 1. 7 6 5 3 7 2 4 1
TO 4.37770E-
082988E+15 034325E+16 463609E+15 070211E+16 482079E+15 865114E+15 055411E+15 .414303E+15 .775983E+16 373605E+14 .886324E+12 .105623E+15 565302E+13 803281E+14 629929E+12 .171081E+17 229896E+12 .110823E+15 .054555E+12 •356483E+16 •083283E+15 .107479E+16 •237805E+15 •607748E+12 •692456E+15 •535246E+16 •242026E+14 .062071E+16 •317261E+17 •651326E+16 .785676E+13 .724339E+16 .012661E+14 .212343E+16 .854271E+11 .784039E+16 .666385E+16 -02 IN PRM.
1. 1. 1. 1. 1. 1, 1. 1 1 1 1 1 1. 1. 1. 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1
.OOOOOOE+OO
.OOOOOOE+OO
.OOOOOOE+OO OOOOOOE+OO .OOOOOOE+00 .OOOOOOE+00 .OOOOOOE+00 .OOOOOOE+00 .OOOOOOE+00 .OOOOOOE+00 .OOOOOOE+00 .OOOOOOE+00 .OOOOOOE+00 .OOOOOOE+00 .OOOOOOE+00 •OOOOOOE+00 •OOOOOOE+00 •OOOOOOE+00 .OOOOOOE+00 .OOOOOOE+00 .OOOOOOE+00 .OOOOOOE+00 .OOOOOOE+OO .OOOOOOE+00 .OOOOOOE+00 .OOOOOOE+00 .OOOOOOE+00 .OOOOOOE+00 .OOOOOOE+00 .OOOOOOE+00 .OOOOOOE+00 .OOOOOOE+00 .OOOOOOE+00 .OOOOOOE+00 .OOOOOOE+00 .OOOOOOE+00 .OOOOOOE+00
FILE
ZR - REGION NUMBER « 2 »
0 NUMBER DENSITY HAS SET TO - IN TOTAL NMAT( 3) 4.25070E-02 IN PRM. FILE
- REGION NUMBER « 3 » H 1 NUMBER DENSITY HAS SET TO 0 16 NUMBER DENSITY HAS SET TO ZR 0 NUMBER DENSITY HAS SET TO NI 0 NUMBER DENSITY HAS SET TO CR 0 NUMBER DENSITY HAS SET TO
- IN TOTAL NMAT( 3) 4.58690E-02 IN PRM. FILE 2.29340E-02 8.79890E-04 9.69190E-04 3.84070E-04
IN PRM. IN PRM.
PRM. PRM.
IN IN
FILE FILE FILE FILE
6.082988E-09 1.034325E-08 6.463609E-09 3.070211E-08 6.482079E-09 4.865114E-09 4.055411E-09 1.414303E-09 7.775983E-08 8.373605E-10 1.886324E-12 1.105623E-09 3.565302E-11 7.803281E-10 1.629929E-12 1.171081E-07 2.229896E-12 9.110823E-09 3.054555E-12 1.356483E-08 3.083283E-09 1.107479E-08 2.237805E-09 2.607748E-12 4.692456E-09 8.535246E-08 3.242026E-10 3.062071E-08 1.317261E-07 7.651326E-08 6.785676E-11 5.724339E-08 3.012661E-10 7.212343E-08 2.854271E-13 4.784039E-08 1.666385E-08
FE 0 NUMBER DENSITY HAS SET TO 3.55630E-04 IN PRM. FILE NB 93 NUMBER DENSITY HAS SET TO 5.77700E-05 IN PRM. FILE
OUT TABMAK FOR SRAC(MAKEI) REGION : 1 AT Sun Sep 28 08:45:38 1997 ( SRAC <T)%fi )
*********************************************************** * * * sSSSS RRRR AA CCC * * S R R A A C C * * SSSSS RRRR AAAA C * * S R R A A C C * * SSSSs R R A A CCC * * * * DATE AND TIME Sun Sep 28 0 8 : 4 5 : 3 8 1997 * * * ***********************************************************
&*£B&
( m 14 7,Tvy^<r>i\% ) g *** STEP CCCE *** I
******************** *** STEP CCCE *** ********************
***************************** INPUT ECHO BACK FOR CASE 14 ************************** ## SRAC ##
CASE NAME => CCCE TOTAL MATERIAL NUMBER => 3 REGION MATERIAL
1 FM25X25X 2 FM26X26X 3 FM27X27X
BORIC CONC(PPM) => 0.000
## ORIGEN-2 ## OPERATION STATUS => DEC DAYS => 730.500 CALC. STEP => 12
TOTAL POWER — > O.OOOOOE+00
*********************************************************************************
ENTER TABMAK FOR SRAC(MAKEI) REGION : 1 AT Sun Sep 28 11:11:22 1997 VERSION CONTROL DATA BY RCS
$Date: 1997/10/15 01:41:43 $:$Revision: 1.3 $
- REGION NO ISOTOPE 1 U234 2. 2 U235 2. 3 U236 2. 4 U238 2. 5 NP237 2. 6 PU238 2. 7 PU239 2. 8 PU240 2. 9 PU241 2. 10 PU242 2. 11 AM241 2. 12 AM242M 2. 13 AM242 2. 14 AM243 2. 15 CM242 2. 16 CM243 2. 17 CM244 2. 18 CM245 2. 19 CM246 2. 20 GD152 1. 21 GD154 1. 22 GD155 1. 23 GD156 1. 24 GD157 1. 25 GD158 1. 26 GD160 1. 27 XE135 1. 28 ND143 1. 29 RH103 1. 30 XE131 1. 31 CS133 1. 32 SM149 1. 33 TC 99 9. 34 SM152 1. 35 SM151 1. 36 PM147 1. 37 EU153 1. 38 ND145 1. 39 EU155 1. 40 EU154 1.
NUMBER « MASS
340409E+02 350439E+02 360456E+02 380508E+02 370482E+02 380496E+02 390522E+02 400538E+02 410568E+02 420587E+02 410568E+02 420595E+02 420595E+02 430614E+02 420588E+02 430614E+02 440627E+02 450655E+02 460672E+02 519198E+02 539209E+02 549226E+02 559221E+02 569240E+02 579241E+02 599271E+02 349072E+02 429098E+02 029055E+02 309051E+02 329054E+02 489172E+02 890625E+01 519197E+02 509199E+02 469151E+02 529212E+02 449126E+02 549229E+02 539230E+02
1 » - IN TOTAL NMAT( 3) CALC. WEIGHT 6.876480E+00 8.738110E+03 3.731830E+03 9.431740E+05 4.008730E+02 1.279240E+02 5.707050E+03 2.216290E+03 1.101480E+03 4.976240E+02 3.346120E+02 5.132270E-01 6.622490E-06 8.645170E+01 6.617050E-03 2.127700E-01 2.019710E+01 1.370490E+00 1.016040E-01 1.573710E-02 7.183910E+00 3.658240E+00 6.845660E+01 9.601760E-02 1.618560E+01 1.006230E+00 0.OOOOOOE+OO 8.127230E+02 4.865510E+02 4.335700E+02 1.149090E+03 3.475680E+00 8.117030E+02 1.285290E+02 1.165360E+01 5.342500E+01 1.050900E+02 6.744030E+02 3.574530E+00 1.215930E+01
DENSITY 1.530272E+17 1.936257E+20 8.234181E+19 2.063558E+22 8.807743E+18 2.798846E+18 1.243407E+20 4.808531E+19 2.379861E+19 1.070718E+19 7.229637E+18 1.104286E+16 1.424930E+11 1.852474E+18 1.423764E+14 4.559202E+15 4.310046E+17 2.912649E+16 2.150560E+15 5.395166E+14 2.430848E+17 1.229849E+17 2.286662E+18 3.186809E+15 5.337954E+17 3.276950E+16 0.OOOOOOE+00 2.961931E+19 2.462545E+19 1.725032E+19 4.503039E+19 1.215596E+17 4.274328E+19 4.406374E+18 4.021684E+17 1.893967E+18 3.579217E+18 2.423862E+19 1.201705E+17 4.114334E+17
RATIO(FOR ANA.) 1.OOOOOOE+00 l.OOOOOOE+00 l.OOOOOOE+00 l.OOOOOOE+00 1.OOOOOOE+00 1.OOOOOOE+00 l.OOOOOOE+00 1.OOOOOOE+00 l.OOOOOOE+00 1.OOOOOOE+00 1.OOOOOOE+00 l.OOOOOOE+00 1.OOOOOOE+00 l.OOOOOOE+00 1.OOOOOOE+00 1.OOOOOOE+00 1.OOOOOOE+00 1.OOOOOOE+00 l.OOOOOOE+00 l.OOOOOOE+00 l.OOOOOOE+00 l.OOOOOOE+00 l.OOOOOOE+00 l.OOOOOOE+00 l.OOOOOOE+00 l.OOOOOOE+00 l.OOOOOOE+00 l.OOOOOOE+00 l.OOOOOOE+00 l.OOOOOOE+00 l.OOOOOOE+00 l.OOOOOOE+00 1.OOOOOOE+OO l.OOOOOOE+00 l.OOOOOOE+00 l.OOOOOOE+00 1.OOOOOOE+00 1.OOOOOOE+00 1.OOOOOOE+00 l.OOOOOOE+00
DENSITY(E-24) 1.530272E-07 1.936257E-04 8.234181E-05 2.063558E-02 8.807743E-06 2.798846E-06 1.243407E-04 4.808531E-05 2.379861E-05 1.070718E-05 7.229637E-06 1.104286E-08 1.424930E-13 1.852474E-06 1.423764E-10 4.559202E-09 4.310046E-07 2.912649E-08 2.150560E-09 5.395166E-10 2.430848E-07 1.229849E-07 2.286662E-06 3.186809E-09 5.337954E-07 3.276950E-08 0.OOOOOOE+00 2.961931E-05 2.462545E-05 1.725032E-05 4.503039E-05 1.215596E-07 4.274328E-05 4.406374E-06 4.021684E-07 1.893967E-06 3.579217E-06 2.423862E-05 1.201705E-07 4.114334E-07
> w 2 T o o o ex CD CO -J I o .&. -J
41 SM150 42 MO 95 43 AG109 44 PM148M 45 RU101 46 CS134 47 PD105 48 PM148 49 RH105 50 PR141 51 KR 83 52 PD108 53 SM147 54 PD107 55 MO 97 56 CD113 57 CS135 58 MO 98 59 XE133 60 IN115 61 PR143 62 EU156 63 RU103 64 SM148 65 ND147 66 PM149 0 16 NUMBER
1.499173E+02 2. 9.490584E+01 7. 1.089048E+02 8. 1.479175E+02 5. 1.009056E+02 7. 1.339067E+02 2. 1.049051E+02 3. 1.479175E+02 4. 1.049057E+02 0. 1.409076E+02 1. 8.291414E+01 4. 1.079039E+02 1. 1.469149E+02 2. 1.069051E+02 2. 9.690602E+01 7. 1.129044E+02 9. 1.349060E+02 3. 9.790541E+01 8. 1.329059E+02 0. 1.149039E+02 1. 1.429108E+02 0. 1.559248E+02 0. 1.029063E+02 6. 1.479148E+02 1. 1.469161E+02 0. 1.489183E+02 0. DENSITY HAS SET
764910E+02 9. 535740E+02 4. 900210E+01 4. 868850E-14 2. 627250E+02 3. 197240E+01 8. 761190E+02 1. 037920E-16 1. OOOOOOE+OO 0. 093280E+03 4. 225470E+01 2. 459870E+02 7. 106710E+02 7. 198970E+02 1. 986900E+02 4. 660670E-02 4. 364270E+02 1. 078970E+02 4. OOOOOOE+OO 0. 550920E+00 7. OOOOOOE+OO 0. OOOOOOE+00 0. 053820E-13 3. 405080E+02 4 , OOOOOOE+00 0 OOOOOOE+OO 0 TO 4.37770E
605583E+18 135494E+19 256453E+18 066465E+03 936835E+19 546131E+17 867339E+19 421781E+01 OOOOOOE+OO 041022E+19 654244E+18 046468E+18 468499E+18 .071310E+19 .292615E+19 .456468E+15 .298835E+19 .297776E+19 .OOOOOOE+OO .029900E+16 .OOOOOOE+OO .OOOOOOE+00 .063951E+04 .947477E+18 .OOOOOOE+OO .OOOOOOE+00 -02 IN PRM.
1.OOOOOOE+OO 1.OOOOOOE+00 1.OOOOOOE+OO 1.OOOOOOE+00 1.OOOOOOE+00 1.OOOOOOE+OO 1.OOOOOOE+00 1.OOOOOOE+00 1.OOOOOOE+00 1.OOOOOOE+00 1.OOOOOOE+00 1.OOOOOOE+00 1.OOOOOOE+00 1.OOOOOOE+00 1.OOOOOOE+00 1.OOOOOOE+00 1.OOOOOOE+00 1.OOOOOOE+00 1.OOOOOOE+00 1.OOOOOOE+00 1.OOOOOOE+00 1.OOOOOOE+00 1.OOOOOOE+00 1.OOOOOOE+00 1.OOOOOOE+00 1.OOOOOOE+00
FILE
ZR - REGION NUMBER « 2 »
0 NUMBER DENSITY HAS SET TO - IN TOTAL NMAT( 3) 4.25070E-02 IN PRM. FILE
- REGION NUMBER « H 1 NUMBER DENSITY HAS 0 16 NUMBER DENSITY HAS ZR 0 NUMBER DENSITY HAS NI 0 NUMBER DENSITY HAS CR 0 NUMBER DENSITY HAS FE 0 NUMBER DENSITY HAS NB 93 NUMBER DENSITY HAS
3 » SET TO SET TO SET TO SET TO SET TO SET TO SET TO
- IN TOTAL NMAT( 3) 4.58690E-02 IN PRM. 2.29340E-02 IN PRM. 8.79890E-04 IN PRM. 9.69190E-04 IN PRM. 3.84070E-04 IN PRM. 3.55630E-04 IN PRM. 5.77700E-05 IN PRM.
FILE FILE FILE FILE FILE FILE FILE
OUT TABMAK FOR SRAC(MAKEI) REGION : 1 AT Sun Sep 28 11:11:22 1997
i£+«B& . . . ( CPU B#W3<75fE* )
9.605583E-06 4.135494E-05 4.256453E-06 2.066465E-21 3.936835E-05 8.546131E-07 1.867339E-05 1.421781E-23 0.OOOOOOE+OO 4.041022E-05 2.654244E-06 7.046468E-06 7.468499E-06 1.071310E-05 4.292615E-05 4.456468E-09 1.298835E-05 4.297776E-05 0.OOOOOOE+OO 7.029900E-08 £-0.OOOOOOE+OO g 0.OOOOOOE+00 W 3.063951E-20 " 4.947477E-06 Q 0. OOOOOOE+OO g. 0.OOOOOOE+00 ^
9 a. CD
O
ELAPSED TIME (S) 2394.280 USER TIME (S) 2349.130 SYSTEM TIME (S) 45.150
I
> PI
o o a. CD
C3
~ 4
JAERI-Data/Code 97-047
± f c f f i f t # O f t £ i | g £ £ , Tab le 7.1iZ7fsto ZZiZ<zFP it, E & # £ £ ^ > K
yy 9mimm%ft [20] *x, mmi&mcowB%%£nmmizis^x%m ix h <u><h 3 fix^^ybmifexh/bo
Zcomfrbtofr&fr, iltAst'co actinide iZiS^X, SRAC95 tm$co§fMaW:t t£^XiS<0, U ^ Pu iZ-Z)\,^XitmAXh, 2%m&co%LX%7%ii:ft^X^yho Actinide co^Xit, Cm comiZfacotimMco^frMLhAZte^Z^l, 5 % t ^ o t t ^ „ F P U is^xn, sm mm£cotmm<D£fr, t u ^ ^ ^ / F L , 3%CD^-?£>&0 coticD FP it£ < - g t u t ^ i o
- c o | g ^ t : i o x&Ztitz£ 7 ^ , SRAC95 o«*ffift£#§*<h SWAT coftJIIr^li , j ; < ^ ^ L t t ^ o zcomt, SWAT it, mmFiiifaizmix, SRAC95 iz£z>mm 0<fci,>ft£*£*££Loo, 1000 J^±co|5]f5ft;co^^ftt:^-^t;ftx.^, n - K T - * * -i ch ^ L t v > 4 0
- 1 1 3 -
JAERI-Data/Code 97-047
Table 7.1: Comparison of Nuclide Density ( # 1024/cm3) between SRAC95 and SWAT
Isotope
U-235
U-236
U-238
Np-237
Pu-238
Pu-239
Pu-240
Pu-241
Pu-242
Am-241
Am-242m Cm-242
Cm-244
Rh-103
Nd-143
Cs-133
Tc-99 Sm-152
Gd-155
Nd-145
Sm-147
Mo-95
Eu-153
Sm-150
Sm-149
SRAC95
1.924(-4)*
8.243(-5)
2.064(-2)
8.501(-6)
2.727(-6) 1.221(-4)
4.783(-5)
2.332(-5)
1.061(-5)
7.056(-6)
1.131(-8) 1.355(-10)
4.287(-7)
2.443(-5)
2.942(-5)
4.424(-5)
4.157(-5)
4.472(-6)
1.201(-7)
2.408(-5)
7.534(-6)
4.091(-5)
3.498(-6)
9.958(-6)
1.257(-7)
SWAT(9707A)
1.936(-4)
8.234(-5)
2.064(-2)
8.808(-6)
2.799(-6)
1.243(-4)
4.809(-5)
2.380(-5)
1.071(-5)
7.230(-6)
1.104(-8) 1.424(-10)
4.310(-7)
2.463(-5)
2.962(-5)
4.503(-5)
4.274(-5)
4.406(-6)
1.230(-7)
2.424(-5)
7.468(-6)
4.135(-5)
3.579(-6)
9.606(-6)
1.216(-7)
SWAT/SRAC
1.006
0.999
1.000
1.036
1.026
1.018
1.005
1.021
1.009
1.025
0.976 1.051
1.005
1.008
1.007
1.018
1.028
0.985
1.024
1.007
0.991
1.011
1.023
0.965
0.967 j
* read as 1.924xl0~4
- 1 1 4 -
JAERI-Data/Code 97-047
8 SWAT <D7n<7z7*><7l,CMlT
8.1 7 7"OHSi#
SWAT fi. Table 8.1 I : / T t 7 r ^ ^ f l t ^ „ & # 97 it, *f-? ]) ~tot)COtztb izi%m2tizff)x\ hi, mn<Dtot)frA£<^^-t^^coxhfut, %*>bi>&mix'& L v > 0
8.2 mw
SWAT it^y/U )imz, PARAMS.SWAT t v> 7 mQcoAZ 3 £ 5 E I | - * - * / * 7 y -97 7 iVs-ki >9fr- K1"&0
^com^TiZjfi-to ^fi^fico/ty y - 9 coMmtVXTcom^Xhho * 7 3 f l l i , r*
MAXSRACN(IOO)
SRAC izisiiz-^cownfrfi-t&mAmimm
MAXBRG(20)
MAXNUC(3000)
ORIGEN2 C0t\%iZiSi7hWiAmfafogt.
MAXBSTP(IOO)
mA<DBM77-yy
MAXENG(107)
IGF(74)
MAXLNUC(2000)
SWAT 7-f7"7'J K £ i t £ i : * M $ :
- 1 1 5 -
JAERI-Data/Code 97-047
MAXSLE(400)
SWAT y 4 7y ') iZ&lf2>%±zz.*)V*F&&
IOORIG(95)
* ]) 'J-ff^ts. ORIGEN2 coy 7 4 ^ £ ^ & & t H J | #
IOMOD(9)
#fU> ORIGEN2 W7 7 ^ £ # £ j A f r M
NLBST(204)
ORIGEN2 y 4 Yy 'J iZisifi, light nuclide <T> NLB # #
NLBAC(205)
ORIGEN2 y 4 yy') izisif h actinide CO NLB # ^
NLBFP(206)
ORIGEN2 y^Yy 'J iZisifZ FP <n NLB #-5§-
MAXSUB(500)
SRAC C & l t & S ^ W sub-region &
MAXPDSLEN(30000)
PDS file ^ ysi-comAcO&Z
-116-
JAERI-Data/Code 97-047
Table 8.1: Unit number of file used in SWAT
UNIT
3
4
5
7
8
9
10
11
12
13
15
16
20
21
22
32
33
50
51
52
61
80
81
84
91
97
98
99
Module
SRAC
SRAC
SWAT
ORIGEN2
ORIGEN2
LIBMAK
ORIGEN2
—
ORIGEN2
—
ORIGEN2
ORIGEN2
SWAT
SRAC
SRAC
SRAC
SRAC
ORIGEN2
—
SRAC
LIBMAK
TABMAK
SRAC
SRAC
SWAT
SWAT
—
SRAC
TYPE
BINARY
BINARY
TEXT
TEXT
TEXT
TEXT
TEXT
—
TEXT
—
TEXT
TEXT
TEXT(READMASS)
BINARY
BINARY
BINARY
BINARY
TEXT
—
BINARY
TEXT
TEXT
BINARY
BINARY
BINARY(restart)
TEXT
—
TEXT
- 1 1 7 -
JAERI-Data/Code 97-047
9 SWAT (D Install
9.1 T-yfrt> archive fclx^ttiT
Wi. SWAT li , 4mm DAT(DDS-2 format) itzit QIC-150 iJ - h l) v VT—f\Z £^xm%ZfiZ>o tztzl, >y\Ufy'^-^tlxmmZfiZ>, SRAC95(i^£&v>0
f-- yCO y * - -7 <y Y it tar Xh Z> o
ZZX, %C0y-r4 iV&i swat9710.tar.gz tt&o Ztli, "archive file" tW&0
Zfifr, y~7,yu9'y Uty-'-9y 4Yy 'J £ ^ A , T ^ & 0 Z(T>y y 4 frit, tar XVM t£y7J)V%ittbtzhtX, gzip iZ£^X)±.miXh&o gzip (i, 7 ' J - V 7 l " ) x 7 t * 4 W t , anonymous FTP ^ - ^ - ^ ^ V - X ^ f o t S T install iXisi&'gfrh h
Sun OS 4.1.x CO^S, &.T<n£ 7iZlX tape ^f>, archive y r 4 frity*) &t ( Device £l i«H* (OS) i z i o t , *££cDTy±;t)0
tar -xvf /dev/rstO
9.2 Archive # 6 V - 7 V ij - £ ft$ T 5
W T ^ 3 7 > Yiz£^x, y-y.y))-£ft-j&tz>o
gunzip swat9710.tar.gz tar -xf swat9710.tar
itzit,
zcat swat9710.tar.gz I tar -xf -
ZCO^-7> ViZt^X, "swatdist" 11 *7 directory frftf& 3 flX, ZCOiZ7-7,y
9.3 SWAT <D make
SWAT it "make" £*ljffl LT compile 3&*ff fcfrfl&o "make" li UNIX Hfclt£&ifc W 7 - ^ - C * 4 o make l i , -e-Wftf^*5£ilt&^*W Makefile * 1 $ f f l t 4 ^ Install £ v»-7 shell script rtfffl;t3 fiX^i,COX, ZflZitffilX Makefile iftf&-t&&frtto%Zo
itz, maketZfftiZ, preprocessor izmt^^i^ittlii, SWAT cD$fg£'£M -t-&ztfr-Bjmx'$>&0
- 1 1 8 -
JAERIData/Code 97047
9.3.1 preprocessor ^OJ^M
Makefile CO X, ^fi^ffico V -9,yu 9* y J*cofaftm&frtt& lX&/bfr, ft^JC
preprocessor <D tz HOCO fc^frnlft. IX &/bo tztx.it, DSTEAM CO £ 7 iZX^/b0 W£CO
y^~V3yiZiS^Xit, VXTcohcofrmm^&Xh/bo preprocessor f^CO^m^^^ltz
i^SiZit, make d i s t c l ean tlX, M ^ V -7 yu 9'y A £$£■ iXfrb, make L &
HflitKbtt^o
T H C Y C L E ThU cycle ffiffimiZ, 6 ^<D direct fission yield £{£ffl1"£o ft^HfFal^S
< & £ c D T f t ; i 1 £ t o t / ^ ^ c D i t ^ H l i , ORIGEN2 co\tMUn h * S < t
h ■&%!£$) %>o
ORI21 ( T O ^ T L O ^ ) ORIGEN2.1 fr~ + y Zltffit&o ORI82 t |s]B#U>ga L&
ORI82 ( r t a t : t L t t ^ ) ORIGEN282 )V- + y *\tm-f Z>o ORI21 t IWI^H^fl L
W I T H S T E A M STEAM ^ ^ ^ ' J ^ f t f f l t S o NOSTEAM t I ^ K ^ I L & v ^ t o
N O S T E A M STEAM 7 >f ^ 7 »J £{£ffl L & ^ o WITHSTEAM fc I^B${:£ | | L&i/>£
t o
R D M S READMASS yA Yy 'J £{£ffl1"£o NORDMS t P » : £ a L & v ^ fc0
N O R D M S READMASS 7 ^ 7 * 7 U£f£f f lL£^o RDMS t ^ C ^ i L f t v > ; t D
SUNFOR14 Sunf f l /n^7ASf^r i t f*o
H P H P f f l y n ^ 7 A ^ f W f ^ 0
MINISRAC MINISRAC £ O T 1 " £ o USERSRAC t coa^^^Tf^f f l L T t i ^ t t f t ^ ( 5 l ! 2 L T i ^ ^ ^ ^ ) 0
SRAC95 SRAC95 ^f l j f f l t^o USERSRAC t<7)&<&<££TM$ffl*£*<>
USERSRAC W t y a ; ^ LCffl&Sftfc SRAC £{£fflf£o
USERORI2 tm^y^-frt LTf f lgS t l f c ORIGEN2 £l£fflf£o
1 1 9
JAERI-Data/Code 97-047
RMPREVDIR £v> PDS file CO directory ( 8R#^& OULIB X^^^flh directory C0Ty--7%mtZ directory ) W&IJ&& SM&jiZft; 0 2 &7tftn<M8,&iZlt, PDS file com^frhi t)iZh±&< tthcox, StbtftlZ directory £&'IJI£t&*£ «! mt LTV^ 0
-120-
JAERI-Data/Code 97-047
10 swat2ori2 J . -7- i -Ux-r
SWAT it, ORIGEN2 0 7 ^ 7 * 7 ' ; t i <?tz < ISJ-W7 * —r v \-<T>Wffl&y r 4
fr£m%i-Z>o £^X, Z<Dftj&2fitzy7 4 frtitfttfiit, ffiijU;: ORIGEN2 fflcD7
4 Yy 'j ^fcflL^&Xh&o swat2ori2 it, ORIGEN2 CO variable actinide cross section
library &ftl$Lir2>tz!t)<D'*v *-iSXJb&o Table 10.1 C f f f l t ^ 7 7 ^ ; ^ / T t „
Table 10.1: swat2ori2 (DfcfBtZ 7 7 4 fr y74fr% TO
Makefile make file README.jis README
grepxs SWAT cototlfrb »fffil lf ' - 9 £ flx *J ffi t
nlib2nlib nlib2nlib C D H f r ^ nlib2nlib.f nlib2nlib.f C D 7 - X 7 ° n ^ 7 A
swat2ori2 swat2ori2 <D%ftl&& swat2ori2.f swat2ori2 CO 7— 7, temp_subr v. a. c. subroutine coj-yYV^Y
10.1 ftflc^Ss
1. 7 ^ 7 * 7 >; £fMfc L/c ^ f t ^ T * SWAT ^c%ft-tho Zcon, tot)^ y Y u-frizis ^x, mmm^toti-t& 17 \z option ^ttxxis < *G
2. grepxs ( y x H ^ ' j 7° h) C J: o T, #g&|e|1£fltf>»ffflfl{fc file K # S ffit (xslib) 0
2oa6J^|5$corafi#:Hov^i:ii , U j ^ 7 r > f ; n : append 1"* £n iztho
*grepxs <D%ft$\\
'/.grepxs test.out > xslib 922340(ret) 7(ret)
'/.grepxs test.out » xslib
-121-
JAERIData/Code 97047
922350(ret)
7( re t )
ZbiZ, ZCO xslib COft&iZ, VXTC07 t--7y Y ^Ait h header £ft&t&0
Block 1 13 [*)$c;3ftTV>£|5H3:«
Block 2 6111 ftMZfl&mZfcco ZA gfc
(Block 1 t?J&£L/ja/ilt«ftl)^x.t)
3. parameter file (param) £f£$c"t~2>0
& T W 7 * — 7 y b * t t 4 ^ 7 ^ ? 7 7 ^ ^ ) S t 4 o
Block 1 13 «*&££. (ORIGEN2.1 W V X i a i i : 32 J^T"C*
&fr,3Q&TX%\,*t7 i <Hffc5 t i i t»o i o t ^ O ^ C I i ,
■*7;u—^fcftjfcLfci&chC, MPT ^ ^ M ^ t ^ t o )
Block 2 6E11 **ttfl£ (MWd/gramatoms(present))
(**&*.£ tzif< *)frx.-to C!Offi{i,SWAT COtotifrbUh SWAT9610B &±.XW.tot& «t 7 K 4 o T V > £ )
Block 3 13 ttWfilfrJl-x.bti&m%. Block 4 6111 mmffifr^-XibflZ, ZA number
Block 5 6111 ±W^rov>TRCiL»^^x.P>tL6SCc:.oai8!l^
^parameter file COM
do not include this line — 27 0.OOOE+OO 1.219E-01 6.099E-01 1.099E+00 1.589E+00 2.080E+00 2.573E+00 3.066E+00 3.560E+00 4.056E+00 4.552E+00 5.050E+00 5.549E+00 6.049E+00 6.550E+00 7.052E+00 7.555E+00 8.059E+00 8.564E+00 9.071E+00 9.578E+00 1.009E+01 1.060E+01 1.111E+01 1.162E+01 1.213E+01 1.265E+01
20 922340 922350 922350 922360 922380 932370 942380 942380 942390 942390 942400 942410 942410 942420 952410 952410 952430 952430
- 122-
JAERIData/Code 97047
962420 962440 1 1 4 1 1 1
1 4 1 4 1 1
4 1 1 2 1 2
1 1
— do not include t h i s l ine —
4. swat2ori2 £Hff1~&o
swat2ori2 C07-7,frhh directory iZ£s\^X, make H i o T swat2ori2 iiftf&Zfl
Z>o swat2ori2 %%ftt&t, AzUco/^y y -9 7 r 4 fr (param) t »fEft 7 r f ;u
(xslib) ^ i . S $ i : J ; o T , ^ ^ T ^ ^ M ^ t i S o
* ^ff m
'/, swat2ori2 > test param (ret) '. /*7 y—9 y 7 4 fr%5-k\h xslib (ret) : Wfffi#f7 r f ;u£5x.£
•I.
5. SUBROUTINE XSEC?? ^ftlfcth
temp^br C0^l£.lbfltzUftiZ,ft^fltzy 7 4 fr*mAlXM&tho ?? HJi, miTt:ffiffl3tLTV^^a^*ficifflr*«t9t:LT1 ORIGEN2 WVXCM -O o
6. SUBROUTINE MAIN2 im%t2>
CALL XSECOl ^C0£7iZ call L.Ti/>*g&53*£I.* £ XSEC?? co ?? £ ^ 5 E 1 " £
♦T goto yZ\z£>omSyTif*lX^Z>WiyfrZ>o eftH&oVTVXfc^H*" -?> o
7. <?£>7 7>f J U & ^ W W ;uf<&o
1 2 3
JAERI-Data/Code 97-047
10.1.1 nlib2nlib
nlib2nlib it, SWAT <nibzt) tlXftf&Ztltz ORIGEN2 ffl Cross Section 7-9<D NLB (y4Yy')m\\Az-) ^^M.-th7-frXhho Zfiiz£ t), user (i^gcD NLB « y4Yy>) K4x.S*a*nj"ffiK&So
%ftm
7. nlib2nlib > newfile old_file.name (ret) old nlib (ret) new nlib (ret)
-124-
JAERI-Data/Code 97-047
11 SWAT om&tsfe
ma, SWAT im&!imm<7>MVr3-vi/Z'TJ*tixmfkztix&tzo L > L & ^ b, ft&X'it, I M 7 W / 7 Ym&coMffihft?£t)fix^?ho zco£7iz, \m®®h ltz^\zm\:*lX^<hC0Xh?bfr, SWAT collet, V\TC0£7iZi£?bXhh7o
1. SRAC C0M$ty-y-y7^C0Zbf£Z>ttfoo l5L\±co SWAT it, SRAC iz is HZ ft mitm^mmmtzif^m< hcot ix SRAC S < ? ) A ^ ^ ) S L - C V > 4 0 L ^ L ^ *
b, mmiz£^xit, m^.mmmiz£^xmmmm^i/ff&ixis^, *<n$>txm %imm*ffi< t\,*<z>tzmvTjj&izHmitz\<*mGfr*>zfri> Lti&i>0 tz^fr, ZfibcoilMcom.frS-£iZtffctZ>coit1j-ffrl^"COX, SCALE[21] coJ: 9 i : , ffi ffiy-9-y9s*ztibmx&tbxis^x, JtfimcoAt}*\'t$L-tz> £ oiz-tz&mfr Jb&frh Lt i£ i> 0
2. SWAT Library CO ENDF/B-VI ttfc0 ENDF/B-VI K*o*< SWAT Library fi, VXmitftfeltzfr, m±.coy*--7y Y\zit-f£^x^-f£^cox, nftf&t&'&^frJb •6 o
3. tikRmmmyjyy'XnVtJSLo &%-%£±commizis\,*xii, KENO^co^yy-jj fra&K£Zm%Tfrft%t>ti&$fr$'^o £iX, SWAT coftmn$k£B-m&9U V y comAizmfc-t & ttfiit, KENO m<Dy 4 Yy ') ftf&Z^m-t Z&^frtoX < &frh Lt i£ i> 0
4. At)ftf&m&)yuyy^o SWATCOAt)it^.mx$)i,fr, ft^co Viewer Z^tbtz Allftf&mm®)7°n 9'7 A fr-Sl^Xh h 7 o
5. i i l 5 f t » 3 - KfficoMft^o ORIGEN2 it, M f t J t ^ i ^ t £ 7 is «fc tf*14?-<7) M & S £ i T f t t £ / : f c K M £ f f i 3 f t T ^ £ 0 i o t , DOT ^ i i | 5 f f l3 -KcoAt l ^m%-t^fr~^yco\^mt SWAT comm&itizt^x, ^ H ^ P T ^ - C * ^ , ,
- 1 2 5 -
JAERIData/Code 97047
*Bmm?- KvxfA SWAT it, ii*m%b iz £ iXMlkA^iz is if hW^'tpm mtmy^-ycowtffy-frtixrmzfi, m±, m^fru^mnmttffiizis^x, B ■titfe9 VVy YmmcomitcotzibizrmZft'iX^&hcoXh&o ZZiz, Zfi*lllX\t fflLttS^/ y Y*^tztz^tztzz3--*?-co^\z'$\zmMltz^o #K> Sirtlbfcfl: (m& m^BrnTLM) iza, SWAT coAtaz^mizm-th^^^^ymn^^tbx, %< co^&ttmmztoix^tztz^-tzo
ttz, ^■XpX¥W>mr~-9-ty9-co*)\\ffimR.iZit, SWAT Library ft«H£ i7 2>m*coyn9'y^izffllx, &$■ < co$J$m i^tztd^tza Zbiz, mBM^4 9fr^ £ I ^ M M l*IJ§M &t, BM*T4 9 fr-g^X^^k&mm Rizit, SWAT co5sJ& izt?HX&\k%Z&Bht:^tztz'^tzo
swat2ori2 £>«!:?£, SWAT tcftBli"* J L r f "J r f 7"n 7*7 A KM IXit, v ^ " r
-^TfrlzmiXit, 1filkA¥X¥UM?^*fr**---T^coAm%1kR.izay >\>&^tz tz^tza
itz, HP izHii&aysU fr±.cofflm&it, (W) BMftp;fco^itef¥^c£«# te^tztz^tzo
1 2 6
JAERI-Data/Code 97-047
[1] ±m%k-B, KB&M, £?#$H, # F i . "SRAC n - K v X f - A mM". JAERI-1302, 1986.
[2] mmfr, &?%%, ±«»-e i5 . "SRAC95; ' i a f f l i i t i ^ - K y x r A " . J ^ / ? / -
Data/Code 96-015, 1996.
[3] Y. Naito, M. Inamura, F. Masukawa, and Y. Okuda. "UNITBURN: A Computer
Code for Burnup Calculation of a Unit Fuel Cell". JAERI-M 90-019, 1990. (in
Japanese).
[4] W. W. Engle Jr. "A Users Manual for ANISN, a One Dimensional Discrete Ordinates
Transport Code With Anisotropic Scattering". Union Carbide Corporation Report,
Vol. K-1693, , March 1967.
[5] Kenya Suyama, Tomohiko Iwasaki, and Naohiro Hirakawa. "Analysis of Post Ir
radiation Experiments in PWR Using New Nuclear Data Libraries". J. Nucl. Sci.
TechnoL, Vol. 31, No. 6, pp. 596-608, June 1994.
[6] Kenya Suyama, Tomohiko Iwasaki, and Naohiro Hirakawa. "Improvement of Bur
nup Code System SWAT for Use in Burnup Credit Problem". In Proceedings of
PHYSOR96, Vol. 4, pp. L-53-L-62, Mito,Ibaraki,Japan, September 1996. Japan
Atomic Energy Research Institute, Japan Atomic Energy Research Institute.
[7] K. J. Notz. "ORIGEN2, Version 2.1 Release Notes". CCC-371, pp. 200-208, August
1991.
[8] M. J. Bell. "ORIGEN - The ORNL Isotope Generation and Depletion Code". ORNL-
4628, May 1973.
[9] O. W. Hermann and R. M. Westfall. "ORIGEN-S: Scale System Module to Calculate
Fuel Depletion, Actinide Transmutation, Fission Product Buildup and Decay, and
Associated Radiation Source Terms". CCC-545, Vol. 2, , 1995. Section F7.
[10] S. J. Ball and R. K. Adams. ""MATEXP", A General Purpose Digital Computer
Program for Solving Ordinary Differential Equations by the Matrix Exponential
Method". ORNL-TM-1933, 1967.
- 1 2 7 -
JAERI-Data/Code 97-047
[11] D. R. Vondy. "Development of a General Method of Explicit Solution to the Nuclide
Chain Equations for Digital Machine Calculations". ORNL-TM-361, 1962.
[12] A. G. Croff. "ORIGEN2 - A Revised and Updated Version of the Oak Ridge Isotope
Generation and Depletion Code". ORNL-5621, 1980.
[13] A. G. Croff. "ORIGEN2 - A Versatile Computer Code for Calculating the Nuclide
Compositions and Characteristics of Nuclear Materials". Nucl. Technoi, Vol. 62, pp.
335-352, September 1983.
[14] Dermott. E. Cullen. "Program RECENT(Version 79-1)". UCRL-50400, Vol. 17(PART
C), , 1979.
[15] Dermott. E. Cullen. "The 1994 ENDF Pre-Processing Codes(PRE-PR094)". IAEA-
NDS-39, 1994.
[16] Dermott. E. Cullen. "Program LINEAR(Version 79-1)". UCRL-50400, Vol. 17(PART
A), , 1979.
[17] Dermott. E. Cullen. "Program SIGMAl (Version 79-1)". UCRL-50400, Vol. 17(PART
B), , 1979.
[18] T. Nakagawa. "CRECTJ5(VERSION 84-08): A Computer Program for Compilation
of Evaluated Nuclear Data in the ENDF/B Format". Private Communication, 1984.
[19] K. Tasaka, J. Katakura, H. Ihara, T. Yoshida, S. Iijima, R. Nakasima, T. Nakagawa,
and H. Takano. "JNDC Nuclear Data Library of Fission Products - Second Version
-". JAERI-1320, 1990.
[20] Him, /j^tt-, *jnt, mm, I*IM#, tfr&-iais, mmvtm, &«» , =#* ft, £ # £ B 8 , M i m " f f i # £ £ ^ > K7*7 ? & 1 T M W \ JAERI-Tech 95-048,
1995.
[21] C. V. Parks. "SCALE-4.3: Modular Code System for Performing Standardized Com
puter Analysis for Licensing Evaluation for Workstations and Personal Computers".
CCC-545, 1995.
- 1 2 8 -
mm&m(si)tm':
s i si«**&*>.*w*sai!¥fi *
ft s 1 ft 13 r=i M * • t / ^ f i l t 1*1 H ft 7b « T B ft £ tt A
« ft > - h ^ + D 0 7 A
» T • "5 T x •"•• t y * yi*
ts y T y
-? y 7 y 7.-T-) ST y
a2 ^ m
kg s A K
mol cd
rad sr
*2 siifffflsfts^fe * 5 SI)
Ha @w©«ft;4t>^siffi3V:*a
ft m & a
fl E fl , it ^ x * y u + tt#, *t f t
I ¥ . ft tt sfc i a t , a ^ Sft, « E , e « 7 ] » * S ft a a ffi ta ? y ? 9 9 y 7*
m m « £ s « f y ? 9 <9 y T.
■£ to y <J *■ 1m %.
7b * BQ | f
tt « SB i» "K « ft K ft "1 ft
« «r
' v yU J
i h y >< 7 1} to
y 3. — to
7 , h 0 a y t to r 7 T 7 h * A
/ — t S 7.
■> x ^
X ^ 7 N / i;
■feyu^? xgE iv - t y
to o 7.
^ 9 \y to
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Hz N Pa J W C V F n s
Wb T H t lm Ix
Bq Gy Sv
<ft©SI*{& ICfc 4 S I
s ' m k g / s 2
N / m 2
N m J / s A s W/A C/V V/A A/V V s Wb/m 2
Wb/A
cd sr Im/m 2
s ' J / k g J / k g
« >tt 9>. a#, B
r ^
SF^Kft^tt
sd ^ min, h, d
1. L t
eV u
1 eV=l 60218x10 " J 1 u=l 66054x10 " k g
R 4 SIiJ*lcB/SWlc
« ft t y o 7 v o
y N
y N
* * ^ >; U ^ h T 7
\y
- L.
y
to to -y
r
A
ad ^ A b
ba r Gal Ci R
r ad r e m
1 A=0 lnm=10 '°m 1 b=100fm2=10 28m2
1 bar=0 IMPalO'Pa lGa l= lcm/s 2 = 10 2m/s2
1 Ci=3 7xlO,0Bq 1 R=2 58x10 4C/kg 1 rad = lcGy10 2Gy l rem=lcSv=10 Sv
<a» 10 • 10 ,b
IO'2
10' IO6
10' IO2
10'
10 ' 10 ' 10 !
10 s
10 ' 10 ,2
10 l5
10 "
» B j .
X
N
T
* / * N
T
T
■ f e
i-
t 7 T
?
?
y
f 9
i /■
§
t ? 7
/ J
A □ r
/ J
> J
■; o V D
r
r
s2 ^ E P T G M k h d a
d c m It
n P f a
(ri) 1 S i 5IJ r S P P t i ^ J 355 Kg, HP9
HftAfei 1985^TiJrrlcJ;40 / . / . L , leV t i O 1 u©ffl l iCODATA©1986¥«g
2 8 4 1:11*1, y j h, r ^ , ^ ^ 9 ^t>^*nri^*^Bls:©*(4^©xc
3 ba r i i J I S T I i * ( * © l ± ^ « : a t > t J 8
■So
4 ECMffilfUl^m^Tlibar. barnt i O rittlE®f#t4j m m H g * * 2 © / J T 3 'J l c A t t T I . > 4 „
^3 N( = 105dyn)
1
9 80665
4 44822
kgf
0 101972
1
0 453592
lbf
0 224809
2 20462
1
tt « lPas (Ns /m 2 )=10P( f T X ) ( g / ( c m s ) )
ftttH lm 2 / s=10 'St(^ h ? x ) ( c m 7 s )
a
^
MPa( = 10bar )
1
0 0980665
0 101325
1 33322 x10 '
6 89476 x 10 s
kgf/cm2
10 1972
1
1 03323
1 35951 x 10 3
703070 x10 '
a t m
9 86923
0 967841
1
131579x10 "
6 80460 x 10 2
m m H g ( T o r r )
750062x10 J
735 559
760
1
51 7149
lbf / in2(psO
145 038
14 2233
14 6959
1 93368 x 10 2
1
x
to * 1
f± *
ft
J ( = 10 'e rg)
1
9 80665
3 6 x l 0 6
4 18605
1055 06
1 35582
160218x10 "
kgfm
0 101972
1
367098x 10s
0 426858
107 586
0 138255
1 63377 x 10 2°
kW h
2 77778 x 10 '
2 72407x10 "
1
1 16279 x10 s
293072x10 '
3 76616x10 '
4 45050 x10 "
caKltf t l*)
0 238889
2 34270
8 59999 x 1 0 s
1
252 042
0 323890
3 82743x10 2°
Btu
9 47813x10 '
9 29487 x 10 '
3412 13
3 96759 x10 J
1
1 28506 x10 3
151857x10 22
ft • lbf
0 737562
7 23301
2 65522 x 101
3 08747
778 172
1
1 18171 x 10 "
eV
6 24150 x 1 0 "
6 12082x10"
2 2 4 6 9 4 x 1 0 "
261272x10 '
6 58515x l0 2 '
8 4 6 2 3 3 x 1 0 "
1
leal = 4 18605 J (stft/J >
= 4 184 J ( J M t ? )
= 4 1855 J ( 1 5 ' O
= 4 1 8 6 8 J ( H P I S a * )
fr»11 ]PS«AB>y';)
75 kgf m/s
735 499 W
to Bq
3 7 x 1010
Ci
2 70270x10
1
® JK
ft
Gy
1
001
rad
100
1
C/kg
2 58 x 10 '
3876
1
® ft "i ft
Sv
1
0 01
rem
100
1
(86i?12>i 26 B S f t )
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