SCALE Software Coordinator
This topic has been migrated from the SCALE 6 notebook.
Date: Thu Apr 15 09:22:17 2010
The following input file is a transportation package for BWR fuel. Unit 100 and 101 represent two different ways to specify the region for media 50 (poly foam). The plane surface (plane 6) in unit 101 is used to define a surface at +6.5 cm, the same as the bottom of cuboid 6 in unit 100. However, the plot (both KENO-3D and plot function) shows plane 6 surface at 0.0 cm for unit 101 (right side of package viewed from top).
=csas6 parm=(centrm,chk)
svea96 bottom lattice pitch = 1.2800 cm
v7-238
read composition
uo2 1 1 300
92235 5
92238 95 end
h2o 2 1 300 end
zirc2 3 1 300 end
h2o 4 1 300 end
h2o 5 1 300 end
poly(H2O) 21 den=0.919 1 300 end
uo2 6 1 300
92235 5
92238 95 end
Gd 6 0 5.2463E-04 end
O 6 0 2.7701E-03 end
h2o 7 1 300 end
zirc2 8 1 300 end
h2o 9 1 300 end
poly(H2O) 22 den=0.919 1 300 end
uo2 11 1 300
92235 5
92238 95 end
h2o 12 1 300 end
zirc2 13 1 300 end
h2o 14 1 300 end
h2o 15 1 300 end
poly(H2O) 23 den=0.919 1 300 end
uo2 16 1 300
92235 5
92238 95 end
Gd 16 0 5.2463E-04 end
O 16 0 2.7701E-03 end
h2o 17 1 300 end
zirc2 18 1 300 end
h2o 19 1 300 end
poly(H2O) 24 den=0.919 1 300 end
ss304 20 1 300 end
poly(H2O) 50 DEN=0.080 1 300 end
h2o 30 1 300 end
end composition
read celldata
multiregion cylindrical right_bdy=white end 1 0.424 0 0.4315 3 0.492 21 0.4985 4 0.7222 end zone
multiregion cylindrical right_bdy=white end 6 0.424 0 0.4315 8 0.492 22 0.4985 9 0.7222 end zone
multiregion cylindrical right_bdy=white end 11 0.424 0 0.4315 13 0.492 23 0.4985 14 0.7222 end zone
multiregion cylindrical right_bdy=white end 16 0.424 0 0.4315 18 0.492 24 0.4985 19 0.7222 end zone
end celldata
read parameter
gen=550
npg=10000
htm=no
end parameter
read geometry
unit 1
com='5 wt% UO2 full length rod'
cylinder 1 0.424 390 0
cylinder 2 0.4315 390 0
cylinder 3 0.492 390 0
cylinder 10 0.4985 390 0
cuboid 4 4p0.6400 390 0
media 1 1 1
media 0 1 -1 2
media 3 1 -1 -2 3
media 21 1 -1 -2 -3 10
media 4 1 -1 -2 -3 -10 4
boundary 4
unit 2
com='water rod'
cuboid 1 4p0.6400 390 0
media 4 1 1
boundary 1
unit 3
com='water wing unit to separate 5x5 subbundle'
cuboid 1 2p0.20 2p0.6400 390 0
media 4 1 1
boundary 1
unit 4
com='central water hole'
cuboid 1 4p0.20 390 0
media 4 1 1
boundary 1
unit 5
com='water wing unit to separate 5x5 subbundle'
cuboid 1 2p0.6400 2p0.20 390 0
media 4 1 1
boundary 1
unit 6
com='5 wt% UO2 rod with 1.5 wt% GdO2'
cylinder 1 0.424 390 0
cylinder 2 0.4315 390 0
cylinder 3 0.492 390 0
cylinder 10 0.4985 390 0
cuboid 4 4p0.6400 390 0
media 6 1 1
media 0 1 -1 2
media 8 1 -1 -2 3
media 22 1 -1 -2 -3 10
media 9 1 -1 -2 -3 -10 4
boundary 4
unit 7
com='5 wt% UO2 partial length rod'
cylinder 1 0.424 130.00 0
cylinder 2 0.4315 130.00 0
cylinder 3 0.492 130.00 0
cylinder 10 0.4985 130.00 0
cuboid 4 4p0.6400 390 0
media 1 1 1
media 0 1 -1 2
media 3 1 -1 -2 3
media 21 1 -1 -2 -3 10
media 4 1 -1 -2 -3 -10 4
boundary 4
unit 8
com='5 wt% UO2 partial length rod'
cylinder 1 0.424 260.00 0
cylinder 2 0.4315 260.00 0
cylinder 3 0.492 260.00 0
cylinder 10 0.4985 260.00 0
cuboid 4 4p0.6400 390 0
media 1 1 1
media 0 1 -1 2
media 3 1 -1 -2 3
media 21 1 -1 -2 -3 10
media 4 1 -1 -2 -3 -10 4
boundary 4
unit 9
com='single assembly-normal top'
cuboid 1 4p6.4585 390 50.001
array 1 1 place 6 6 1 0 0 0
cuboid 2 4p 6.4585 390 50.001
media 30 1 -1 2
boundary 2
unit 10
com='single assembly-normal bottom'
cuboid 1 4p6.4585 0.001 0
array 1 1 place 6 6 1 0 0 0
cuboid 2 4p 6.4585 0.001 0
media 30 1 -1 2
boundary 2
unit 11
com='5 wt% UO2 full length rod'
cylinder 1 0.424 390 0
cylinder 2 0.4315 390 0
cylinder 3 0.492 390 0
cylinder 10 0.4985 390 0
cuboid 4 4p0.6400 390 0
media 11 1 1
media 0 1 -1 2
media 13 1 -1 -2 3
media 23 1 -1 -2 -3 10
media 14 1 -1 -2 -3 -10 4
boundary 4
unit 12
com='water rod'
cuboid 1 4p0.6400 390 0
media 19 1 1
boundary 1
unit 13
com='water wing unit to separate 5x5 subbundle'
cuboid 1 2p0.20 2p0.6400 390 0
media 14 1 1
boundary 1
unit 14
com='central water hole'
cuboid 1 4p0.20 390 0
media 14 1 1
boundary 1
unit 15
com='water wing unit to separate 5x5 subbundle'
cuboid 1 2p0.6400 2p0.20 390 0
media 14 1 1
boundary 1
unit 16
com='5 wt% UO2 rod with 1.5 wt% GdO2'
cylinder 1 0.424 390 0
cylinder 2 0.4315 390 0
cylinder 3 0.492 390 0
cylinder 10 0.4985 390 0
cuboid 4 4p0.6400 390 0
media 16 1 1
media 0 1 -1 2
media 18 1 -1 -2 3
media 24 1 -1 -2 -3 10
media 19 1 -1 -2 -3 -10 4
boundary 4
unit 17
com='5 wt% UO2 partial length rod'
cylinder 1 0.424 130.00 0
cylinder 2 0.4315 130.00 0
cylinder 3 0.492 130.00 0
cylinder 10 0.4985 130.00 0
cuboid 4 4p0.6400 390 0
media 11 1 1
media 0 1 -1 2
media 13 1 -1 -2 3
media 23 1 -1 -2 -3 10
media 14 1 -1 -2 -3 -10 4
boundary 4
unit 18
com='5 wt% UO2 partial length rod'
cylinder 1 0.424 260.00 0
cylinder 2 0.4315 260.00 0
cylinder 3 0.492 260.00 0
cylinder 10 0.4985 260.00 0
cuboid 4 4p0.6400 390 0
media 11 1 1
media 0 1 -1 2
media 13 1 -1 -2 3
media 23 1 -1 -2 -3 10
media 14 1 -1 -2 -3 -10 4
boundary 4
unit 19
com='single assembly damaged section'
cuboid 1 4p 6.4585 50.001 0.001
array 2 1 place 6 6 1 0 0 0
cuboid 2 4p 6.4585 50.001 0.001
media 30 1 -1 2
boundary 2
unit 21
com='20 cm tall water box'
cuboid 1 4p 6.4585 20 0
media 30 1 1
boundary 1
unit 22
com='basic SVEA assembly stack up'
cuboid 1 4p 6.4585 390 0
array 3 1 place 1 1 1 0 0 0
boundary 1
unit 50
cuboid 1 2p7.0 6.5 -7.0 418.6 -37.6
hole 22 origin x=0 y=0 z=0
media 30 1 1
boundary 1
unit 100
com='single fuel assembly in left half inner container'
cuboid 1 4p8.8 419.25 -38.25
cuboid 6 2p8.8 8.8 6.5 414.65 -33.65
cuboid 51 2p7.0 6.5 -7.0 418.6 -37.6
cuboid 52 2p7.95 8.8 6.5 414.65 -33.65
media 50 1 1 -6 -51
media 30 1 1 6 -51 -52
media 50 1 1 52
hole 50 origin x=0 y=0 z=0
cuboid 2 2p8.9 8.8 -8.9 419.35 -38.35
media 20 1 -1 2
boundary 2
unit 101
com='single fuel assembly in right half inner container'
cuboid 1 4p8.8 419.25 -38.25
plane 6 ypl=6.5
cuboid 51 2p7.0 6.5 -7.0 418.6 -37.6
cuboid 52 2p7.95 8.8 6.5 414.65 -33.65
media 50 1 1 -6 -51
media 30 1 1 6 -51 -52
media 50 1 1 52
hole 50 origin x=0 y=0 z=0
cuboid 2 2p8.9 8.8 -8.9 419.35 -38.35
media 20 1 -1 2
boundary 2
global
unit 102
com='individual RAJ-II package'
cuboid 1 2p17.8 8.8 -8.9 419.35 -38.35
array 4 1 place 1 1 1 -8.9 0 0
ypplane 6 8.9 8.8
media 20 1 6 2
cuboid 2 2p22.80 2p13.90 424.35 -43.35
media 30 1 -1 2 -6
cuboid 3 2p22.95 2p14.05 424.5 -43.5
media 20 1 -1 -2 3
' shock absorbers
cuboid 10 2p25 2p16.3 429.1 -48.1
media 30 1 -1 -2 -3 10
cuboid 11 2p35.8 2p32.0 429.1 -48.1
media 30 1 -1 -2 -3 -10 11
cuboid 4 2p35.8 2p32.0 443.7 -62.7
media 30 1 -1 -2 -3 -10 -11 4
cuboid 5 2p36.0 2p32.2 443.9 -62.9
media 20 1 -1 -2 -3 -10 -11 -4 5
cuboid 30 2p56.0 2p52.2 463.9 -82.9
media 30 1 -1 -2 -3 -10 -11 -4 -5 30
boundary 30
end geometry
read array
ara=1 nux=11 nuy=11 nuz=1 typ=square
com='array for nominal lattice'
fill
7 1 1 1 1 3 1 1 1 1 7
1 1 1 1 1 3 1 1 1 1 1
1 1 1 1 1 3 1 1 1 1 1
1 1 1 1 8 3 8 1 1 1 1
1 1 1 8 2 3 2 8 1 1 1
5 5 5 5 5 4 5 5 5 5 5
1 1 1 8 2 3 2 8 1 1 1
1 1 1 1 8 3 8 1 1 1 1
1 1 1 1 1 3 1 1 1 1 1
1 1 1 1 1 3 1 1 1 1 1
7 1 1 1 1 3 1 1 1 1 7
end fill
ara=2 nux=11 nuy=11 nuz=1 typ=square
com='array for expanded lattice'
fill
17 11 11 11 11 13 11 11 11 11 17
11 11 11 11 11 13 11 11 11 11 11
11 11 11 11 11 13 11 11 11 11 11
11 11 11 11 18 13 18 11 11 11 11
11 11 11 18 12 13 12 18 11 11 11
15 15 15 15 15 14 15 15 15 15 15
11 11 11 18 12 13 12 18 11 11 11
11 11 11 11 18 13 18 11 11 11 11
11 11 11 11 11 13 11 11 11 11 11
11 11 11 11 11 13 11 11 11 11 11
17 11 11 11 11 13 11 11 11 11 17
end fill
ara=3 nux=1 nuy=1 nuz=3 typ=square
com='array for complete fuel assembly'
fill
10
19
9
end fill
ara=4 nux=2 nuy=1 nuz=1 typ=square
com='Left and right sides of inner boxes'
fill
100 101
end fill
end array
read bounds
all=void
end bounds
read plot
scr=yes
ttl='XY Mixture plot z=100.0 cm'
pic=mix
xul=-25 yul= 15 zul=100.0
xlr= 25 ylr=-15 zlr=100.0
nax=500
uax=1 vdn=-1
end
end plot
end data
end
**************************
Peter Vescovi
SCALE Software Coordinator
change
plane ypl=6.5
to
plane ypl=1 con=-6.5
because of equation for plane
Franz Hilbert