Generating the steady state source distributions
% --- Asymmetric BWR assembly with Gd-pins -------------------
set title "Peach Bottom 2 from UAM, source generation "
include pins
include geometry
include materials
% --- Reflective boundary condition in XY:
set bc 2 2 1
% --- Neutron population and criticality cycles:
set pop 80000 1000000 200 1.0 100
% --- Geometry plots:
plot 3 1000 1000 0.0
plot 3 1000 1000 0.0 -7.62 7.62 -7.62 7.62
plot 2 500 1500
% --- Total power for normalization:
set power 4.0000e+06
% --- Save source to "./source"-files
set savesrc "./source" 1.00 0.25 1 1 1
% --- Do not generate group constants
set gcu -1
% --- Do not use implicit capture, nxn, or fission
set impl 0 0 0
Time dependent simulation (no reactivity insertion)
% --- Asymmetric BWR assembly with Gd-pins -------------------
set title "Peach Bottom 2 from UAM, time dependent simulation"
include pins
include geometry
include materials
% --- Reflective boundary condition in XY:
set bc 2 2 1
% --- Increase size of precursor buffer
set pbuf 2
% --- Total power for normalization:
set power 4.0000e+06
% --- Set up time structures for simulation and detectors:
% 1 time interval for simulation (no population control)
tme simutime 2 1 0 1 %
% 20 time bins for detector
tme dettime 2 20 0 1
% --- Neutron population:
% 10000 neutrons in 10 batches (1000 neutrons per batch)
set nps 4000000000 800000 simutime
set outp 10
% --- Link source (use point-wise precursor tracking)
set dynsrc "./source" 1
% --- Set up detectors
% --- Neutron population as a function of time
det 1 dr -15 void di dettime
% --- Fission energy deposition as a function of time
det 2 dr -8 void di dettime
% --- Do not generate group constants
set gcu -1
% --- Do not use implicit capture, nxn, or fission
set impl 0 0 0
Additional files
pins
% --- Empty lattice position:
pin 99
cool
% --- Fuel pins
pin 1
fuel4 0.60579
void 0.62103
Zirc2 0.71501
cool
pin 2
fuel3 0.60579
void 0.62103
Zirc2 0.71501
cool
pin 3
fuel3 0.60579
void 0.62103
Zirc2 0.71501
cool
pin 4
fuel2 0.60579
void 0.62103
Zirc2 0.71501
cool
pin 5
fuel2 0.60579
void 0.62103
Zirc2 0.71501
cool
pin 6
fuel2 0.60579
void 0.62103
Zirc2 0.71501
cool
pin 7
fuel3 0.60579
void 0.62103
Zirc2 0.71501
cool
pin 8
fuel2 0.60579
void 0.62103
Zirc2 0.71501
cool
pin 9
fuel1 0.60579
void 0.62103
Zirc2 0.71501
cool
pin 10
fuel1 0.60579
void 0.62103
Zirc2 0.71501
cool
pin 11
fuel1 0.60579
void 0.62103
Zirc2 0.71501
cool
pin 12
fuel1 0.60579
void 0.62103
Zirc2 0.71501
cool
pin 13
fuel2 0.60579
void 0.62103
Zirc2 0.71501
cool
pin 14
fuel5 0.60579
void 0.62103
Zirc2 0.71501
cool
pin 15
fuel1 0.60579
void 0.62103
Zirc2 0.71501
cool
pin 16
fuel1 0.60579
void 0.62103
Zirc2 0.71501
cool
pin 17
fuel5 0.60579
void 0.62103
Zirc2 0.71501
cool
pin 18
fuel1 0.60579
void 0.62103
Zirc2 0.71501
cool
pin 19
fuel1 0.60579
void 0.62103
Zirc2 0.71501
cool
pin 20
fuel1 0.60579
void 0.62103
Zirc2 0.71501
cool
pin 21
fuel1 0.60579
void 0.62103
Zirc2 0.71501
cool
pin 22
fuel1 0.60579
void 0.62103
Zirc2 0.71501
cool
pin 23
fuel5 0.60579
void 0.62103
Zirc2 0.71501
cool
pin 24
fuel1 0.60579
void 0.62103
Zirc2 0.71501
cool
pin 25
fuel1 0.60579
void 0.62103
Zirc2 0.71501
cool
pin 26
fuel1 0.60579
void 0.62103
Zirc2 0.71501
cool
pin 27
fuel2 0.60579
void 0.62103
Zirc2 0.71501
cool
pin 28
fuel2 0.60579
void 0.62103
Zirc2 0.71501
cool
geometry
% --- Assembly lattice definition
lat 100 1 0.23876 0.23876 9 9 1.875
99 99 99 99 99 99 99 99 99
99 1 2 3 4 5 6 7 99
99 2 8 9 10 11 12 13 99
99 3 9 14 15 16 17 18 99
99 4 10 15 19 20 21 22 99
99 5 11 16 20 23 24 25 99
99 6 12 17 21 24 26 27 99
99 7 13 18 22 25 27 28 99
99 99 99 99 99 99 99 99 99
% --- Outer channel (assembly pitch = 15.375):
surf 1 sqc 0.23876 0.23876 6.70306 % *
surf 2 sqc 0.23876 0.23876 6.90626
surf 4 pz -182.88 % Active stack length 365.76 cm
surf 5 pz 182.88 % Active stack length 365.76 cm
surf 9 cuboid -7.62 7.62 -7.62 7.62 -250.0 250.0
% --- Cell definitions:
cell 3 101 fill 100 -1 % Pin lattice
cell 4 101 box 1 % Channel box wall
cell 5 0 fill 101 -2 4 -5 % assembly inside channel box outer wall
cell 6 0 moder 2 4 -5 -9 % Water outside channel box
cell 9 0 moder -4 -9 % bottom reflector
cell 10 0 moder 5 -9 % top reflector
cell 99 0 outside 9 % Outside world
materials
% --- Fuel materials:
% Fuel1 2.93 wt % enrichment
mat fuel1 -10.42 rgb 100 0 0
92235.09c -0.0258279
92238.09c -0.85567041
8016.09c -0.11850169
% Fuel2 1.94 wt % enrichment
mat fuel2 -10.42 rgb 160 0 0
92235.09c -0.01710132
92238.09c -0.86441006
8016.09c -0.11848862
% Fuel3 1.69 wt % enrichment
mat fuel3 -10.42 rgb 200 75 75
92235.09c -0.0148976
92238.09c -0.86661708
8016.09c -0.11848532
% Fuel4 1.33 wt % enrichment
mat fuel4 -10.42 rgb 255 150 150
92235.09c -0.01172421
92238.09c -0.86979522
8016.09c -0.11848057
% --- Fuel with Gd:
% Fuel5 2.93 wt % enrichment, 3.0 wt% Gadcontent
mat fuel5 -10.25 rgb 0 100 0
92235.09c -0.02505306
92238.09c -0.8300003
8016.09c -0.11891791
64152.09c -0.00005029
64154.09c -0.00055541
64155.09c -0.00379519
64156.09c -0.00528302
64157.09c -0.004065
64158.09c -0.00649317
64160.09c -0.00578667
% --- Zirc2 and channel box wall:
% --- "Zircaloy-2" [PNNL-15870, Rev. 1]
mat Zirc2 -6.56000E+00 rgb 200 200 200 %*OK
8016.06c -1.19376E-03
8017.06c -4.83282E-07
24050.06c -4.16117E-05
24052.06c -8.34483E-04
24053.06c -9.64457E-05
24054.06c -2.44600E-05
26054.06c -5.62862E-05
26056.06c -9.16258E-04
26057.06c -2.15389E-05
26058.06c -2.91667E-06
28058.06c -3.35317E-04
28060.06c -1.33612E-04
28061.06c -5.90496E-06
28062.06c -1.91358E-05
28064.06c -5.03067E-06
40090.06c -4.98111E-01
40091.06c -1.09835E-01
40092.06c -1.69731E-01
40094.06c -1.75753E-01
40096.06c -2.89183E-02
50112.06c -1.27668E-04
50114.06c -8.84175E-05
50115.06c -4.59485E-05
50116.06c -1.98205E-03
50117.06c -1.05596E-03
50118.06c -3.35857E-03
50119.06c -1.20129E-03
50120.06c -4.59450E-03
50122.06c -6.63830E-04
50124.06c -8.43778E-04
% Assembly box treated as zircaloy
mat box -6.56000E+00 tmp 557.0 rgb 200 200 200
8016.03c -1.19376E-03
8017.03c -4.83282E-07
24050.03c -4.16117E-05
24052.03c -8.34483E-04
24053.03c -9.64457E-05
24054.03c -2.44600E-05
26054.03c -5.62862E-05
26056.03c -9.16258E-04
26057.03c -2.15389E-05
26058.03c -2.91667E-06
28058.03c -3.35317E-04
28060.03c -1.33612E-04
28061.03c -5.90496E-06
28062.03c -1.91358E-05
28064.03c -5.03067E-06
40090.03c -4.98111E-01
40091.03c -1.09835E-01
40092.03c -1.69731E-01
40094.03c -1.75753E-01
40096.03c -2.89183E-02
50112.03c -1.27668E-04
50114.03c -8.84175E-05
50115.03c -4.59485E-05
50116.03c -1.98205E-03
50117.03c -1.05596E-03
50118.03c -3.35857E-03
50119.03c -1.20129E-03
50120.03c -4.59450E-03
50122.03c -6.63830E-04
50124.03c -8.43778E-04
% --- "Steel, Stainless 304" [PNNL-15870, Rev. 1]
mat ssteel -8.00000E+00 tmp 557.0 rgb 100 100 100
6012.03c -3.95366E-04
14028.03c -4.59332E-03
14029.03c -2.41681E-04
14030.03c -1.64994E-04
15031.03c -2.30000E-04
16032.03c -1.42073E-04
16033.03c -1.15681E-06
16034.03c -6.75336E-06
16036.03c -1.68255E-08
24050.03c -7.93000E-03
24052.03c -1.59029E-01
24053.03c -1.83798E-02
24054.03c -4.66139E-03
25055.03c -1.00000E-02
26054.03c -3.96166E-02
26056.03c -6.44901E-01
26057.03c -1.51600E-02
26058.03c -2.05287E-03
28058.03c -6.21579E-02
28060.03c -2.47678E-02
28061.03c -1.09461E-03
28062.03c -3.54721E-03
28064.03c -9.32539E-04
% --- Coolant (40% void fraction):
mat cool -0.46072 moder lwtr 1001 tmp 557 rgb 150 150 255
1001.03c 0.66667
8016.03c 0.33333
5010.03c 0.0000575
% --- Moderator:
mat moder -0.46072 moder lwtr 1001 tmp 557 rgb 50 50 255
1001.03c 0.666667
8016.03c 0.333333
5010.03c 0.0000575
% --- Thermal scattering data for light water:
%(HinH20 at 573.60K)
therm lwtr lwj3.11t
