3D BWR assembly transient example
Revision as of 16:37, 15 March 2016 by Ville Valtavirta (talk | contribs) (→Generating the steady state source distributions)
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 and 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