Optimization treatment of point-wise nuclear data in Monte Carlo criticality and burnup calculations |
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Authors: | Yuxuan Liu Ding SheKan Wang Ganglin Yu |
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Affiliation: | Department of Engineering Physics, Tsinghua University, Beijing 100084, People’s Republic of China |
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Abstract: | The Monte Carlo codes used for neutron transport calculations are always time consuming, a large proportion of which is possessed by the treatment of continuous-energy cross sections. In this paper, two companion methods are developed for the optimization treatment of point-wise nuclear data, the first of which is called Computational-Expense Oriented (CEO) method based on the unionized energy grid approach and reconstructs only the computationally expensive cross sections in neutron transport simulation, and the other of which is called energy bin (EB) method, a companion of CEO method when the reaction rate tallies for MC-coupling burnup calculation are performed. These two methods are implemented in the code RMC, a Monte Carlo (MC) code used for reactor analysis, and tested on fast reactor core and BWR assembly problems. The numerical results show that CEO method, in comparison with reconstructing all cross sections under the unionized grid, requires the sharply decreased computer memory while achieving almost the same computational efficiency, and EB method can optimize the processing of nuclide-specific energy grid search and thus effectively reduce the total search number while requiring very small computer memory. |
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Keywords: | Monte Carlo Point-wise nuclear data Energy grid Computational efficiency Computer memory RMC |
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