This work presents a reduced order model (ROM) aimed at simulating nuclear reactor control rods movement and featuring fast-running prediction of reactivity and neutron flux distribution as well. In particular, the reduced basis (RB) method (built upon a high-fidelity finite element (FE) approximation) has been employed. The neutronics has been modeled according to a parametrized stationary version of the multigroup neutron diffusion equation, which can be formulated as a generalized eigenvalue problem. Within the RB framework, the centroidal Voronoi tessellation is employed as a sampling technique due to the possibility of a hierarchical parameter space exploration, without relying on a “classical” a posteriori error estimation, and saving an important amount of computational time in the offline phase. Here, the proposed ROM is capable of correctly predicting, with respect to the high-fidelity FE approximation, both the reactivity and neutron flux shape. In this way, a computational speedup of at least three orders of magnitude is achieved. If a higher precision is required, the number of employed basis functions (BFs) must be increased.
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e-mail: alberto.sartori@polimi.it
e-mail: antonio.cammi@polimi.it
e-mail: lelio.luzzi@polimi.it
e-mail: gianluigi.rozza@sissa.it
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April 2016
Research-Article
A Reduced Basis Approach for Modeling the Movement of Nuclear Reactor Control Rods
Alberto Sartori,
e-mail: alberto.sartori@polimi.it
Alberto Sartori
Nuclear Engineering Division, Department of Energy
, Politecnico di Milano
, Milano 20156
, Italy
e-mail: alberto.sartori@polimi.it
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Antonio Cammi,
e-mail: antonio.cammi@polimi.it
Antonio Cammi
Nuclear Engineering Division, Department of Energy
, Politecnico di Milano
, Milano 20156
, Italy
e-mail: antonio.cammi@polimi.it
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Lelio Luzzi,
e-mail: lelio.luzzi@polimi.it
Lelio Luzzi
1
Nuclear Engineering Division, Department of Energy
, Politecnico di Milano
, Milano 20156
, Italy
e-mail: lelio.luzzi@polimi.it
1Corresponding author.
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Gianluigi Rozza
e-mail: gianluigi.rozza@sissa.it
Gianluigi Rozza
SISSA MathLab, International School for Advanced Studies
, Trieste 34136
, Italy
e-mail: gianluigi.rozza@sissa.it
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Alberto Sartori
Nuclear Engineering Division, Department of Energy
, Politecnico di Milano
, Milano 20156
, Italy
e-mail: alberto.sartori@polimi.it
Antonio Cammi
Nuclear Engineering Division, Department of Energy
, Politecnico di Milano
, Milano 20156
, Italy
e-mail: antonio.cammi@polimi.it
Lelio Luzzi
Nuclear Engineering Division, Department of Energy
, Politecnico di Milano
, Milano 20156
, Italy
e-mail: lelio.luzzi@polimi.it
Gianluigi Rozza
SISSA MathLab, International School for Advanced Studies
, Trieste 34136
, Italy
e-mail: gianluigi.rozza@sissa.it
1Corresponding author.
Manuscript received November 24, 2014; final manuscript received October 25, 2015; published online February 29, 2016. Assoc. Editor: Asif Arastu.
ASME J of Nuclear Rad Sci. Apr 2016, 2(2): 021019 (8 pages)
Published Online: February 29, 2016
Article history
Received:
November 24, 2014
Revision Received:
October 25, 2015
Accepted:
November 2, 2015
Citation
Sartori, A., Cammi, A., Luzzi, L., and Rozza, G. (February 29, 2016). "A Reduced Basis Approach for Modeling the Movement of Nuclear Reactor Control Rods." ASME. ASME J of Nuclear Rad Sci. April 2016; 2(2): 021019. https://doi.org/10.1115/1.4031945
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