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A neutron noise solver based on a discrete ordinates method.

Huaiqian YI


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{
  "inLanguage": {
    "alternateName": "eng", 
    "@type": "Language", 
    "name": "English"
  }, 
  "description": "<p>A neutron noise transport modelling tool is presented in this thesis. The simulator allows to<br>\ndetermine the static solution of a critical system and the neutron noise induced by a prescribed<br>\nperturbation of the critical system. The simulator is based on the neutron balance equations in<br>\nthe frequency domain and for two-dimensional systems. The discrete ordinates method is used<br>\nfor the angular discretization and the diamond finite difference method for the treatment of the<br>\nspatial variable. The energy dependence is modelled with two neutron energy groups. The<br>\nconventional inner-outer iterative scheme is employed for solving the discretized neutron<br>\ntransport equations. For the acceleration of the iterative scheme, the diffusion synthetic<br>\nacceleration is implemented.<br>\nThe convergence rate of the accelerated and unaccelerated versions of the simulator is studied<br>\nfor the case of a perturbed infinite homogeneous system. The theoretical behavior predicted by<br>\nthe Fourier convergence analysis agrees well with the numerical performance of the simulator.<br>\nThe diffusion synthetic acceleration decreases significantly the number of numerical iterations,<br>\nbut its convergence rate is still slow, especially for perturbations at low frequencies.<br>\nThe simulator is further tested on neutron noise problems in more realistic, heterogeneous<br>\nsystems and compared with the diffusion-based solver. The diffusion synthetic acceleration<br>\nleads to a reduction of the computational burden by a factor of 20. In addition, the simulator<br>\nshows results that are consistent with the diffusion-based approximation. However,<br>\ndiscrepancies are found because of the local effects of the neutron noise source and the strong<br>\nvariations of material properties in the system, which are expected to be better reproduced by a<br>\nhigher-order transport method such as the one used in the new solver.</p>", 
  "license": "https://creativecommons.org/licenses/by/4.0/legalcode", 
  "creator": [
    {
      "affiliation": "Chalmers University of Technology", 
      "@type": "Person", 
      "name": "Huaiqian YI"
    }
  ], 
  "headline": "A neutron noise solver based on a discrete ordinates method.", 
  "image": "https://zenodo.org/static/img/logos/zenodo-gradient-round.svg", 
  "datePublished": "2020-04-01", 
  "url": "https://zenodo.org/record/3813173", 
  "keywords": [
    "Neutron noise", 
    "nuclear reactor modelling", 
    "Deterministic neutron transport methods", 
    "Discrete ordinates", 
    "Diffusion synthetic acceleration", 
    "Convergence analysis"
  ], 
  "@context": "https://schema.org/", 
  "identifier": "https://doi.org/10.5281/zenodo.3813173", 
  "@id": "https://doi.org/10.5281/zenodo.3813173", 
  "@type": "ScholarlyArticle", 
  "name": "A neutron noise solver based on a discrete ordinates method."
}
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