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Predictive Modeling of Coupled Systems: Uncertainty Reduction Using Multiple Reactor Physics Benchmarks

机译:耦合系统的预测建模:使用多个反应堆物理基准降低不确定性

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摘要

This work illustrates reactor physics applications of the predictive modeling of coupled multiphysics systems (PMCMPS), formulated by Cacuci (2014), by means of the benchmarks Godiva (a bare uranium sphere) and Jezebel-239 and Jezebel-240 (bare plutonium spheres). The PMCMPS methodology was ab initio developed in the response space, to reduce as much as possible the computational memory requirements for predictive modeling of very large systems involving not only many model parameters but also many model responses. The model parameters considered in this work include individual cross sections for each material, nuclide, reaction type, and energy group, giving the following totals: 2241 parameters for Jezebel-239, 1458 parameters for Jezebel-240, and 2916 parameters for Godiva. Eight responses were considered for Jezebel-239 (the effective multiplication factor; the center core fission rates for ~(233)U, ~(238)U, ~(237)Np, and ~(239)Pu; and the center core radiative capture rates for ~(55)Mn, ~(93)Nb, and ~(63)Cu). Three responses (the effective multiplication factor and the center core fission rates for ~(233)U and ~(237)Np) were selected for Jezebel-240, and eleven responses were selected for Godiva (the reaction rate types listed for Jezebel-239, along with the radiative capture rates for ~(107)Ag, ~(127)I, and ~(81)Br). The PMCMPS methodology ensures that increasing the amount of information yields more accurate predictions, with smaller predicted uncertainties, as long as the considered information is consistent. This fact is amply illustrated in this work, which shows that the interdependence of responses that were measured in more than one benchmark is stronger than for responses that were measured in a single benchmark. More generally, the consideration of the complete information, including couplings, provided jointly by all three benchmarks (as opposed to consideration of the benchmarks as separate systems) leads to more accurate predictions of nominal values for responses and model parameters, yielding larger reductions in the predicted uncertainties that accompany the predicted mean values of responses and model parameters.
机译:这项工作说明了Cacuci(2014)通过基准Godiva(裸铀球)以及Jezebel-239和Jezebel-240(裸p球)基准对耦合多物理系统(PMCMPS)的预测模型的反应堆物理应用。 。 PMCMPS方法是在响应空间中从头开始开发的,目的是尽可能大地减少超大型系统的预测建模的计算存储需求,该系统不仅涉及许多模型参数,而且涉及许多模型响应。在这项工作中考虑的模型参数包括每种材料,核素,反应类型和能量组的单独横截面,给出以下总计:Jezebel-239的2241参数,Jezebel-240的1458参数和Godiva的2916参数。考虑了Jezebel-239的八个响应(有效倍增因子;〜(233)U,〜(238)U,〜(237)Np和〜(239)Pu的中心核裂变率;以及中心核辐射〜(55)Mn,〜(93)Nb和〜(63)Cu的捕获率)。为Jezebel-240选择了三个响应(〜(233)U和〜(237)Np的有效倍增因子和中心核裂变率),为Godiva选择了11个响应(为Jezebel-239列出的反应速率类型,以及〜(107)Ag,〜(127)I和〜(81)Br)的辐射捕获率。 PMCMPS方法论可确保,只要所考虑的信息是一致的,增加信息量就可以得到更准确的预测,并且预测不确定性较小。这项工作充分说明了这一事实,表明在多个基准中测得的响应的相互依赖性强于在单个基准中测得的响应的相互依赖性。更一般而言,对所有三个基准共同提供的完整信息(包括耦合)的考虑(与将基准作为独立系统的考虑相对)可导致对响应和模型参数的标称值进行更准确的预测,从而导致较大的降低。预测的不确定性,以及响应和模型参数的预测平均值。

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  • 来源
    《Nuclear science and engineering》 |2014年第2期|156-171|共16页
  • 作者

    Christine Latten; Dan G. Cacuci;

  • 作者单位

    University of South Carolina, Department of Mechanical Engineering 300 Main Street, Columbia, South Carolina 29208 Karlsruhe Institute of Technology, Institute for Fusion and Reactor Technology Vincenz-Priessnitz-Str. 3, 76131 Karlsruhe, Germany;

    University of South Carolina, Department of Mechanical Engineering 300 Main Street, Columbia, South Carolina 29208;

  • 收录信息 美国《科学引文索引》(SCI);美国《工程索引》(EI);美国《生物学医学文摘》(MEDLINE);
  • 原文格式 PDF
  • 正文语种 eng
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  • 入库时间 2022-08-18 00:42:57

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