Investigation on Methods for Uncertainty Quantification of Constitutive Models and the Application in BEPU

Volume 9: Student Paper Competition Pub Date : 2018-07-22 DOI:10.1115/ICONE26-81425

Qingwen Xiong, J. Gou, J. Shan

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Abstract

The best estimate plus uncertainty (BEPU) method is recommended by IAEA for nuclear safety analysis. Most of the existing BEPU methodologies rely on the uncertainty propagation of input parameters, while uncertainties of the constitutive models in best estimate codes tend not to be valued or even neglected. A structural method is proposed in this paper to quantify the uncertainties of the constitutive models. Different constitutive models will be classified according to the characteristics and corresponding method could be utilized for each model based on the method. Specific uncertainty quantification (UQ) methods adopted in this paper include the non-parametric curve estimation method, inverse method and design of experiment (DOE) method, and a model selection technique is adopted to opt the optimal model among all alternative models. The structural method is applied to the uncertainty evaluation of LOFT LP-02-6 experiment. Important models are identified, uncertainties of these models are quantified and propagated to the peak cladding temperature (PCT) through code calculations. Uncertainty of the PCT is quantified and the result shows that the calculated values could well envelop the experimental value.

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本构模型不确定度量化方法及其在BEPU中的应用研究

国际原子能机构推荐采用最佳估计加不确定性(BEPU)方法进行核安全分析。现有的BEPU方法大多依赖于输入参数的不确定性传播，而最佳估计码中本构模型的不确定性往往不被重视甚至忽略。本文提出了一种量化本构模型不确定性的结构方法。根据特征对不同的本构模型进行分类，并在此基础上对每个模型采用相应的方法。本文采用的具体不确定性量化(UQ)方法包括非参数曲线估计法、逆法和实验设计法(DOE)，并采用模型选择技术在所有备选模型中选择最优模型。将结构法应用于LOFT LP-02-6实验的不确定度评定。确定了重要的模型，量化了这些模型的不确定性，并通过代码计算将其传播到峰值包层温度(PCT)。对PCT的不确定度进行了量化，结果表明，计算值能很好地包络实验值。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Volume 9: Student Paper Competition

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