skip to main content
OSTI.GOV title logo U.S. Department of Energy
Office of Scientific and Technical Information

Title: Fuel performance uncertainty quantification and sensitivity analysis in the presence of epistemic and aleatoric sources of uncertainties

Journal Article · · Frontiers in Energy Research
; ; ; ;

Fuel performance modeling and simulation includes many uncertain parameters from models to boundary conditions, manufacturing parameters and material properties. These parameters exhibit large uncertainties and can have an epistemic or aleatoric nature, something that renders fuel performance code-to-code and code-to-measurements comparisons for complex phenomena such as the pellet cladding mechanical interaction (PCMI) very challenging. Additionally, PCMI and other complex phenomena found in fuel performance modeling and simulation induce strong discontinuities and non-linearities that can render difficult to extract meaningful conclusions form uncertainty quantification (UQ) and sensitivity analysis (SA) studies. In this work, we develop and apply a consistent treatment of epistemic and aleatoric uncertainties for both UQ and SA in fuel performance calculations and use historical benchmark-quality measurement data to demonstrate it. More specifically, the developed methodology is applied to the OECD/NEA Multi-physics Pellet Cladding Mechanical Interaction Validation benchmark. A cold ramp test leading to PCMI is modeled. Two measured quantities of interest are considered: the cladding axial elongation during the irradiations and the cladding outer diameter after the cold ramp. The fuel performance code used to perform the simulation is FAST. The developed methodology involves various steps including a Morris screening to decrease the number of uncertain inputs, a nested loop approach for propagating the epistemic and aleatoric sources of uncertainties, and a global SA using Sobol indices. The obtained results indicate that the fuel and cladding thermal conductivities as well as the cladding outer diameter uncertainties are the three inputs having the largest impact on the measured quantities. More importantly, it was found that the epistemic uncertainties can have a significant impact on the measured quantities and can affect the outcome of the global sensitivity analysis.

Sponsoring Organization:
USDOE
OSTI ID:
1961417
Journal Information:
Frontiers in Energy Research, Journal Name: Frontiers in Energy Research Vol. 11; ISSN 2296-598X
Publisher:
Frontiers Media SACopyright Statement
Country of Publication:
Switzerland
Language:
English

References (23)

Polynomial chaos expansion for sensitivity analysis journal July 2009
Quantification of margins and uncertainties: Example analyses from reactor safety and radioactive waste disposal involving the separation of aleatory and epistemic uncertainty journal September 2011
Kriging-based inverse uncertainty quantification of nuclear fuel performance code BISON fission gas release model using time series measurement data journal January 2018
A BEPU Analysis Separating Epistemic and Aleatory Errors to Compute Accurate Dryout Power Uncertainties journal January 2013
Making best use of model evaluations to compute sensitivity indices journal May 2002
A comprehensive framework for verification, validation, and uncertainty quantification in scientific computing journal June 2011
Comparison of Values of Pearson's and Spearman's Correlation Coefficients on the Same Sets of Data journal June 2011
Mixed aleatory and epistemic uncertainty quantification using fuzzy set theory journal November 2015
Treatment of Epistemic and Aleatory Uncertainties in the Statistical Analysis of the Neutronic Protection System in CANDU Reactors
  • Novog, D. R.; Atkinson, K.; Levine, M.
  • Volume 2: Fuel Cycle and High Level Waste Management; Computational Fluid Dynamics, Neutronics Methods and Coupled Codes; Student Paper Competition https://doi.org/10.1115/ICONE16-48127
conference January 2008
BISON Theory Manual The Equations behind Nuclear Fuel Analysis report September 2016
A fuzzy-based approach to comprehensive modeling and analysis of systems with epistemic uncertainties journal November 2010
Factorial Sampling Plans for Preliminary Computational Experiments journal May 1991
Uncertainty and sensitivity analysis of the nuclear fuel thermal behavior journal December 2012
The importance of input interactions in the uncertainty and sensitivity analysis of nuclear fuel behavior journal August 2014
Uncertainty and sensitivity analysis in reactivity-initiated accident fuel modeling: synthesis of organisation for economic co-operation and development (OECD)/nuclear energy agency (NEA) benchmark on reactivity-initiated accident codes phase-II journal March 2018
Determination of Sample Sizes for Setting Tolerance Limits journal March 1941
The OFFBEAT multi-dimensional fuel behavior solver journal March 2020
An efficient methodology for modeling complex computer codes with Gaussian processes journal June 2008
The role of verification & validation process in best estimate plus uncertainty methodology development journal December 2019
Importance of uncertainty quantification in nuclear fuel behaviour modelling and simulation journal December 2019
Evaluation of FRAPCON-4.0’s uncertainties predicting PCMI during power ramps journal August 2019
Comparison of global sensitivity analysis methods – Application to fuel behavior modeling journal February 2016
Progress in international best estimate plus uncertainty analysis methodologies journal April 2021

Similar Records

Related Subjects