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Title: A machine-learning-aided data recovery approach for predicting multi-material thermal behaviors in advanced test reactor capsules

Journal Article · · International Journal of Heat and Mass Transfer
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  1. Idaho National Laboratory (INL), Idaho Falls, ID (United States)
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Instrumented experiments conducted at test reactors are essential to the deployment of new advanced reactor systems. Designing new experiments and generating data on specific reactor conditions require significant investments in terms of both time and cost. Finite element analysis software can be used to create high-fidelity models of experiment environments in order to support the actual experiments, but computation time remains a concern in terms of applying outcomes to real-time usage of data (e.g., a digital twin [DT]). Here, the present research proposes a machine-learning (ML) aided approach to making temperature and displacement predictions based on the thickness of the outer gas gap on the experimental capsule used for in-pile demonstration of a novel new thermal conductivity probe in the Advanced Test Reactor (ATR). This capsule consisted of U10Zr fuel, a rodlet, sodium, and inner and outer capsules. Gas gaps existed between the fuel and the rodlet, and between the inner and the outer capsule. The learning data pertained to an experimental capsule's radial distributions of temperature and displacement, as obtained based on Abaqus and the physical features. For the first step of ML sequence, the temperature was predicted using three positional parameters. Next, the displacement was predicted using seven additional parameters. Each physical feature was normalized in order to be both nondimensional and standardized. The temperature and displacement predictions showed good agreement with the simulation results in all cases involving interpolation and extrapolation. Furthermore, data similarity enhancement increased the similarity between the training and the target data, thereby increasing the predictive accuracy of the ML models. In certain extrapolation cases involving limited original ML model accuracy, data similarity enhancement and data recovery was able to somewhat improve this accuracy.

Research Organization:
Idaho National Laboratory (INL), Idaho Falls, ID (United States)
Sponsoring Organization:
USDOE Laboratory Directed Research and Development (LDRD) Program; USDOE Office of Nuclear Energy (NE)
Grant/Contract Number:
AC07-05ID14517
OSTI ID:
2438290
Report Number(s):
INL/JOU--24-77006-Rev000
Journal Information:
International Journal of Heat and Mass Transfer, Journal Name: International Journal of Heat and Mass Transfer Vol. 231; ISSN 0017-9310
Publisher:
ElsevierCopyright Statement
Country of Publication:
United States
Language:
English

References (12)

Using deep learning to explore local physical similarity for global-scale bridging in thermal-hydraulic simulation journal November 2020
Development and assessment of a nearly autonomous management and control system for advanced reactors journal January 2021
Uncertainty quantification and software risk analysis for digital twins in the nearly autonomous management and control systems: A review journal September 2021
Development and assessment of prognosis digital twin in a NAMAC system journal December 2022
Online autonomous calibration of digital twins using machine learning with application to nuclear power plants journal November 2022
Enhancing performance of nanofluid mini-channel heat sinks through machine learning and multi-objective optimization of operating parameters journal August 2023
Optimization of a pyrolysis furnace using multi-jet arrays through numerical and machine learning techniques journal November 2023
Computationally efficient CFD prediction of bubbly flow using physics-guided deep learning journal October 2020
A data-driven framework for error estimation and mesh-model optimization in system-level thermal-hydraulic simulation journal August 2019
Machine-learning based error prediction approach for coarse-grid Computational Fluid Dynamics (CG-CFD) journal January 2020
Physics-informed machine learning approach for augmenting turbulence models: A comprehensive framework journal July 2018
Coupling Analytical Models and Machine Learning Methods for Fast and Reliable Resolution of Effects in Multifrequency Eddy-Current Sensors journal January 2021

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Related Subjects

11 NUCLEAR FUEL CYCLE AND FUEL MATERIALS
21 SPECIFIC NUCLEAR REACTORS AND ASSOCIATED PLANTS
97 MATHEMATICS AND COMPUTING
ATR
Digital twin
Extrapolation
Feature similarity measurement
machine learning