Parametric optimisation based on TDS experiments for rapid and efficient identification of hydrogen transport materials properties
A novel identification technique of hydrogen transport parameters using FESTIM (Finite Element Simulation of Tritium In Materials) has been demonstrated. FESTIM is a finite element code developed with FEniCS performing hydrogen transport simulations. The trapping parameters (detrapping energies and...
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doaj-627e4cbf87914063afebb13dd3aee2432021-06-03T04:57:08ZengElsevierNuclear Materials and Energy2352-17912021-06-0127100984Parametric optimisation based on TDS experiments for rapid and efficient identification of hydrogen transport materials propertiesRémi Delaporte-Mathurin0Etienne A. Hodille1Jonathan Mougenot2Yann Charles3Christian Grisolia4CEA, IRFM/GCFPM, F-13108 Saint-Paul-lez-Durance, France; Université Sorbonne Paris Nord, Laboratoire des Sciences des Procédés et des Matériaux, LSPM, CNRS, UPR 3407, F-93430, Villetaneuse, France; Corresponding author at: CEA, IRFM/GCFPM, F-13108 Saint-Paul-lez-Durance, France.CEA, IRFM/GCFPM, F-13108 Saint-Paul-lez-Durance, FranceUniversité Sorbonne Paris Nord, Laboratoire des Sciences des Procédés et des Matériaux, LSPM, CNRS, UPR 3407, F-93430, Villetaneuse, FranceUniversité Sorbonne Paris Nord, Laboratoire des Sciences des Procédés et des Matériaux, LSPM, CNRS, UPR 3407, F-93430, Villetaneuse, FranceCEA, IRFM/GCFPM, F-13108 Saint-Paul-lez-Durance, FranceA novel identification technique of hydrogen transport parameters using FESTIM (Finite Element Simulation of Tritium In Materials) has been demonstrated. FESTIM is a finite element code developed with FEniCS performing hydrogen transport simulations. The trapping parameters (detrapping energies and trap densities) are identified for various materials (Tungsten, Aluminium, EUROFER and Beryllium) by automatically reproducing thermo-desorption experiments. Several optimisation algorithms are tested and the Nelder–Mead algorithm shows the best efficiency. An optimisation test problem with five free parameters took only a few hours to solve whereas optimisation cases with two free parameters took a few minutes. Limitations of this technique are shown and discussed.http://www.sciencedirect.com/science/article/pii/S2352179121000661Hydrogen transportParametric optimisationAutomationMaterialsFinite elements |
collection |
DOAJ |
language |
English |
format |
Article |
sources |
DOAJ |
author |
Rémi Delaporte-Mathurin Etienne A. Hodille Jonathan Mougenot Yann Charles Christian Grisolia |
spellingShingle |
Rémi Delaporte-Mathurin Etienne A. Hodille Jonathan Mougenot Yann Charles Christian Grisolia Parametric optimisation based on TDS experiments for rapid and efficient identification of hydrogen transport materials properties Nuclear Materials and Energy Hydrogen transport Parametric optimisation Automation Materials Finite elements |
author_facet |
Rémi Delaporte-Mathurin Etienne A. Hodille Jonathan Mougenot Yann Charles Christian Grisolia |
author_sort |
Rémi Delaporte-Mathurin |
title |
Parametric optimisation based on TDS experiments for rapid and efficient identification of hydrogen transport materials properties |
title_short |
Parametric optimisation based on TDS experiments for rapid and efficient identification of hydrogen transport materials properties |
title_full |
Parametric optimisation based on TDS experiments for rapid and efficient identification of hydrogen transport materials properties |
title_fullStr |
Parametric optimisation based on TDS experiments for rapid and efficient identification of hydrogen transport materials properties |
title_full_unstemmed |
Parametric optimisation based on TDS experiments for rapid and efficient identification of hydrogen transport materials properties |
title_sort |
parametric optimisation based on tds experiments for rapid and efficient identification of hydrogen transport materials properties |
publisher |
Elsevier |
series |
Nuclear Materials and Energy |
issn |
2352-1791 |
publishDate |
2021-06-01 |
description |
A novel identification technique of hydrogen transport parameters using FESTIM (Finite Element Simulation of Tritium In Materials) has been demonstrated. FESTIM is a finite element code developed with FEniCS performing hydrogen transport simulations. The trapping parameters (detrapping energies and trap densities) are identified for various materials (Tungsten, Aluminium, EUROFER and Beryllium) by automatically reproducing thermo-desorption experiments. Several optimisation algorithms are tested and the Nelder–Mead algorithm shows the best efficiency. An optimisation test problem with five free parameters took only a few hours to solve whereas optimisation cases with two free parameters took a few minutes. Limitations of this technique are shown and discussed. |
topic |
Hydrogen transport Parametric optimisation Automation Materials Finite elements |
url |
http://www.sciencedirect.com/science/article/pii/S2352179121000661 |
work_keys_str_mv |
AT remidelaportemathurin parametricoptimisationbasedontdsexperimentsforrapidandefficientidentificationofhydrogentransportmaterialsproperties AT etienneahodille parametricoptimisationbasedontdsexperimentsforrapidandefficientidentificationofhydrogentransportmaterialsproperties AT jonathanmougenot parametricoptimisationbasedontdsexperimentsforrapidandefficientidentificationofhydrogentransportmaterialsproperties AT yanncharles parametricoptimisationbasedontdsexperimentsforrapidandefficientidentificationofhydrogentransportmaterialsproperties AT christiangrisolia parametricoptimisationbasedontdsexperimentsforrapidandefficientidentificationofhydrogentransportmaterialsproperties |
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1721399703008968704 |