Use of massively parallel computing to improve modelling accuracy within the nuclear sector
The extreme environments found within the nuclear sector impose large safety factors on modelling analyses to ensure components operate in their desired manner. Improving analysis accuracy has clear value of increasing the design space that could lead to greater efficiency and reliability. Novel ma...
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Multi-Science Publishing
2016-06-01
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| Series: | International Journal of Multiphysics |
| Online Access: | http://journal.multiphysics.org/index.php/IJM/article/view/121 |
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doaj-490959bb88644c9ea15426b312a51eb22020-11-24T23:41:23ZengMulti-Science PublishingInternational Journal of Multiphysics1750-95482048-39612016-06-0110210.21152/1750-9548.10.2.215137Use of massively parallel computing to improve modelling accuracy within the nuclear sectorL M Evans0J D Arregui-Mena1P M Mummery2R Akers3E Surrey4A Shterenlikht5M Broggi6L Margetts7CCFE, Culham Science Centre, Abingdon, Oxon, OX14 3DB, UK School of Mechanical, Aerospace and Civil Engineering (MACE), University of Manchester, Manchester M13 9PL, UKSchool of Mechanical, Aerospace and Civil Engineering (MACE), University of Manchester, Manchester M13 9PL, UKSchool of Mechanical, Aerospace and Civil Engineering (MACE), University of Manchester, Manchester M13 9PL, UKCCFE, Culham Science Centre, Abingdon, Oxon, OX14 3DB, UKCCFE, Culham Science Centre, Abingdon, Oxon, OX14 3DB, UKMechanical Engineering Department, The University of Bristol, Bristol, BS8 1TR, UKInstitut für Bauinformatik, Leibniz Universtät Hannover, Callinstr. 34, 30167, Hannover, GermanySchool of Mechanical, Aerospace and Civil Engineering (MACE), University of Manchester, Manchester M13 9PL, UKThe extreme environments found within the nuclear sector impose large safety factors on modelling analyses to ensure components operate in their desired manner. Improving analysis accuracy has clear value of increasing the design space that could lead to greater efficiency and reliability. Novel materials for new reactor designs often exhibit non-linear behaviour; additionally material properties evolve due to in-service damage a combination that is difficult to model accurately. To better describe these complex behaviours a range of modelling techniques previously under-pursued due to computational expense are being developed. This work presents recent advancements in three techniques: Uncertainty quantification (UQ); Cellular automata finite element (CAFE); Image based finite element methods (IBFEM). Case studies are presented demonstrating their suitability for use in nuclear engineering made possible by advancements in parallel computing hardware that is projected to be available for industry within the next decade costing of the order of $100k.http://journal.multiphysics.org/index.php/IJM/article/view/121 |
| collection |
DOAJ |
| language |
English |
| format |
Article |
| sources |
DOAJ |
| author |
L M Evans J D Arregui-Mena P M Mummery R Akers E Surrey A Shterenlikht M Broggi L Margetts |
| spellingShingle |
L M Evans J D Arregui-Mena P M Mummery R Akers E Surrey A Shterenlikht M Broggi L Margetts Use of massively parallel computing to improve modelling accuracy within the nuclear sector International Journal of Multiphysics |
| author_facet |
L M Evans J D Arregui-Mena P M Mummery R Akers E Surrey A Shterenlikht M Broggi L Margetts |
| author_sort |
L M Evans |
| title |
Use of massively parallel computing to improve modelling accuracy within the nuclear sector |
| title_short |
Use of massively parallel computing to improve modelling accuracy within the nuclear sector |
| title_full |
Use of massively parallel computing to improve modelling accuracy within the nuclear sector |
| title_fullStr |
Use of massively parallel computing to improve modelling accuracy within the nuclear sector |
| title_full_unstemmed |
Use of massively parallel computing to improve modelling accuracy within the nuclear sector |
| title_sort |
use of massively parallel computing to improve modelling accuracy within the nuclear sector |
| publisher |
Multi-Science Publishing |
| series |
International Journal of Multiphysics |
| issn |
1750-9548 2048-3961 |
| publishDate |
2016-06-01 |
| description |
The extreme environments found within the nuclear sector impose large safety factors on modelling analyses to ensure components operate in their desired manner. Improving analysis accuracy has clear value of increasing the design space that could lead to greater efficiency and reliability.
Novel materials for new reactor designs often exhibit non-linear behaviour; additionally material properties evolve due to in-service damage a combination that is difficult to model accurately. To better describe these complex behaviours a range of modelling techniques previously under-pursued due to computational expense are being developed.
This work presents recent advancements in three techniques: Uncertainty quantification (UQ); Cellular automata finite element (CAFE); Image based finite element methods (IBFEM). Case studies are presented demonstrating their suitability for use in nuclear engineering made possible by advancements in parallel computing hardware that is projected to be available for industry within the next decade costing of the order of $100k. |
| url |
http://journal.multiphysics.org/index.php/IJM/article/view/121 |
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