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dc.contributor.authorChoopanya, Pattarapong
dc.contributor.authorYang, Zhiyin
dc.date.accessioned2016-10-17T12:34:03Z
dc.date.available2016-10-17T12:34:03Z
dc.date.issued2016-01
dc.identifier.citationChoopanya, P. and Yang, Zhiyin, 'Meshing strategy for PEM fuel cells CFD modelling – a systematic approach', Proceedings of International Conference on Power, Energy Engineering and Management, January 2016, Bangkok, Thailand, DEStech Publications, Inc.en
dc.identifier.urihttp://hdl.handle.net/10545/620603
dc.description.abstractTypical PEM fuel cell models usually involve more than one million mesh elements making the computation very intense. This necessitates an effective way to mesh the computational domain with a minimum number of mesh points while, at the same time, maintaining good accuracy. The meshing strategy in each flow direction is investigated systematically in the current study and it has been found that mesh resolution in different directions has a different degree of influence on the accuracy of solutions. The proposed meshing strategy is capable of greatly reducing the number of mesh elements, hence computation time, while preserving the characteristics of important flow-field variables
dc.language.isoenen
dc.publisherDEStech Publications, Inc.en
dc.relation.ispartofseriesPaper 112en
dc.relation.urlhttp://www.peem2016.org/en
dc.relation.urlhttp://www.destechpub.com/en
dc.rights.urihttp://creativecommons.org/licenses/by-nc-nd/4.0/en
dc.subjectComputational fluid dynamics (CFD)en
dc.subjectFuel cellsen
dc.titleMeshing strategy for PEM fuel cells CFD modelling – a systematic approachen
dc.typeArticleen
dc.contributor.departmentUniversity of Sussex, Brighton, UKen
dc.contributor.departmentUniversity of Derby, Derby, UKen
dc.identifier.journalProceedings of International Conference on Power, Energy Engineering and Management, Bangkok, Thailand.en
dc.internal.reviewer-notePreprint but no mention of Journal it was a preprint for. SER 19/9/16en
refterms.dateFOA2017-10-17T00:00:00Z
html.description.abstractTypical PEM fuel cell models usually involve more than one million mesh elements making the computation very intense. This necessitates an effective way to mesh the computational domain with a minimum number of mesh points while, at the same time, maintaining good accuracy. The meshing strategy in each flow direction is investigated systematically in the current study and it has been found that mesh resolution in different directions has a different degree of influence on the accuracy of solutions. The proposed meshing strategy is capable of greatly reducing the number of mesh elements, hence computation time, while preserving the characteristics of important flow-field variables


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