Optimisation of 700 bar type IV hydrogen pressure vessel considering composite damage and dome multi-sequencing

This study investigated with the optimisation of the composite stacking sequence of hydrogen pressure vessels manufactured by filament winding. It is a response to the need to develop cost-effective hydrogen energy carriers to permit greater use of hydrogen technology for transport and thus satisfy...

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Veröffentlicht in:	International journal of hydrogen energy 2015-10, Vol.40 (38), p.13215-13230
Hauptverfasser:	Leh, D., Magneville, B., Saffré, P., Francescato, P., Arrieux, R., Villalonga, S.
Format:	Artikel
Sprache:	eng
Schlagworte:	Design of experiment Engineering Sciences Filament winding Genetic algorithm Mechanical engineering Mechanics Pressure vessel
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container_end_page	13230
container_issue	38
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container_title	International journal of hydrogen energy
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creator	Leh, D. Magneville, B. Saffré, P. Francescato, P. Arrieux, R. Villalonga, S.
description	This study investigated with the optimisation of the composite stacking sequence of hydrogen pressure vessels manufactured by filament winding. It is a response to the need to develop cost-effective hydrogen energy carriers to permit greater use of hydrogen technology for transport and thus satisfy current environmental requirements. Within the framework of the OSIRHYS IV project, a comparison of the optimal solutions is presented. This comparison focuses on different optimisation strategies and methods including multi-sequence dome lay-up characteristics and composite damage. Optimisation results are compared and discussed with the aim of identifying optimal design rules to meet industrial needs. Finally, prospective work is presented. •Optimization of the composite stacking sequence of hydrogen tank is performed.•Optimization methods includes multi-sequence dome lay-up characteristics.•Composite damage is taken into account.
doi_str_mv	10.1016/j.ijhydene.2015.06.156
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subjects	Design of experiment Engineering Sciences Filament winding Genetic algorithm Mechanical engineering Mechanics Pressure vessel
title	Optimisation of 700 bar type IV hydrogen pressure vessel considering composite damage and dome multi-sequencing
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