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Ghent University Academic Bibliography

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01J8FDGNSSDERHZ8SFCFDWN7TD classification A1.
01J8FDGNSSDERHZ8SFCFDWN7TD date "2024".
01J8FDGNSSDERHZ8SFCFDWN7TD language "eng".
01J8FDGNSSDERHZ8SFCFDWN7TD type journalArticle.
01J8FDGNSSDERHZ8SFCFDWN7TD hasPart 01J8FDQMPA6PA1ME7DDXVPCSK6.pdf.
01J8FDGNSSDERHZ8SFCFDWN7TD subject "Technology and Engineering".
01J8FDGNSSDERHZ8SFCFDWN7TD doi "10.1016/j.ijhydene.2024.08.447".
01J8FDGNSSDERHZ8SFCFDWN7TD issn "0360-3199".
01J8FDGNSSDERHZ8SFCFDWN7TD issn "1879-3487".
01J8FDGNSSDERHZ8SFCFDWN7TD volume "87".
01J8FDGNSSDERHZ8SFCFDWN7TD abstract "The rising interest in using hydrogen as a fuel has increased the demand for composite pressure vessels that can safely store hydrogen at a working pressure of 70 MPa. However, a significant challenge to commercialization lies in developing optimized vessel designs that minimize both cost and weight. Analytical models have proven valuable for design optimization since they enable a quick analysis of a large number of options. Despite this, existing models fail to combine three aspects that are essential for a correct analysis of hydrogen pressure vessels: validity for asymmetric lay-ups, including out-of-plane stresses since these are thick-walled vessels, and predicting stress variations near the dome-cylinder interface. Therefore, this work presents a closed-form analytical model that integrates these three features through a superposition of two models. The model's accuracy is evaluated by comparing the results with finite element simulations, showing excellent agreement across the entire stress distribution.".
01J8FDGNSSDERHZ8SFCFDWN7TD author 77f03f87-a73b-11ed-a230-cd4fe345d9f8.
01J8FDGNSSDERHZ8SFCFDWN7TD author F574E142-F0ED-11E1-A9DE-61C894A0A6B4.
01J8FDGNSSDERHZ8SFCFDWN7TD author F7F7B866-8460-11E7-A72F-CA7AAD28A064.
01J8FDGNSSDERHZ8SFCFDWN7TD dateCreated "2024-09-23T12:25:47Z".
01J8FDGNSSDERHZ8SFCFDWN7TD dateModified "2024-12-12T21:03:44Z".
01J8FDGNSSDERHZ8SFCFDWN7TD name "Closed-form analytical model for the cylinder region of thick-walled composite pressure vessels for hydrogen storage".
01J8FDGNSSDERHZ8SFCFDWN7TD pagination urn:uuid:2515fbe5-28d6-414c-b62e-42b611fa6989.
01J8FDGNSSDERHZ8SFCFDWN7TD sameAs LU-01J8FDGNSSDERHZ8SFCFDWN7TD.
01J8FDGNSSDERHZ8SFCFDWN7TD sourceOrganization urn:uuid:31c13078-dae9-4d8a-9a2e-02718c3db077.
01J8FDGNSSDERHZ8SFCFDWN7TD type A1.