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dc.rights.license© 2024 by the authors. Licensee MDPI, Basel, Switzerland.es
dc.contributor.authorRenau Martínez, Jordies
dc.contributor.authorGarcía Peñas, Víctores
dc.contributor.authorIbáñez Arnal, Manueles
dc.contributor.authorGiménez Sancho, Albertoes
dc.contributor.authorLópez González, E.es
dc.contributor.authorGarcía Magariño, A.es
dc.contributor.authorTerroba, F.es
dc.contributor.authorMoreno Ayerbe, Francisco Javieres
dc.contributor.authorSánchez López, Fernandoes
dc.date.accessioned2025-01-20T09:13:34Z-
dc.date.available2025-01-20T09:13:34Z-
dc.date.issued2024-02-01-
dc.identifier.citationJournal of Marine Science and Engineering 12(2): 268(2024)es
dc.identifier.urihttp://hdl.handle.net/20.500.12666/984-
dc.descriptionSubmission received: 22 November 2023 / Revised: 22 December 2023 / Accepted: 4 January 2024 / Published: 1 February 2024. Author Contributions Conceptualization, J.R.M. and V.G.P.; methodology, F.T.R., A.G.M. and E.L.G.; formal analysis, F.T.R., A.G.M. and J.R.M.; investigation, J.R.M., V.G.P., M.I.A., A.G.S., E.L.G., A.G.M., F.T.R., F.J.M.A. and F.S.L.; resources, F.T.R. and J.R.M.; data curation, V.G.P.; writing—original draft preparation, J.R.M., A.G.M., M.I.A., F.T.R., F.J.M.A. and V.G.P.; writing—review and editing, F.S.L.; visualization, J.R.M. and V.G.P.; supervision, J.R.M.; project administration, J.R.M.; funding acquisition, J.R.M. and F.S.L. All authors have read and agreed to the published version of the manuscript.es
dc.description.abstractThis article presents the design and manufacturing of a hydrogen-powered unmanned aquatic surface vehicle (USV) hull. The design process comprised three stages: (1) defining the requirements for a preliminary geometry, (2) verifying the hydrodynamic hull performance using computational fluid dynamics (CFD) simulations, and (3) experimentally validating the hydrodynamic hull performance and CFD analysis results through experimental fluid dynamics in a calm water towing tank. The manufacturing process utilized additive manufacturing technologies, such as fused granular fabrication and selective laser sintering, to produce the hull and other components, including the propeller and the rudder; thermoplastic materials with carbon fiber reinforcement were employed. The experimental results demonstrate that the optimized trimaran hull exhibited low hydrodynamic resistance (7.5 N), high stability, and a smooth flow around the hull (up to 2 m/s). The design and manufacturing of the USV hull met expectations from both hydrodynamic and structural perspectives, and future work was outlined to integrate a power plant, navigation system, and scientific equipment.es
dc.description.sponsorshipThis research was funded by “Ministerio de Ciencia, Innovación y Universidades” from the Spanish Government, grant number: RTI2018-096001-B-C33.es
dc.language.isoenges
dc.publisherMultidisciplinary Digital Publishing Institute (MDPI)es
dc.relationinfo:eu-repo/grantAgreement/AEI/Plan Estatal de Investigación Científica y Técnica y de Innovación 2017-2020/RTI2018-096262-B-C41/ES/MULTIDISCIPLINARY APPROACH FOR THE IMPLEMENTATION OF NEW TECHNOLOGIES TO PREVENT ACCRETION OF ICE ON AIRCRAFTS/es
dc.rightsAttribution-NonCommercial-NoDerivatives 4.0 Internationales
dc.rights.urihttps://creativecommons.org/licenses/by-nc-nd/4.0/es
dc.subjectTtimaran hulles
dc.subjectUSV hull designes
dc.subject3D printing manufacturees
dc.subjectHydrogenes
dc.subjectExperimental fluid dynamicses
dc.titleDesign Process and Advanced Manufacturing of an Aquatic Surface Vehicle Hull for the Integration of a Hydrogen Power Plant Propulsion Systemes
dc.typeinfo:eu-repo/semantics/articlees
dc.identifier.doi10.3390/jmse12020268-
dc.identifier.e-issn2077-1312-
dc.contributor.funderMinisterio de Ciencia e Innovación (MICINN)es
dc.description.peerreviewedPeerreviewes
dc.type.hasVersioninfo:eu-repo/semantics/publishedVersiones
dc.rights.accessRightsinfo:eu-repo/semantics/openAccesses
dc.type.coarhttp://purl.org/coar/resource_type/c_2df8fbb1es
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