Registro sencillo

dc.rights.licenseAttribution 4.0 International*
dc.contributor.authorFernandez de Arroiabe, Peru
dc.contributor.authorBerasategi Arostegi, Joanes
dc.contributor.authorLarrañaga Ezeiza, Manex
dc.contributor.authorVértiz, G.
dc.contributor.authorGalarza, I.
dc.contributor.authorMartinez Agirre, Manex
dc.date.accessioned2026-06-15T09:31:50Z
dc.date.available2026-06-15T09:31:50Z
dc.date.issued2026
dc.identifier.issn2214-157Xen
dc.identifier.urihttps://hdl.handle.net/20.500.11984/14546
dc.description.abstractDirect liquid cooling (DLC) using dielectric fluids is emerging as a highly effective strategy for thermal management in high-performance lithium-ion battery systems, particularly under demanding operating conditions. However, most existing thermal models neglect heat generation from passive components and electrical contact resistances, which can significantly affect prediction accuracy during fast charging and discharging. This work presents a validated 3D multi-scale numerical model of a pouch-cell battery module cooled via a partial immersion DLC approach. The module, composed of four 60 Ah cells in a 2s2p electrical configuration and in a 1s4p hydraulic arrangement, is modeled using a multi-domain framework that integrates electrochemical and thermal phenomena. All model input parameters were experimentally measured in our laboratory, ensuring high physical fidelity. Importantly, the model incorporates ohmic heating in passive components and heat generated by contact resistance, factors often overlooked in existing literature. Validation against experimental measurements demonstrates high accuracy in predicting both transient and steady-state temperature profiles, including spatial temperature distributions within and between cells. Results reveal that passive component heating can momentarily account for up to 46 % of total heat generation under high C-rate charge-discharge cycles, while contact resistance contributes up to 12 % during semi-fast charging. These findings highlight the critical need to include these sources in thermal models to ensure accurate predictions and support design improvements. The proposed approach offers valuable insights for enhancing thermal performance, reliability, and safety of pouch-cell battery modules in electric vehicle applications.en
dc.language.isoengen
dc.publisherElsevieren
dc.rights© The Author(s)en
dc.rights.urihttp://creativecommons.org/licenses/by/4.0/*
dc.subjectODS 7 Energía asequible y no contaminanteen
dc.subjectODS 9 Industria, innovación e infraestructuraes
dc.subjectDirect liquid coolingen
dc.subjectLithium-ion battery thermal managementen
dc.subjectPouch-cell moduleen
dc.subjectContact resistance heatingen
dc.subjectNumerical case studyen
dc.subjectCFDen
dc.subjectElectric vehicle battery designen
dc.titleInfluence of contact resistance on thermal behavior of pouch-cell battery modules under partial direct liquid cooling: A numerical studyen
dcterms.accessRightshttp://purl.org/coar/access_right/c_abf2en
dcterms.sourceCase Studies in Thermal Engineeringen
local.contributor.groupMecánica de Fluidoses
local.description.peerreviewedtrueen
local.identifier.doihttps://doi.org/10.1016/j.csite.2026.108098en
local.contributor.otherinstitutionhttps://ror.org/03vgz7r63es
local.source.details2025 Vol. 82. N. art. 108098en
oaire.format.mimetypeapplication/pdfen
oaire.file$DSPACE\assetstoreen
oaire.resourceTypehttp://purl.org/coar/resource_type/c_6501en
oaire.versionhttp://purl.org/coar/version/c_970fb48d4fbd8a85en
dc.unesco.tesaurohttp://vocabularies.unesco.org/thesaurus/concept10965en
oaire.funderNameGobierno Vascoen
oaire.fundingStreamElkartek 2025en
oaire.fundingStreamGrupos de Investigaciónen
oaire.awardNumberKK-2025/00094en
oaire.awardNumberIT1505-22en
oaire.awardTitleSistemas avanzados de baterías para movilidad eléctrica - tecnologías habilitadoras para sistemas de almacenamiento de energía en base a baterías de estado sólido (SSB) (BAT4ME25)en
oaire.awardTitleMecánica de Fluidosen
dc.unesco.clasificacionhttp://skos.um.es/unesco6/220504en


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