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Development and validation of a phenomenological model for hydrogen fueled PFI internal combustion engines considering Thermo-Diffusive effects on flame speed propagation

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Development and validation of a phenomenological model for hydrogen fueled PFI internal combustion engines considering Thermo-Diffusive effects on flame speed propagation

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dc.contributor.author De Bellis, V. es_ES
dc.contributor.author Piras, M. es_ES
dc.contributor.author Bozza, F. es_ES
dc.contributor.author E. Malfi es_ES
dc.contributor.author Novella Rosa, Ricardo es_ES
dc.contributor.author Gómez-Soriano, Josep es_ES
dc.contributor.author Olcina-Girona, Miguel es_ES
dc.date.accessioned 2024-07-26T18:10:26Z
dc.date.available 2024-07-26T18:10:26Z
dc.date.issued 2024-05-15 es_ES
dc.identifier.issn 0196-8904 es_ES
dc.identifier.uri http://hdl.handle.net/10251/206695
dc.description.abstract [EN] This paper proposes a 1D numerical/experimental study on a single -cylinder research ICE equipped with a hydrogen Port Fuel Injection (PFI) system. The experimental campaign covered tests at the fixed speed of 1500 rpm and different levels of load, from 5 bar to 11 bar IMEP, and of air excess, with a relative air -to -fuel ratio ranging from 1.4 to 4.0. A 0D/1D model of the investigated ICE is developed, including detailed combustion, turbulence, and NOx emission sub -models. In particular, combustion model is based on the fractal approach, k -K -T model is adopted for describing turbulent phenomena and NOx emissions are predicted by the Zeldovich mechanism. A sub -model was developed to assess the influence of Thermo -Diffusive (TD) instabilities on the freely propagating flame speed accounting for equivalence ratio, variable transport coefficients and reaction orders. This evaluation considered the impact of TD instabilities commonly observed in lean premixed hydrogen combustion on the flame front. The engine model calibration process enabled the comparison between numerical predictions and experimental observations, encompassing pressure cycles, burn rate traces, and main engine performance (air flow rate, IMEP, indicated efficiency, and timing of main combustion events). The model replicated the IMEP with an average error of 2.5%, gross indicated efficiency with an average error of 1.6%, main combustion angles with an average error of 3.8 CAD on CA(50), and NOx emissions satisfactorily, showing high sensitivity to operational parameters. Nonetheless, less accurate predictions occur in cases with significantly elevated lambda values (lambda > 3.6), which were attributed to the presence of thickened flames, where some assumptions inherent to the adopted combustion model may fail. Finally, a comparison between the proposed approach and the one proposed in Ballerini et al. (2022) is presented, and readers are provided with recommendations for further development of future models that account for Thermo -Diffusive instabilities in lean hydrogen combustion. es_ES
dc.language Inglés es_ES
dc.publisher Elsevier es_ES
dc.relation.ispartof Energy Conversion and Management es_ES
dc.rights Reconocimiento - No comercial - Sin obra derivada (by-nc-nd) es_ES
dc.subject Hydrogen es_ES
dc.subject Hydrogen combustion es_ES
dc.subject 0D/1D ICE model es_ES
dc.subject Model validation es_ES
dc.subject.classification MAQUINAS Y MOTORES TERMICOS es_ES
dc.subject.classification INGENIERIA AEROESPACIAL es_ES
dc.title Development and validation of a phenomenological model for hydrogen fueled PFI internal combustion engines considering Thermo-Diffusive effects on flame speed propagation es_ES
dc.type Artículo es_ES
dc.identifier.doi 10.1016/j.enconman.2024.118395 es_ES
dc.rights.accessRights Embargado es_ES
dc.date.embargoEndDate 2026-05-15 es_ES
dc.description.bibliographicCitation De Bellis, V.; Piras, M.; Bozza, F.; E. Malfi; Novella Rosa, R.; Gómez-Soriano, J.; Olcina-Girona, M. (2024). Development and validation of a phenomenological model for hydrogen fueled PFI internal combustion engines considering Thermo-Diffusive effects on flame speed propagation. Energy Conversion and Management. 308. https://doi.org/10.1016/j.enconman.2024.118395 es_ES
dc.description.accrualMethod S es_ES
dc.relation.publisherversion https://doi.org/10.1016/j.enconman.2024.118395 es_ES
dc.type.version info:eu-repo/semantics/publishedVersion es_ES
dc.description.volume 308 es_ES
dc.relation.pasarela S\522991 es_ES


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