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Numerical and optical soot characterization through 2-color pyrometry technique for an innovative diesel piston bowl design

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Numerical and optical soot characterization through 2-color pyrometry technique for an innovative diesel piston bowl design

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dc.contributor.author Piano, A. es_ES
dc.contributor.author Roggio, S. es_ES
dc.contributor.author Millo, F. es_ES
dc.contributor.author García Martínez, Antonio es_ES
dc.contributor.author Micó, Carlos es_ES
dc.contributor.author De Vargas Lewiski, Felipe es_ES
dc.contributor.author Pesce, F. C. es_ES
dc.contributor.author Vassallo, A. es_ES
dc.contributor.author Bianco, A. es_ES
dc.date.accessioned 2024-11-20T19:10:12Z
dc.date.available 2024-11-20T19:10:12Z
dc.date.issued 2023-02-01 es_ES
dc.identifier.issn 0016-2361 es_ES
dc.identifier.uri http://hdl.handle.net/10251/212071
dc.description.abstract [EN] The development of innovative diesel piston bowl designs has shown significant improvement of the near-wall flame evolution, resulting in lower fuel consumption and engine-out soot emissions. With this aim, a novel hybrid piston bowl for a 1.6 L light-duty diesel engine was designed, coupling a sharp-stepped bowl and radial-bumps in the inner bowl rim. The effects of the proposed hybrid bowl were analysed through both single-cylinder optical engine and 3D-CFD models, which feature a detailed chemical kinetic mechanism and the Particulate Mimic (PM) soot model. The 2-color pyrometry optical technique was adopted to obtain the optical soot density (KL) and the temperature of the soot surface. Then, a line-of-sight integration of the numerical soot distribution was adopted to obtain a planar KL distribution, which is directly comparable with the experimental KL images. The results showed a good agreement in terms of soot distribution between 3D-CFD and experiments, confirming the high prediction capabilities of the developed numerical methodology. The synergetic application of numerical and optical techniques highlighted that the hybrid bowl strongly mitigates the flame-to-flame interaction with respect to a conventional re-entrant bowl, leading to lower soot formation in the flame collision area. Moreover, faster flame propagation toward the cylinder axis is highlighted with a consequent higher soot oxidation rate in the late combustion phase. es_ES
dc.language Inglés es_ES
dc.publisher Elsevier es_ES
dc.relation.ispartof Fuel es_ES
dc.rights Reconocimiento - No comercial - Sin obra derivada (by-nc-nd) es_ES
dc.subject Innovative diesel engine piston bowl es_ES
dc.subject Optical engine es_ES
dc.subject 2-Color pyrometry technique es_ES
dc.subject Computational Fluid Dynamics es_ES
dc.subject Numerical optical soot density KL es_ES
dc.subject.classification MAQUINAS Y MOTORES TERMICOS es_ES
dc.title Numerical and optical soot characterization through 2-color pyrometry technique for an innovative diesel piston bowl design es_ES
dc.type Artículo es_ES
dc.identifier.doi 10.1016/j.fuel.2022.126347 es_ES
dc.rights.accessRights Abierto es_ES
dc.contributor.affiliation Universitat Politècnica de València. Escuela Politécnica Superior de Alcoy - Escola Politècnica Superior d'Alcoi es_ES
dc.contributor.affiliation Universitat Politècnica de València. Departamento de Máquinas y Motores Térmicos - Departament de Màquines i Motors Tèrmics es_ES
dc.description.bibliographicCitation Piano, A.; Roggio, S.; Millo, F.; García Martínez, A.; Micó, C.; De Vargas Lewiski, F.; Pesce, FC.... (2023). Numerical and optical soot characterization through 2-color pyrometry technique for an innovative diesel piston bowl design. Fuel. 333. https://doi.org/10.1016/j.fuel.2022.126347 es_ES
dc.description.accrualMethod S es_ES
dc.relation.publisherversion https://doi.org/10.1016/j.fuel.2022.126347 es_ES
dc.type.version info:eu-repo/semantics/publishedVersion es_ES
dc.description.volume 333 es_ES
dc.relation.pasarela S\478294 es_ES


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