The paper presents a comprehensive numerical methodology for the estimation of knock tendency in SI engines, based on the synergic use of different frameworks [1]. 3D-CFD in-cylinder analyses are used to simulate the combustion and to estimate the point-wise heat flux acting on engine components. The resulting heat fluxes are used in a conjugate heat transfer model in order to reconstruct the actual point-wise wall temperature distribution. An iterative loop is established between the two simulation realms. In order to evaluate the effect of temperature on knock, in-cylinder analyses are integrated with an accurate chemical description of the actual fuel.
A Methodology to Improve Knock Tendency Prediction in High Performance Engines / Fontanesi, Stefano; Cicalese, Giuseppe; D'Adamo, Alessandro; Cantore, Giuseppe. - In: ENERGY PROCEDIA. - ISSN 1876-6102. - STAMPA. - 45:(2014), pp. 769-778. (Intervento presentato al convegno 68th Conference of the Italian Thermal Machines Engineering Association, ATI 2013 tenutosi a Bologna nel 2013) [10.1016/j.egypro.2014.01.082].
A Methodology to Improve Knock Tendency Prediction in High Performance Engines
FONTANESI, Stefano;CICALESE, Giuseppe;d'ADAMO, Alessandro;CANTORE, Giuseppe
2014
Abstract
The paper presents a comprehensive numerical methodology for the estimation of knock tendency in SI engines, based on the synergic use of different frameworks [1]. 3D-CFD in-cylinder analyses are used to simulate the combustion and to estimate the point-wise heat flux acting on engine components. The resulting heat fluxes are used in a conjugate heat transfer model in order to reconstruct the actual point-wise wall temperature distribution. An iterative loop is established between the two simulation realms. In order to evaluate the effect of temperature on knock, in-cylinder analyses are integrated with an accurate chemical description of the actual fuel.
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