FEM Approximation of Internal Combustion Chambers for Knock Investigations | Zendy

S. Carstens-Behrens | Zendy; Mark Urlaub | Zendy; Johann F. Böhme | Zendy; Jürgen Förster | Zendy; Franz Raichle | Zendy

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FEM Approximation of Internal Combustion Chambers for Knock Investigations

Author(s) -

S. Carstens-Behrens,

Mark Urlaub,

Johann F. Böhme,

Jürgen Förster,

Franz Raichle

Publication year - 2002

Publication title -

sae technical papers on cd-rom/sae technical paper series

Language(s) - English

Resource type - Conference proceedings

SCImago Journal Rank - 0.295

H-Index - 107

eISSN - 1083-4958

pISSN - 0148-7191

DOI - 10.4271/2002-01-0237

Subject(s) - finite element method , combustion , computer science , engineering , structural engineering , chemistry , organic chemistry

The resonances of SI engine combustion chambers are slightly excited during normal combustion but strongly excited by knock. In order to avoid knocking combustions extensive knowledge about knock and its effects is necessary. In this paper the combustion chamber of a serial production engine is modeled by finite elements. Modal analyses are performed in order to gain information about the resonances, their frequencies, and their frequency and amplitude modulations. Simulation results are compared to measured data using a highresolution time-frequency method. Furthermore, a connection between knock origin and the excitation of the resonances is postulated applying transient analyses.

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