Pre-ignition engine cycles leading to super-knock were simulated with a 48 species skeletal iso-octane mechanism to identify the dominant reaction pathways that are present in super-knock. To mimic pre-ignition, a deflagration front was generated via a hot spot that is placed over the piston at close proximity to the end-wall. Computational singular perturbation (CSP) was used to analyze the chemical dynamics at various in-cylinder locations: a point at the center of the cylinder where the deflagration front consumes the air/fuel mixture and two points located at 3 mm from the end-wall where super-knock and mild knock occur. The CSP analysis of the point at the center of the cylinder reveals weak two-stage ignition-like dynamics with a shor...
The description of knock phenomenon is a critical issue in a combustion model for Spark-Ignition (SI...
Using 15 LES cycles of a high load/low speed spark ignition engine operating point, two different fr...
The work was concerned with improving understanding of the effects of transient over-fuelling during...
Pre-ignition engine cycles leading to super-knock were simulated with a 48 species skeletal iso-octa...
The super-knock phenomenon is a major obstacle for further improving the power density in SI engines...
International audienceHighly boosted spark ignition (SI) engines are more and more attractive for ca...
The currently reported work involved fundamental study of auto-ignition under unusually high knock i...
The occurrence and intensity of the detonation phenomenon at spark-ignition (SI) engine conditions i...
Knock in SI engines limits both power density and fuel conversion efficiency. The main mechanisms wi...
Engine knock has long been one of the major obstacles for improving thermal efficiency of spark-igni...
none3Knocking combustions limit Spark Ignition engines efficiency, preventing the achievement of the...
The occurrence of knock is the most limiting hindrance for modern Spark-Ignition (SI) engines. In or...
none6noIn this paper, a pre-ignition sequence with detrimental effects on the engine has been analys...
In the present work, a numerical methodology based on three-dimensional (3D) computational fluid dyn...
In order to improve fuel conversion efficiency, currently made spark-ignited engines are characteriz...
The description of knock phenomenon is a critical issue in a combustion model for Spark-Ignition (SI...
Using 15 LES cycles of a high load/low speed spark ignition engine operating point, two different fr...
The work was concerned with improving understanding of the effects of transient over-fuelling during...
Pre-ignition engine cycles leading to super-knock were simulated with a 48 species skeletal iso-octa...
The super-knock phenomenon is a major obstacle for further improving the power density in SI engines...
International audienceHighly boosted spark ignition (SI) engines are more and more attractive for ca...
The currently reported work involved fundamental study of auto-ignition under unusually high knock i...
The occurrence and intensity of the detonation phenomenon at spark-ignition (SI) engine conditions i...
Knock in SI engines limits both power density and fuel conversion efficiency. The main mechanisms wi...
Engine knock has long been one of the major obstacles for improving thermal efficiency of spark-igni...
none3Knocking combustions limit Spark Ignition engines efficiency, preventing the achievement of the...
The occurrence of knock is the most limiting hindrance for modern Spark-Ignition (SI) engines. In or...
none6noIn this paper, a pre-ignition sequence with detrimental effects on the engine has been analys...
In the present work, a numerical methodology based on three-dimensional (3D) computational fluid dyn...
In order to improve fuel conversion efficiency, currently made spark-ignited engines are characteriz...
The description of knock phenomenon is a critical issue in a combustion model for Spark-Ignition (SI...
Using 15 LES cycles of a high load/low speed spark ignition engine operating point, two different fr...
The work was concerned with improving understanding of the effects of transient over-fuelling during...