The results of the experimental analyses, described in Part 1, are here employed to build up an innovative numerical approach for the 1D modeling of combustion, cycle-by-cycle variations and knock of a high performance 12-cylinder spark-ignition engine. The whole engine is schematized in detail in a 1D framework simulation. Proper “in-house developed” sub-models are used to describe the combustion process, turbulence phenomenon, cycle-by-cycle variations (CCV) and knock occurrence. In a first stage, the engine model is validated in terms of overall performance parameter and ensemble averaged pressure cycles, for various full and part load operating points and spark timings. Then, the correlation regarding the maximum in-cylinder pressure di...
In this work, experimental data, carried out on a twin-cylinder turbocharged engine at full load ope...
International audienceHighly boosted spark ignition (SI) engines are more and more attractive for ca...
AbstractThe paper presents a numerical study of cycle-to-cycle variability in a turbocharged GDI eng...
The results of the experimental analyses, described in Part 1, are here employed to build up an inno...
In this paper, a high performance V12 spark-ignition engine is experimentally investigated at test-b...
Recently, a tendency is consolidating to produce low displacement turbocharged spark-ignition engine...
In the present paper, two different methodologies are adopted and critically integrated to analyze t...
In spark-ignition engines, knock control represents one of the most critical issue to reach optimal ...
In this paper a novel approach to mimic through numerical simulation Cycle-to-Cycle Variations (CCV)...
Knocking combustions heavily influence the efficiency of Spark Ignition engines, limiting the compre...
Abstract Recent trends in gasoline engines, such as downsizing, downspeeding and the increase of the...
Knock is a non-deterministic phenomenon and its intensity is typically defined by a non-symmetrical ...
Knocking combustions heavily limits the efficiency of Spark Ignition engines. The compression ratio ...
Engine knock is emerging as the main limiting factor for modern spark-ignition (SI) engines, facing ...
In this work, experimental data, carried out on a twin-cylinder turbocharged engine at full load ope...
International audienceHighly boosted spark ignition (SI) engines are more and more attractive for ca...
AbstractThe paper presents a numerical study of cycle-to-cycle variability in a turbocharged GDI eng...
The results of the experimental analyses, described in Part 1, are here employed to build up an inno...
In this paper, a high performance V12 spark-ignition engine is experimentally investigated at test-b...
Recently, a tendency is consolidating to produce low displacement turbocharged spark-ignition engine...
In the present paper, two different methodologies are adopted and critically integrated to analyze t...
In spark-ignition engines, knock control represents one of the most critical issue to reach optimal ...
In this paper a novel approach to mimic through numerical simulation Cycle-to-Cycle Variations (CCV)...
Knocking combustions heavily influence the efficiency of Spark Ignition engines, limiting the compre...
Abstract Recent trends in gasoline engines, such as downsizing, downspeeding and the increase of the...
Knock is a non-deterministic phenomenon and its intensity is typically defined by a non-symmetrical ...
Knocking combustions heavily limits the efficiency of Spark Ignition engines. The compression ratio ...
Engine knock is emerging as the main limiting factor for modern spark-ignition (SI) engines, facing ...
In this work, experimental data, carried out on a twin-cylinder turbocharged engine at full load ope...
International audienceHighly boosted spark ignition (SI) engines are more and more attractive for ca...
AbstractThe paper presents a numerical study of cycle-to-cycle variability in a turbocharged GDI eng...