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Technical Paper

A Quasi-3D Model for the Simulation of the Unsteady Flows in I.C. Engine Pipe Systems

A second step focused on the study of the acoustic perfomance of a cylindrical expansion chamber with the aim of investigating the dissipation introduced by the flux limiter and the importance of the shape reconstruction for capturing higher order modes. The final validation was carried out on a single-cylinder engine for motorbike application, where the components exhibiting a high degree of complexity, namely the airbox and the silencer, were modeled by means of the quasi-3D. following a pure geometrical shape recontruction criterion.
Technical Paper

Integrated Breathing Model and Multi-Variable Control Approach for Air Management in Advanced Gasoline Engine

The evolution of automotive engines calls for the design of electronic control systems optimizing the engine performance in terms of reduced fuel consumption and pollutant emissions. However, the opportunities provided by modern engines have not yet completely exploited, since the adopted control strategies are still largely developed in a very heuristic way and rely on a number of SISO (Single Input Single Output) designs. On the contrary, the strong coupling between the available actuators calls for a MIMO (Multi Input Multi Output) control design approach. To this regard, the availability of reliable dynamic engine models plays an important role in the design of engine control and diagnostic systems, allowing for a significant reduction of the development times and costs. This paper presents a control-oriented model of the air-path system of today's gasoline internal combustion engines.