Abstract
Subject of this work is a dynamic simulation strategy for PCCI combustion that can be used in closed-loop control development. A detailed multi-zone chemistry model for the high-pressure part of the engine cycle is extended by a mean value model accounting for the gas exchange losses. The resulting stationary model is capable of describing PCCI combustion sufficiently well. It is at the same time very economic with respect to computational costs. The model is further extended by identified system dynamics influencing the stationary inputs. For this, a Wiener model is set up that uses the stationary model as a nonlinear system representation. In this way, a dynamic nonlinear model for the representation of the controlled plant Diesel engine is created. This paper summarizes an important outcome of the the Collaborative Research Centre "SFB 686 - Modellbasierte Regelung der homogenisierten Niedertemperatur-Verbrennung" at RWTH Aachen University and Bielefeld University, Germany.
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