Model-Based Control of the VGT and EGR in a Turbocharged Common-Rail Diesel Engine: Theory and Passenger Car Implementation 2003-01-0357
In this article model-based controller design techniques are investigated for the transient operation of a common-rail diesel engine in order to optimize driveability and to reduce soot emissions. The computer-aided design has benefits in reducing controller calibration time.
This paper presents a nonlinear control concept for the coordinated control of the exhaust gas recirculation (EGR) valve and the variable geometry turbocharger (VGT) in a common-rail diesel engine. The overall controller structure is set up to regulate the total cylinder air-charge with a desired fresh air-charge amount by means of controlling the intake manifold pressure and estimating the fresh air-charge inducted into the cylinders.
During varying engine operating conditions the two control loops are coordinated by a compensation of the EGR valve action through the VGT controller. A nonlinear exhaust pressure controller is designed to regulate the estimated turbocharger power which compensates all EGR valve actions and results in the desired turbocharger power management.
The VGT and EGR controllers, the cylinder air-charge observer and the turbocharger identification algorithm are developed based on a nonlinear diesel engine model. The benefits of the coordinated controller structure are demonstrated with transient engine measurements in a passenger car.
Citation: Ammann, M., Fekete, N., Guzzella, L., and Glattfelder, A., "Model-Based Control of the VGT and EGR in a Turbocharged Common-Rail Diesel Engine: Theory and Passenger Car Implementation," SAE Technical Paper 2003-01-0357, 2003, https://doi.org/10.4271/2003-01-0357. Download Citation
M. Ammann, N. P. Fekete, L. Guzzella, A. H. Glattfelder
DaimlerChrysler AG, Swiss Federal Institute of Technology (ETH) Zürich
SAE 2003 World Congress & Exhibition
Electronic Engine Controls 2003-SP-1749, SAE 2003 Transactions Journal of Engines-V112-3