Title :
Transient control of air intake system in diesel engines
Author :
Ejiri, A. ; Sasaki, J. ; Kinoshita, Y. ; Shimotani, K. ; Iizawa, R.
Author_Institution :
Autonomous Syst. Lab., FUJITSU Labs. Ltd., Atsugi, Japan
Abstract :
For the purpose of contributing to global environment protection, several research studies have been conducted involving clean-burning diesel engines. In recent diesel engines with Exhaust Gas Recirculation (EGR) systems and a Variable Nozzle Turbocharger (VNT), mutual interference between EGR and VNT has been noted. Hence, designing and adjusting control of the conventional PID controller is particularly difficult at the transient state in which the engine speed and fuel injection rate change. We propose a model-based control system with the MIMO/SISO switchable Controller, the Dynamic Feed-forward and Disturbance Observer using an engine transient model. Using this method, we achieved precise reference tracking and reduced emissions.
Keywords :
MIMO systems; air pollution control; control system synthesis; diesel engines; exhaust systems; feedforward; fuel systems; nozzles; observers; three-term control; MIMO-SISO switchable Controller; PID controller; air intake system; clean-burning diesel engines; disturbance observer; dynamic feed-forward; emission reduction; engine speed; exhaust gas recirculation systems; fuel injection rate; global environment protection; model-based control system; mutual interference; tracking; transient control; variable nozzle turbocharger; Engines; MIMO; Mathematical model; Steady-state; Switches; Transient analysis; Diesel Engine; Disturbance Observer; Dynamic Feed-forward; EGR; Transient Mode; VNT;
Conference_Titel :
SICE Annual Conference 2010, Proceedings of
Conference_Location :
Taipei
Print_ISBN :
978-1-4244-7642-8
