Title :
Control of dual loop EGR air-path systems for advanced combustion diesel engines by a singular perturbation methodology
Author :
Fengjun Yan ; Junmin Wang
Author_Institution :
Dept. of Mech. & Aerosp. Eng., Ohio State Univ., Columbus, OH, USA
fDate :
June 29 2011-July 1 2011
Abstract :
This paper presents a method to control dual loop EGR air-path systems for Diesel engines running advanced combustion modes. Considering the different time scales (fast and slow) dynamics of high pressure loop EGR (HPL-EGR) and low pressure loop EGR (LPL-EGR), a decomposition control method for a singularly perturbed system was utilized to achieve systematic air-path control, including the control of temperature, pressure, and oxygen fraction in intake manifold. Variable geometry turbocharger (VGT) was used to control the pressure before a high-pressure throttle (HP-Throttle) valve to accommodate the constraints of other actuators, such as dual-loop EGR and HP-Throttle. Effectiveness of such a control methodology was shown by simulation results based on a high-fidelity GT-Power Diesel engine model.
Keywords :
actuators; compressors; diesel engines; exhaust systems; perturbation techniques; pressure control; temperature control; valves; GT-Power diesel engine model; actuators; advanced combustion diesel engines; advanced combustion modes; dual loop EGR air path system control; high pressure loop EGR; high pressure throttle valve; intake manifold; low pressure loop EGR; oxygen fraction control; pressure control; singular perturbation methodology; singularly perturbed system; temperature control; variable geometry turbocharger; Actuators; Atmospheric modeling; Combustion; Diesel engines; Manifolds; Temperature control; Valves;
Conference_Titel :
American Control Conference (ACC), 2011
Conference_Location :
San Francisco, CA
Print_ISBN :
978-1-4577-0080-4
DOI :
10.1109/ACC.2011.5991435
