H-infinity Backpressure Controller for High Response Engine Exhaust Throttles

Authors

  • Ádám Bárdos
    Affiliation
    Budapest University of Technology and Economics
  • Barna Szimandl
    Affiliation
    Budapest University of Technology and Economics
  • Huba Németh
    Affiliation
    Budapest University of Technology and Economics
https://doi.org/10.3311/PPtr.8470

Abstract

Modern engine exhaust restriction valves can be applied not only as retarders. A suitable pressure generation can assist the aftertreatment system (exhaust gas temperature management) and raw emission control as well. To provide these functionalities the exhaust backpressure has to be controlled arbitrarily. In this paper a model-based controller design is demonstrated to minimize calibration effort. A first engineering principle based, mean-value, nonlinear model was described and converted into linear parameter-varying (LPV) form. To satisfy the demands of the above applications the controller needs to be a high dynamic, stabilizing, tracking controller which is robust in the whole relevant engine operation range. The exhaust processes of the individual cylinders generate comparable amplitude pressure oscillations to the expected control accuracy. To fulfill the above requirements and manage the challenge of the exhaust pressure waves an H-infinity controller design method was chosen. In order to handle the saturation of the control signal a high gain anti-windup was applied. Seeking for the lowest possible computational demand the controller order reduction was proposed based on Hankel singular values. Finally the controller performance was demonstrated and evaluated in software-in-the-loop simulations.

Keywords:

diesel engines, pressure control, Linear parameter-varying system (LPV), robust control, H-infinity control

Citation data from Crossref and Scopus

Published Online

2016-10-03

How to Cite

Bárdos, Ádám, Szimandl, B., Németh, H. (2016) “H-infinity Backpressure Controller for High Response Engine Exhaust Throttles”, Periodica Polytechnica Transportation Engineering, 44(4), pp. 201–208. https://doi.org/10.3311/PPtr.8470

Issue

Section

Articles