GPC Control of the Airpath of High Speed Diesel Engines

José V. Garcia; Peter Langthaler; Luigi del Re

GPC Control of the Airpath of High Speed Diesel Engines

José V. Garcia
, Peter Langthaler
, Luigi del Re

Institute of Design and Control of Mechatronical Systems

Research output: Chapter in Book/Report/Conference proceeding › Conference proceedings › peer-review

Abstract

This paper presents a predictive design approach for the airpath control of diesel engines (EGR/VGT). The approach arises naturally from a model based sight of engine control and is discussed both in the double SISO version as well as in a modified MIMO version designed to cope with artificial setpoints typically used to enforce exact closing of valves in engines subject to production variance. The approach has been tested on an AVL dynamic test bench with a production BMW four cylinder diesel engine and compared to the results obtained by the original control configuration. The results confirm that the model based predictive approach has a large potentiality to improve the system behavior in terms of pollutants during transients, and that in some cases even significant improvements of specific consumption are achieved.

Original language	English
Title of host publication	Proceedings of the 2006 IEEE International Conference on Control
Number of pages	6
Publication status	Published - Oct 2006

Fields of science

202 Electrical Engineering, Electronics, Information Engineering
202027 Mechatronics
202034 Control engineering
203027 Internal combustion engines
206001 Biomedical engineering
206002 Electro-medical engineering
207109 Pollutant emission

Cite this

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title = "GPC Control of the Airpath of High Speed Diesel Engines",

abstract = "This paper presents a predictive design approach for the airpath control of diesel engines (EGR/VGT). The approach arises naturally from a model based sight of engine control and is discussed both in the double SISO version as well as in a modified MIMO version designed to cope with artificial setpoints typically used to enforce exact closing of valves in engines subject to production variance. The approach has been tested on an AVL dynamic test bench with a production BMW four cylinder diesel engine and compared to the results obtained by the original control configuration. The results confirm that the model based predictive approach has a large potentiality to improve the system behavior in terms of pollutants during transients, and that in some cases even significant improvements of specific consumption are achieved.",

author = "Garcia, \{Jos{\'e} V.\} and Peter Langthaler and \{del Re\}, Luigi",

year = "2006",

month = oct,

language = "English",

booktitle = "Proceedings of the 2006 IEEE International Conference on Control",

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T1 - GPC Control of the Airpath of High Speed Diesel Engines

AU - Garcia, José V.

AU - Langthaler, Peter

AU - del Re, Luigi

PY - 2006/10

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N2 - This paper presents a predictive design approach for the airpath control of diesel engines (EGR/VGT). The approach arises naturally from a model based sight of engine control and is discussed both in the double SISO version as well as in a modified MIMO version designed to cope with artificial setpoints typically used to enforce exact closing of valves in engines subject to production variance. The approach has been tested on an AVL dynamic test bench with a production BMW four cylinder diesel engine and compared to the results obtained by the original control configuration. The results confirm that the model based predictive approach has a large potentiality to improve the system behavior in terms of pollutants during transients, and that in some cases even significant improvements of specific consumption are achieved.

AB - This paper presents a predictive design approach for the airpath control of diesel engines (EGR/VGT). The approach arises naturally from a model based sight of engine control and is discussed both in the double SISO version as well as in a modified MIMO version designed to cope with artificial setpoints typically used to enforce exact closing of valves in engines subject to production variance. The approach has been tested on an AVL dynamic test bench with a production BMW four cylinder diesel engine and compared to the results obtained by the original control configuration. The results confirm that the model based predictive approach has a large potentiality to improve the system behavior in terms of pollutants during transients, and that in some cases even significant improvements of specific consumption are achieved.

M3 - Conference proceedings

BT - Proceedings of the 2006 IEEE International Conference on Control

ER -