Title :
Modeling and Optimization of a Linear Actuator for a Two-Stage Valve Tappet in an Automotive Engine
Author :
Duchaud, Jean-Laurent ; Hlioui, Sami ; Louf, Francois ; Ojeda, Javier ; Gabsi, Mohamed
Author_Institution :
Syst. et Applic. des Technol. de l´Inf. et de l´Energie Lab., Ecole Normale Super. de Cachan, Cachan, France
Abstract :
This paper focuses on external volume and power consumption optimization of an electromagnetic actuator used to move pins in a two-stage variable valve lift component within an automotive engine. This system is designed to change the valve lift at each engine cycle. To achieve this optimization, three models were developed: a magnetic, an electric, and a dynamic model. They evaluate the performances of a given actuator, check if it fulfills its role, and define the springs needed for the displacement of the pins. The optimization is made using a particle swarm method and can reduce the volume up to 20% with the same electric consumption.
Keywords :
electromagnetic actuators; internal combustion engines; particle swarm optimisation; springs (mechanical); valves; automotive engine; dynamic model; electric consumption; electric model; electromagnetic actuator; external volume; linear actuator modeling; linear actuator optimization; magnetic model; particle swarm method; performances evaluation; pin displacement; power consumption optimization; springs; two-stage valve tappet; two-stage variable valve lift component; Actuators; Computational modeling; Force; Mathematical model; Optimization; Pins; Springs; Actuators; dynamics; electromagnetics; finite element analysis; finite-element analysis; modeling; particle swarm optimization; valves;
Journal_Title :
Vehicular Technology, IEEE Transactions on
DOI :
10.1109/TVT.2014.2372817
