Title :
Power split strategy for hybrid electric system: SIL validation
Author :
Di Domenico, Domenico ; Fiengo, Giovanni
Author_Institution :
IFP Lyon, Lyon, France
Abstract :
A power management strategy for a hybrid system composed of a fuel cell, a battery and a DC/DC power converter is presented. This is aimed at balancing the power flow between the stack and the battery and avoiding electrochemical damage due to low oxygen concentration in the fuel cell cathode. Starting from the results presented in [3] and [2] the present work is aimed at showing the performance of the power management strategy in a more realistic test bed. In particular, an accurate lithium-ion battery model has been adopted. Presented in [4] the model is based on electrochemical law and describes the solid material diffusion into the battery electrodes. Based on an average version of the model, an extend Kalman filter is also introduced in the control strategy, in order to estimate the battery State of Charge. The closed loop strategy performance has been tested in simulation.
Keywords :
Kalman filters; electrochemical electrodes; fuel cells; load flow; secondary cells; DC/DC power converter; SIL validation; battery charge state; battery electrode; closed loop strategy; electrochemical damage; electrochemical law; extend Kalman filter; fuel cell cathode; hybrid electric system; lithium-ion battery model; oxygen concentration; power flow; power management strategy; power split strategy; software-in-the-loop validation; solid material diffusion; Decision support systems; Europe; High definition video; Hybrid power systems; Radio frequency; System-on-chip; Hybrid system; battery model; optimal control; power management;
Conference_Titel :
Control Conference (ECC), 2009 European
Conference_Location :
Budapest
Print_ISBN :
978-3-9524173-9-3
