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Optimal operation strategy development for fuel cell hybrid vehicle D. J. Xuan, J. W. Kim, Y. B. Kim*
The Journal of Mechanical Science and Technology, vol. 25, no. 1, pp.183-192, 2011
Abstract : An overall simulation model for fuel cell hybrid vehicle (FCHV) power train in parallel configuration using MATLAB/Simulink programming
is constructed in this study. The model runs on power control strategy by using logic-threshold approach, achieved by the
hybrid control unit (HCU) and fuel cell stack number. Using accelerator and decelerator pedal positions deduced from the driving schedule
as the primary input, the simulation implements power flow and distribution under different vehicle operating modes. The HCU control
strategy also incorporates regenerative braking and recharge for battery capacity recovery. Using the D-optimality method for experiment
points selection and sequential quadratic programming (SQP) algorithm for obtaining the optimal operational parameters, three
control threshold variables of HCU and optimal stack cell number are selected for hydrogen fuel economy under certain driving cycles.
The proposed method provides optimized configurations of the FCHV model and the fuel cell stack, which has the capability in satisfying
drive power request while satisfying vehicle driving schedule and battery state of charge (SOC) recovery with lower fuel consumption.
Keyword :
FCHV; HCU; Modeling; Logic threshold; D-optimality; SQP algorithm
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