Abstract In order to analyze the driving stability of a plug-in fuel cell vehicle (PFCV), a computer-aided simulator for PFCVs has been developed. PFCVs have been introduced around the world to achieve early commercialization of an eco-friendly and highly efficient fuel cell vehicle. The plug-in option, which allows the battery to be recharged from the electricity grid, enables a reduction in size of the fuel cell system (FCS) and an improvement of its durability. As such, the existing limitations of the fuel cell - such as its high cost, poor durability, and the insufficient hydrogen infrastructure – can be overcome. During the design phase of PFCV development, simulation-based driving stability test is necessary to determine the sizes of the electric engine of the FCS and the battery. The developed simulator is very useful for analyzing the driving stability of the PFCV with respect to the capacities of the FCS and battery. The simulation results are in fact very close to those obtained from a real system, since the estimation accuracy of PFCV component models used in this simulator, such as the fuel cell stack, battery, electric vehicle, and the other balance of plants (BOPs), are verified by the experiments, and the simulator uses the newly-proposed power distribution control logic and the pre-confirmed real driving schedule. Using these results, we can study which one will be the best in terms of driving stability.
[1]
Kenneth S Kurani,et al.
Estimating the early household market for light-duty hydrogen-fuel-cell vehicles and other “Mobile Energy” innovations in California: A constraints analysis ☆
,
2006
.
[2]
G. J. Suppes,et al.
Plug-in hybrid with fuel cell battery charger
,
2005
.
[3]
James Larminie,et al.
Fuel Cell Systems Explained
,
2000
.
[4]
John Lowry,et al.
Electric Vehicle Technology Explained
,
2003
.
[5]
G. J. Suppes,et al.
Plug-in fuel cell hybrids as transition technology to hydrogen infrastructure
,
2003
.
[6]
G. J. Suppes,et al.
Roles of plug-in hybrid electric vehicles in the transition to the hydrogen economy
,
2006
.
[7]
Brett David Williams,et al.
Commercializing light-duty plug-in/plug-out hydrogen-fuel-cell vehicles:
,
2007
.
[8]
Chang-Soo Kim,et al.
Fuzzy control based engine sizing optimization for a fuel cell/battery hybrid mini-bus
,
2008
.
[9]
Huei Peng,et al.
Power management and design optimization of fuel cell/battery hybrid vehicles
,
2007
.