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PEMFC (Polymer Electrolyte Membrane Fuel Cell) is expected to be one of the major power source for the future passenger vehicle as it features high power density and short starting time in addition to its own environment-friendly characteristics. The bipolar plate is a multi-functional component that mechanically separates unit cells, offering flow paths for hydrogen, oxygen, and coolant through complicated channels engraved on it. Besides, it composes an electrical circuit from an anode to the adjacent cathode. High modulus pitch-based carbon fiber composite is of high potential for the bipolar plate application due to its excellent mechanical, electrical, and chemical properties. This paper presents the thermo-mechanical properties of the high modulus pitch-based carbon-fiber composite material required for bipolar plate application, as well as the method to manufacture the bipolar plate.

Hyundai Motor Company developed its second-generation fuel cell hybrid electric vehicle (FCEV) based on its small Tucson SUV. Compared to Hyundai's first generation fuel cell vehicle, the Santa Fe FCEV, the Tucson FCEV has an extended driving range plus cold weather starting capability. It incorporates numerous technical advances including a fuel cell that operates at sub-zero temperatures and a new high voltage lithium ion polymer battery. Using both a fuel cell and a high voltage battery as sources for driving energy, the Tucson hybrid system provides optimum driving conditions, which ensures high tank to wheel efficiency. The Tucson FCEV's power plant has been located in the front - under the front hood - unlike its predecessor Santa Fe FCEV, which featured an under-floor installation. More importantly, Tucson FCEV's driving range has been extended to 300km thanks to its 152-liter hydrogen storage tanks.

The subject of this study is a centrifugal compressor for Fuel Cell Electric Vehicles (FCEV). Recently there is a growing interest in FCEVs since they are considered a realistic solution to environmental regulations for passenger cars to reduce emissions. Water vapor is the only byproduct of a reaction in the Proton Electrolyte Membrane (PEM) fuel cell stack which generates electricity with oxygen from the surrounding air and hydrogen from a fuel tank. Auxiliary systems called Balance of Plant (BOP) serve to provide air and hydrogen to the stack in a correct ratio. The compressor is one of key components of this system because compression of the intake air brings an increase in efficiency and power density of the FCEV. This paper presents the characteristics of a 10 kW class centrifugal compressor with an oil-free bearing system. It consists of a shaft, two airfoil journal bearings and a pair of thrust bearings.