Wei-Yang Cheng scite author profile

Abstract:In this study, fuel, oxidant supply and cooling systems with microcontroller units (MCU) are developed in a compact design to fit two 5 kW proton exchange membrane fuel cell (PEMFC) stacks. At the initial stage, the testing facility of the system has a large volume (2.0 m × 2.0 m × 1.5 m) with a longer pipeline and excessive control sensors for safe testing. After recognizing the performance and stability of stack, the system is redesigned to fit in a limited space (0.4 m × 0.5 m × 0.8 m). Furthermore, the stack performance is studied under different hydrogen recycling modes. Then, two similar 5 kW stacks are directly coupled with diodes to obtain a higher power output and safe operation. The result shows that the efficiency of the 5 kW stack is 43.46% with a purge period of 2 min with hydrogen recycling and that the hydrogen utilization rate µ f is 66.31%. In addition, the maximum power output of the twin-coupled module (a power module with two stacks in electrical cascade/parallel arrangement) is 9.52 kW.

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The corrosion protection study on inner surface from welding of aluminum alloy 7075-T6 hydrogen storage bottle

Cheng

Yang

et al. 2016

International Journal of Hydrogen Energy

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Wei-Yang Cheng

Development of a piezoelectric proton exchange membrane fuel cell stack (PZT-Stack)

Low-power divide-by-3 injection-locked frequency dividers implemented with injection transformers

The performance of a novel pseudo-bipolar bi-cell piezoelectric proton exchange membrane fuel cell with a smaller nozzle and diffuser

Compact Design of 10 kW Proton Exchange Membrane Fuel Cell Stack Systems with Microcontroller Units

The corrosion protection study on inner surface from welding of aluminum alloy 7075-T6 hydrogen storage bottle

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