Sangseok Yu scite author profile

Durability is the most pressing issue preventing the efficient commercialization of polymer electrolyte membrane fuel cell (PEMFC) stationary and transportation applications. A big barrier to overcoming the durability limitations is gaining a better understanding of failure modes for user profiles. In addition, durability test protocols for determining the lifetime of PEMFCs are important factors in the development of the technology. These methods are designed to gather enough data about the cell/stack to understand its efficiency and durability without causing it to fail. They also provide some indication of the cell/stack’s age in terms of changes in performance over time. Based on a study of the literature, the fundamental factors influencing PEMFC long-term durability and the durability test protocols for both PEMFC stationary and transportation applications were discussed and outlined in depth in this review. This brief analysis should provide engineers and researchers with a fast overview as well as a useful toolbox for investigating PEMFC durability issues.

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Adaptive control for robust air flow management in an automotive fuel cell system

Han

2017

Applied Energy

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Effects of geometric parameters on the separated air flow temperature of a vortex tube for design optimization

2012

Energy

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A study of operation strategy of cooling module with dynamic fuel cell system model for transportation application

Jung

2010

Renewable Energy

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Advanced thermal management of automotive fuel cells using a model reference adaptive control algorithm

Han

2017

International Journal of Hydrogen Energy

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Control strategy of cooling system for the optimization of parasitic power of automotive fuel cell system

Han

Park

2015

International Journal of Hydrogen Energy

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Recycling silver nanoparticle debris from laser ablation of silver nanowire in liquid media toward minimum material waste

Hwang

Park

Kim

et al. 2021

Sci Rep

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As silver nanowires (Ag NWs) are usually manufactured by chemical synthesis, a patterning process is needed to use them as functional devices. Pulsed laser ablation is a promising Ag NW patterning process because it is a simple and inexpensive procedure. However, this process has a disadvantage in that target materials are wasted owing to the subtractive nature of the process involving the removal of unnecessary materials, and large quantities of raw materials are required. In this study, we report a minimum-waste laser patterning process utilizing silver nanoparticle (Ag NP) debris obtained through laser ablation of Ag NWs in liquid media. Since the generated Ag NPs can be used for several applications, wastage of Ag NWs, which is inevitable in conventional laser patterning processes, is dramatically reduced. In addition, electrophoretic deposition of the recycled Ag NPs onto non-ablated Ag NWs allows easy fabrication of junction-enhanced Ag NWs from the deposited Ag NPs. The unique advantage of this method lies in using recycled Ag NPs as building materials, eliminating the additional cost of junction welding Ag NWs. These fabricated Ag NW substrates could be utilized as transparent heaters and stretchable TCEs, thereby validating the effectiveness of the proposed process.

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Sangseok Yu

Thermal management strategy for a proton exchange membrane fuel cell system with a large active cell area

Review of the Durability of Polymer Electrolyte Membrane Fuel Cell in Long-Term Operation: Main Influencing Parameters and Testing Protocols

Adaptive control for robust air flow management in an automotive fuel cell system

Effects of geometric parameters on the separated air flow temperature of a vortex tube for design optimization

A study of operation strategy of cooling module with dynamic fuel cell system model for transportation application

Advanced thermal management of automotive fuel cells using a model reference adaptive control algorithm

Control strategy of cooling system for the optimization of parasitic power of automotive fuel cell system

Recycling silver nanoparticle debris from laser ablation of silver nanowire in liquid media toward minimum material waste

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