Abstract
Portable power sources have attracted increasing interest and attention, with a focus on the reduction of the system volume. Thus, portable power sources often use polymer electrolyte fuel cell (PEFC) systems with dead-ended operation—which are simpler and more fuel-efficient than conventional PEFC systems. In these systems, the fuel may be supplied under nonhumidified conditions to minimize the balance of plant (BOP). In recent studies, metal foams have been used as flow fields to improve fuel diffusion and water management in the PEFC; the performance can be compared to that of a conventional channel. This study compared the performance and water management ability of channel and metal foam flow fields under nonhumidified conditions with dead-ended operation. The results demonstrate that the average output was similar for both flow fields. In terms of fuel efficiency, the PEFC with the metal foam could be operated for a significantly longer time without purging than that with the channel.
Highlights
Interest in drones, wearable robots, and unmanned aerial vehicles (UAVs) has been increasing worldwide in recent years
This study investigated a possible optimizing method for a portable power source system
We suggested simplifying a portable power system and improving its fuel efficiency
Summary
Wearable robots, and unmanned aerial vehicles (UAVs) has been increasing worldwide in recent years. The increasing use of such devices has led to an increased demand for portable power. Batteries have been the most popular portable power sources. Batteries are disadvantageous because of their low energy density and long charging times relative to their capacity. Researchers and engineers are considering fuel cells as an alternative next-generation portable energy source [1,2,3,4,5,6]. Polymer electrolyte fuel cells (PEFCs) are suitable as a portable power source owing to their low operating temperature, high energy density, and because they are ecofriendly
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