期刊
ENERGY & ENVIRONMENTAL SCIENCE
卷 13, 期 7, 页码 2096-2105出版社
ROYAL SOC CHEMISTRY
DOI: 10.1039/c9ee03626a
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资金
- Department of Energy - Office of Energy Efficiency and Renewable Energy - Fuel Cell Technologies Office (DOE-EERE-FCTO) [DE-AC02-05CH11231]
- U.S. Department of Energy Office of Science laboratory [DE-AC02-06CH11357]
Unitized regenerative fuel cells (URFC) convert electrical energy to and from chemical bonds in hydrogen. URFCs have the potential to provide economical means for efficient long-term, seasonal, energy storage and on-demand conversion back to electrical energy. We first optimize the catalyst layer for discrete electrolyzer and fuel cell and then configure the URFC. The goal is to identify a cost competitive configuration for URFCs, and demonstrate it in terms of upper limit of round trip efficiencies (RTEs). Two possible configurations of URFCs are compared via experiments and techno-economic analysis (TEA), which emphasize the advantages of the unconventional constant-electrode (CE) URFC over the traditional constant-gas (CG) configuration. We also study the stability via accelerated stress tests (ASTs) and demonstrate steady state operation in a daily cycle for day to night energy shifting. From the investigations, the optimum composition of the URFC anode catalyst layer is 90 at% Ir-black balanced by Pt-black for both CE and CG configurations. At 80 degrees C and 1 A cm(-2), the optimized CE URFC achieves 57% and 60% RTE with air and O-2 as the reductant gases, respectively. We then evaluated the differences in durability using an AST over 10k charge-discharge cycles; the results reveal that the wider potential window at the anode in CE (0.05-1.55 V) has minimal effect on catalyst layer stability compared to CG (0.55-1.55 V). Furthermore, there was no degradation up to the range of 2k-5k cycles; beyond that the fuel cell (discharge) performance degraded while the electrolyzer (charge) performance was still stable. The observations here indicate substantial potential to employ URFCs as efficient and cost-effective bidirectional energy-conversion devices within energy storage and utilization systems after appropriate technological and operational optimizations.
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