Rui Chen, Li Zhang, Di Wang, Xiao-Chen Bu, Xiao-Tao Luo, Cheng-Xin Li, Chang-Jiu Li
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引用次数: 0
摘要
稳定的Bi2O3电解质双层固体氧化物燃料电池(SOFCs)被称为有前途的中温SOFCs。然而,有必要开发一种具有成本效益的方法来制造电解质双层sofc。本研究采用大气等离子喷涂(APS)技术制备了EWSB ((Bi2O3)0.705(Er2O3)0.245(WO3)0.05)和ScSZ ((Sc2O3)0.1(Zr2O3)0.9)电解质,用于组装具有EWSB/ScSZ双层结构的sofc。结果表明,在750℃下,与单层ScSZ电解质电池相比,含有20µm EWSB的电解质双层电池的最大功率密度(MPD)提高了52%。具有致密ScSZ的电解质双层电池具有开路电压约1 V和显著的性能增强,750℃时的mpd为1110 mW cm - 2, 650℃时的mpd为581 mW cm - 2, 650℃时的mpd比具有喷涂ScSZ电解质的电解质双层电池提高了57%。致密的ScSZ电解质有效地保证了EWSB/ScSZ双层电池电解质界面处EWSB优越的电化学性能和稳定性。
Densification of Plasma-Sprayed ScSZ Enables High Performance of Intermediate Temperature Solid Oxide Fuel Cells With EWSB/ScSZ Bilayer Electrolyte
The stabilized Bi2O3 electrolyte bilayer solid oxide fuel cells (SOFCs) are known as promising intermediate temperature SOFCs. However, it is necessary to develop a cost-effective method for manufacturing electrolyte bilayer SOFCs. In this study, atmospheric plasma spraying (APS) is employed to develop a facile method to deposit EWSB ((Bi2O3)0.705(Er2O3)0.245(WO3)0.05) and ScSZ ((Sc2O3)0.1(Zr2O3)0.9) electrolytes for assembling SOFCs with an EWSB/ScSZ bilayer structure. Results show that the maximum power density (MPD) of the electrolyte bilayer cell with 20 µm EWSB is increased by 52% compared with the monolayer ScSZ electrolyte cell at 750°C. The cell of electrolyte bilayer with a densified ScSZ presents open circuit voltage of ∼1 V and a remarkable performance enhancement with the MPDs of 1110 mW cm−2 at 750°C and 581 mW cm−2 at 650°C, being increased by 57% at 650°C compared with electrolyte bilayer cell with the as-sprayed ScSZ electrolyte. The dense ScSZ electrolyte effectively ensures the superior electrochemical performance and stability of EWSB at the interface between electrolytes of EWSB/ScSZ bilayer cell.
期刊介绍:
This journal is only available online from 2011 onwards.
Fuel Cells — From Fundamentals to Systems publishes on all aspects of fuel cells, ranging from their molecular basis to their applications in systems such as power plants, road vehicles and power sources in portables.
Fuel Cells is a platform for scientific exchange in a diverse interdisciplinary field. All related work in
-chemistry-
materials science-
physics-
chemical engineering-
electrical engineering-
mechanical engineering-
is included.
Fuel Cells—From Fundamentals to Systems has an International Editorial Board and Editorial Advisory Board, with each Editor being a renowned expert representing a key discipline in the field from either a distinguished academic institution or one of the globally leading companies.
Fuel Cells—From Fundamentals to Systems is designed to meet the needs of scientists and engineers who are actively working in the field. Until now, information on materials, stack technology and system approaches has been dispersed over a number of traditional scientific journals dedicated to classical disciplines such as electrochemistry, materials science or power technology.
Fuel Cells—From Fundamentals to Systems concentrates on the publication of peer-reviewed original research papers and reviews.
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