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(Invited) High-Temperature Alkaline Water Electrolysis Using Composite Ceramic-Molten Hydroxide Membrane

碱性水电解 高温电解 聚合物电解质膜电解 电解 制氢 材料科学 电解水 电解质 高压电解 化学工程 电解槽 陶瓷 分解水 冶金 化学 催化作用 电极 有机化学 物理化学 工程类 光催化 生物化学
作者
J. Lattimer,Hui Xu,Steve McCatty,Yamini Mohan,Prabhakar Singh,Muhammad Anisur Rahman,Ashish Aphale
出处
期刊:Meeting abstracts [Institute of Physics]
卷期号:MA2021-01 (38): 1228-1228
标识
DOI:10.1149/ma2021-01381228mtgabs
摘要

Hydrogen production from water electrolysis for mobile and energy storage applications is attractive due to its high efficiency, fast ramp rates, and potential for the clean energy economy. However, current hydrogen production from electrolysis comprises only a small fraction of the global hydrogen market due to the high cost associated with expensive stack materials (membrane, catalyst, and bipolar plates) and electricity consumption of the commercial electrolysis systems. We have developed a high temperature alkaline electrolyte-based water electrolyzer (HTAWE) that operates at 350-550 °C, enabling high reaction rates while limiting thermal degradation compared to solid oxide cells operating above 700 °C. This water electrolyzer is based on our innovative molten hydroxide electrolyte impregnated in a porous ceramic matrix, which has conductivity as high as 0.4 S/cm at 350 °C, enabling rapid hydroxide transport. This HTAWE can simultaneously reduce the electrolyzer cost (by adopting cheap material) and improve energy efficiency (by enabling high-temperature operation). Using an innovative new SrZrO 3 -based matrix, we have demonstrated exceptional water electrolysis performance using both single and binary hydroxide mixtures. We successfully achieved sustained cell performance of 1.35 V at a current density of 1,000 mA/cm 2 with area specific resistance (ASR) 0.1 Ohm-cm 2 across the cell at furnace temperature 500 °C. We were also able to demonstrate cell performance of 1.45 V at a current density of 1,000 mA/cm 2 with ASR of <0.2 Ohm-cm 2 across the cell at a furnace temperature 400 °C. Furthermore, we have demonstrated stable cell performance for >1000 h of continuous operation at 1 A/cm 2 with ASR of 0.2 Ohm∙cm 2 across the cell.

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