氨
氨生产
化学工程
材料科学
导电体
可持续生产
生产(经济)
纳米技术
化学
废物管理
有机化学
复合材料
工程类
经济
宏观经济学
作者
Tejas Nivarty,William C. Straub,Chinomso E. Onuoha,Michael Manno,Jeffrey H. Schott,Mahdi Malmali,Alon V. McCormick
标识
DOI:10.1021/acssuschemeng.4c08837
摘要
Sorption-based low-pressure green ammonia synthesis using supported metal halide salts enables efficient interconversion between hydrogen and ammonia, allowing the high hydrogen density and well-established transportation network of ammonia to be used for green energy storage. Magnesium chloride supported on silica gel (MgCl2/SiO2) sorbent has been the subject of much investigation owing to its high capacity, selectivity, and reversibility at temperatures close to reactor conditions; however, MgCl2/SiO2 suffers from low thermal conductivity, which complicates absorber design at larger scales and prolongs absorption–desorption cycle times. We present a scalable, solventless method for supporting MgCl2 on thermally conductive aluminum fibers (MgCl2/Al)─a thermally conductive ammonia sorbent with a high working capacity of ∼220 mgNH3/gabsorbent. Although the solventless synthesis causes variance in initial-cycle pressure drop and capacity, we show that this stabilizes after cycling. The high thermal conductivity of MgCl2/Al allows for rapid absorption–desorption cycles, enabling easier scale-up. MgCl2/Al also maintains its cyclic capacity up to at least 50 cycles.
科研通智能强力驱动
Strongly Powered by AbleSci AI