产量(工程)
选择性
材料科学
吸附
变压吸附
化学工程
放射性废物
航程(航空)
分子动力学
高压
核燃料
水准点(测量)
位阻效应
动能
核工程
纳米技术
气体分离
乏核燃料
化学
分压
职位(财务)
作者
Qihang Tian,Y F Li,Qingkuan Meng,Shizhen Liu,Yongzheng Wang,Bin Chen,Heping Ma
标识
DOI:10.1002/advs.202600073
摘要
The separation of Kr/Xe from spent nuclear fuel off-gas is critical, yet most current adsorbents exhibit Xe-Kr co-adsorption under elevated pressures, posing challenges for industrial pressure swing adsorption processes. Herein, we present and evaluate a metal-organic framework, CALF-20M-w, engineered for molecular sieving separation of Kr/Xe under industrial pressure conditions. CALF-20M-w possesses a pore size of 3.7 Å, which position between Kr (3.6 Å) and Xe (4.1 Å) kinetic diameters, enables record Kr/Xe uptake ratio (52.2) and selectivity of 4424 at 195 K and 5 bar, surpassing all benchmark materials. GCMC simulations reveal that Kr atoms occupy favorable positions within CALF-20M-w's intersecting channels, while Xe atoms are sterically excluded in the pressure range of 1-30 bar. Dynamic breakthrough separation experiments and PSA simulation show CALF-20M-w can yield >99.9% pure Xe, demonstrating feasibility for radioactive Kr removal from spent nuclear fuel off-gases. Moreover, CALF-20M-w exhibits extreme radiation resistance under β-irradiation (72 kGy/h) and γ-irradiation (240 kGy), outperforming UiO-66 and ZIF-8. CALF-20M-w sets new benchmarks for high-pressure molecular sieving in Kr/Xe separation, offering a highly promising strategy for nuclear waste management and rare gas purification.
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