渗透
膜
制作
化学工程
纳滤
材料科学
原油
碳氢化合物
聚合物
无定形固体
沸点
蒸馏
化学
精炼(冶金)
沸腾
色谱法
轻质原油
膜技术
合成膜
有机化学
生物炼制
气体分离
纳米技术
共价键
减压蒸馏
作者
Li Cao,Shuhao An,Bingbing Yuan,Zhen Li,Vasilios G. Samaras,Ting Xu,Xixiang Zhang,Huabin Zhang,Zhiping Lai
出处
期刊:Science
[American Association for the Advancement of Science]
日期:2026-06-18
卷期号:392 (6804): 1262-1267
标识
DOI:10.1126/science.aea0869
摘要
Distillation has been the cornerstone of crude oil refining for more than a century, relying on boiling point differences for fractionation. Although effective, it is highly energy-intensive and lacks the precision to separate specific hydrocarbon classes. We report crystalline covalent organic framework (COF) membranes with well-defined micropores and alkyl-functionalized frameworks that combine molecular sieving with preferential affinity to enrich aliphatics. An electric field–assisted roll-to-roll process enabled scalable fabrication of continuous membranes. These COF membranes enriched aliphatics to >95% and delivered permeance orders of magnitude higher than amorphous polymers in Arabian Light crude oil. A crude oil permeance of 0.34 liters m −2 hours −1 bar −1 with >90% aliphatics enrichment was achieved using industrial-standard 1812 membrane modules, demonstrating a lower energy demand than distillation.
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