压力降
赫帕
碳纳米管
材料科学
微粒
下降(电信)
空气过滤器
气流
复合材料
纳米结构
过滤(数学)
化学工程
纳米技术
机械
化学
热力学
有机化学
机械工程
入口
统计
物理
数学
工程类
作者
Peng Li,Chunya Wang,Yingying Zhang,Fei Wei
出处
期刊:Small
[Wiley]
日期:2014-10-06
卷期号:10 (22): 4543-4561
被引量:374
标识
DOI:10.1002/smll.201401553
摘要
Air filtration in the free molecular flow (FMF) regime is important and challenging because a higher filtration efficiency and lower pressure drop are obtained when the fiber diameter is smaller than the gas mean free path in the FMF regime. In previous studies, FMF conditions have been obtained by increasing the gas mean free path through reducing the pressure and increasing the temperature. In the case of carbon nanotubes (CNTs) with nanoscale diameters, it is possible to filtrate in the FMF regime under normal conditions. This paper reviews recent progress in theoretical and experimental studies of air filtration in the FMF regime. Typical structure models of high-efficiency particulate (HEPA) air filters based on CNTs are introduced. The pressure drop in air filters operated in the FMF regime is less than that predicted by the conventional air filtration theory. The thinnest HEPA filters fabricated from single-walled CNT films have an extremely low pressure drop. CNT air filters with a gradient nanostructure are shown to give a much better filtration performance in dynamic filtration. CNT air filters with a hierarchical structure and an agglomerated CNT fluidized bed air filter are also introduced. Finally, the challenges and opportunities for the application of CNTs in air filtration are discussed.
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