Surface-modified polymer nanofiber membrane for high-efficiency microdust capturing

纳米纤维 空气过滤器 聚丙烯腈 过滤(数学) 材料科学 聚合物 空气净化器 化学工程 压力降 微粒 纳米技术 复合材料 化学 机械工程 有机化学 入口 工程类 物理 统计 热力学 生物化学 数学
作者
Han-Jung Kim,Seon Joo Park,Chul Soon Park,Thanh‐Hai Le,Sang Hun Lee,Tai Hwan Ha,Hyoung‐il Kim,Jinyeong Kim,Chang‐Soo Lee,Hyeonseok Yoon,Oh Seok Kwon
出处
期刊:Chemical Engineering Journal [Elsevier BV]
卷期号:339: 204-213 被引量:76
标识
DOI:10.1016/j.cej.2018.01.121
摘要

Abstract Particulate matter (PM) pollution is serious human health issue. Various filter technologies have been developed to improve the air filtration efficiency. Recently, nanofibrous membrane filters have received much attention due to its outstanding transparency and high efficiency for PM ≤ 2.5 μm (PM2.5) capture/removal compared to conventional micro-structured filters. Although these filters provide high-efficiency PM2.5 capture, obtaining strong PM adhesion via surface engineering remains a challenge. In this study, we demonstrate a high efficiency PM2.5 capture air-filter by electrospun polyacrylonitrile nanofibers (EPNFs). The surface of the EPNFs was modified by oxygen plasma treatment for generating functional groups such as CONH2, COOH and COOR. The EPNFs were utilized as air filter in hand-made PM removal system which is consisted of DC power supply, PM source, PM sensor and PM removal test chamber. The test result showed high air flow and effective air filtration (PM2.5 removal efficiency: 94.02%, pressure drop: 18 Pa, Time to reach the PM level recommended by the World Health Organization (TWHO PM2.5): 15 min, quality factor: 0.1564 Pa−1) compared to commercial filters. The intermolecular interaction between the plasma-treated EPNFs (PEPNFs) and PMs was investigated by density functional theory (DFT) calculations. The PEPNF filter showed high long-term reproducibility in a cycle test with a high PM concentration (over 2,000 μg m−3). The filter was applied as a car interior air purifier using a cigar jack as a power supply, ca. 16 min was required to reach the PM level recommended by the World Health Organization (
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