纺织学报 ›› 2024, Vol. 45 ›› Issue (11): 21-28.doi: 10.13475/j.fzxb.20230903501

• 纤维材料 • 上一篇    下一篇

对喷静电纺玉米醇溶蛋白/乙烯-乙烯醇共聚物复合过滤器的制备及其性能

岳甜甜1, 郑帅1, 胡静1, 刘宇清1, 林金友2()   

  1. 1.苏州大学 纺织与服装工程学院, 江苏 苏州 215127
    2.中国科学院上海高等研究院, 上海 201210
  • 收稿日期:2023-09-14 修回日期:2024-02-18 出版日期:2024-11-15 发布日期:2024-12-30
  • 通讯作者: 林金友(1982—),男,研究员,博士。主要研究方向为聚合物微纳米纤维应用。E-mail:linjinyou@zjlab.org.cn
  • 作者简介:岳甜甜(1998—),女,硕士生。主要研究方向为生物质智能纤维材料。
  • 基金资助:
    国家自然科学基金项目(52173026);上海市自然科学基金项目(22ZR1470500)

Preparation of zein/ethylene-vinyl alcohol copolymer composite filter by electrostatic spinning and its air filtration performance

YUE Tiantian1, ZHENG Shuai1, HU Jing1, LIU Yuqing1, LIN Jinyou2()   

  1. 1. College of Textile and Apparel Engineering, Soochow University, Suzhou, Jiangsu 215127, China
    2. Shanghai Advanced Institute, Chinese Academy of Sciences, Shanghai 201210, China
  • Received:2023-09-14 Revised:2024-02-18 Published:2024-11-15 Online:2024-12-30

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摘要: 为积极响应国家“双碳”计划的号召,改善绿色纤维在空气过滤方面的应用,以玉米醇溶蛋白(zein)和乙烯-乙烯醇共聚物(EVOH)为原料,分别采用单针双组分和双针双组分静电纺丝方法,制备EVOH/zein复合过滤器,研究了2种不同静电纺丝方法制备的纤维的形貌,并对其过滤性能、力学性能进行对比分析。结果表明:采用双针双组分静电纺丝制备的EVOH/zein复合过滤器,在性能上表现更为优异;当zein质量分数为20%时,EVOH/zein复合过滤器的空气过滤效率为94.5%;经过40次循环测试,对氯化钠气溶胶颗粒过滤效率从92.45%增加到98.19%;对直径为0.5~3.0 μm颗粒物的过滤效率均达到约100%;EVOH/zein复合过滤器的断裂强力为72.87 cN,是zein过滤器的7倍。

关键词: 玉米醇溶蛋白, 乙烯-乙烯醇共聚物, 对喷静电纺, 空气过滤, 复合过滤器

Abstract:

Objective Particulate pollutants in the air are the main cause for air pollution, threatening public health and ecological environment. The requirements for air quality around the world are becoming more and more stringent. However, traditional petroleum-based synthetic polymer fiber filter materials may cause secondary pollution to the environment due to their non-degradable properties. Therefore, it is of great significance to study biodegradable air filtration materials. Due to the good membrane forming, biodegradability, biocompatibility and rich functional groups of zein, more and more research has been carried out in the field of air filtration in recent years.

Method Using ethylene-vinyl alcohol copolymer (EVOH) and zein as raw materials, the mixed fiber membranes of zein and EVOH were prepared by single-needle two-component and double-needle two-component electrospinning, respectively. The fiber morphology prepared by two different electrospinning methods was studied, and the filtration performance and mechanical properties were compared and analyzed by attaching the nanofiber membrane to the commercial cellulose paper towel to form a composite filtration.

Results The EVOH/zein composite filter prepared by two-needle two-component electrospinning showed better performance than the single-needle two-component electrospinning EVOH/zein-n filter. Under the condition of controlling the weight, the filtration efficiency of the single-needle two-component electrospinning EVOH/zein-n filter was 26.8%-50.7%, the pressure drop was 19.2-39.6 Pa, while the pressure drop of the pure EVOH filter was 45.2 Pa. The filtration efficiency of the two-needle two-component electrospinning EZr filter is 43.2%-93.0%, and the pressure drop was 10.1-74.6 Pa. Among them, the EZ20 filter has the best filtration performance, the filtration efficiency reached 94.5%, and the quality factor of the EZr composite filter was greater than that of the pure EVOH and zein filters. Under the condition of controlling the flow rate, when the zein concentration was 20%, the air filtration stability of the EVOH / zein mixed filter was the best, the filtration efficiency increased from 92.45% to 98.19%. With the increase of flow rate, the pressure drop of the filter also increased, from 34.9 Pa to 184.5 Pa. When the particle size was 3-5 μm, the over-rate efficiency of the pure EVOH filter was 96.13%, while the EZr filter achieved 100% filtration efficiency, and EZ20 achieved about 100% filtration efficiency for PM0.5-PM3 including PM2.5. In addition, the breaking strength of EZr fiber membrane was between that of pure zein fiber membrane and pure EVOH fiber membrane, and the breaking strength of EZ20 fiber membrane was 72.87 cN, which is 7 times that of pure zein fiber membrane.

Conclusion An environmentally friendly EVOH/zein filter was prepared by electrospinning EVOH/zein nanofibers on cellulose paper towels. By studying the single-needle two-component and double-needle two-component electrospinning, it is found that the EVOH/zein composite fiber prepared by single-needle two-component electrospinning is a circular structure with smooth surface, which is different from the flat ribbon zein fiber. It is not conducive to capturing particulate pollutants and shows poor air filtration performance. In the EVOH/zein composite filter prepared by double-needle opposite electrospinning, circular EVOH fibers and flat ribbon zein fibers are interlaced, and have the same filtration efficiency and lower pressure drop as the pure zein filter. In the study of mechanical properties, the mechanical properties of the prepared filter were significantly improved by mixing EVOH fiber with zein fiber, leading to good stress and strain. The mechanical properties also show more obvious advantages. This study will provide ideas for the further development of air filters.

Key words: zein, ethylene-vinyl alcohol copolymer, counter-jet electrospinning, air filter, composite filter material

中图分类号: 

  • TQ341.5

图1

静电纺丝示意图"

图2

EVOH/zein的SEM照片"

图3

EVOH/zein-n的纤维直径分布"

表1

不同面密度的EVOH/zein-n的过滤性能"

样品
编号		 过滤效率/% 压降/Pa
0.4
g/m2		 0.8
g/m2		 1.2
g/m2		 0.4
g/m2		 0.8
g/m2		 1.2
g/m2
EZ5 26.8 37.5 50.7 6.3 11.7 19.2
EZ10 29.3 36.5 49.7 5.9 13.1 21.7
EZ20 28.4 39.7 48.1 5.2 12.5 20.3
EZ60 27.8 33.1 39.6 27.8 33.1 39.6
EVOH 27.0 35.2 45.2 27.0 35.2 45.2

图4

EZr过滤前后测试的SEM照片"

图5

EZr的直径和带宽分布"

图6

EVOH、zein和EZr的红外光谱"

表2

不同面密度的EZr的过滤性能"

样品
编号		 过滤效率/% 压降/Pa 品质因数/Pa-1
1 g/m2 3 g/m2 7 g/m2 1 g/m2 3 g/m2 7 g/m2 1 g/m2 3 g/m2 7 g/m2
EZ15 43.2 51.3 69.2 10.1 15.8 30.7 0.056 0.045 0.041
EZ20 63.2 88.8 94.5 19.3 58.3 74.6 0.052 0.038 0.036
EZ25 55.9 68.0 79.2 12.3 29.1 45.6 0.060 0.039 0.034
EVOH 45.2 55.4 60.5 16.0 26.8 39.5 0.038 0.023 0.026
zein 60.2 72.0 93.0 24.0 77.0 111.2 0.032 0.026 0.024

图7

EZr的拉伸力学性能"

图8

EZ20的过滤效率和压降"

图9

复合过滤器对不同尺寸颗粒物的过滤效率"

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