Al-Coated Conductive Fiber Filters for High-Efficiency Electrostatic Filtration: Effects of Electrical and Fiber Structural Properties

Choi, Dong Yun; An, Eun Jeong; Jung, Sunggoo; Song, Dong Keun; Oh, Yong Suk; Lee, Hyung Woo; Lee, Hye Moon

doi:10.1038/s41598-018-23960-9

Cited by 23 publications

(13 citation statements)

References 36 publications

(31 reference statements)

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“…In these studies, either particles or filters were charged, and so the electrostatic filtration efficiency enhancement was limited. Some researchers installed particle prechargers before conductive filters to strengthen the electrostatic effect. − In these studies, the highest filtration efficiency was 99.99% for 0.03–0.4 μm particles with 4.9 Pa pressure drop at 0.1 m/s face air velocity. , However, the electrostatic shielding limits these filters’ dust-holding capacity because there is no electric force inside the conductive filter material.…”

Section: Introductionmentioning

confidence: 99%

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Electrostatic Air Filtration by Multifunctional Dielectric Heterocaking Filters with Ultralow Pressure Drop

Tian

Xia

et al. 2020

ACS Appl. Mater. Interfaces

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In air filtration, for creating healthy indoor air, there is an intrinsic conflict between high filtration efficiency and low wind pressure drop. In this study, we overcame this conflict by developing new dielectric heterocaking (HC) filters, in which high relative dielectric constant (εr) materials were heterogeneously loaded on traditional polymer fibers. The dielectric HC filters in an electrostatic polarizing field generate a great amount of charges on their surface, leading to a strong attraction to precharged aerosol particles, and result in high filtration efficiency. Observing via a charged coupled device camera, the migration speed of aerosol smoke particles toward the polarized HC fiber exceeded those toward the unpolarized HC fiber by a factor of 6. We loaded high-εr HCs including manganese dioxide (MnO2), activated carbon, zinc oxide (ZnO), copper oxide (CuO), and barium titanate (BaTiO3) on polyurethane foams using a fast and large-scale roll-to-roll gel squeezing method. Based on the experimental results, when HCs had a εr larger than 5.1, an increased εr did not benefit electrostatic filtration efficiency for aerosol particles much, but resulted in a larger net ozone production. We suggested a MnO2-HC filter for efficient and multifunctional filtration of indoor particles, ambient ozone, and formaldehyde with only 3.8 Pa pressure drop at 1.1 m/s filtration velocity. This efficient and cost-effective dielectric HC filter opens a new avenue for the design of multifunctional filters, which will facilitate its large-scale production and commercial application in the ventilation system for healthy buildings.

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Section: Introductionmentioning

confidence: 99%

“…26−29 In these studies, the highest filtration efficiency was 99.99% for 0.03−0.4 μm particles with 4.9 Pa pressure drop at 0.1 m/s face air velocity. 27,28 However, the electrostatic shielding limits these filters' dust-holding capacity because there is no electric force inside the conductive filter material.…”

Section: Introductionmentioning

confidence: 99%

Electrostatic Air Filtration by Multifunctional Dielectric Heterocaking Filters with Ultralow Pressure Drop

Tian

Xia

et al. 2020

ACS Appl. Mater. Interfaces

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“…Within this framework, a combined approach utilizing the electrostatic attraction of ESP and fiber-based filters has been introduced for efficient PM capture. − Air ionization and charging of PMs can increase the electrostatic attraction of the particles and thus increase filtration efficiency while circumventing the issue of pressure loss . However, even this hybrid system (combining nanofibers and ESP features) may still suffer from the issues of pressure loss after clogging and poor recyclability when the fiber packing density is high.…”

Section: Introductionmentioning

confidence: 99%

Transparent Metallized Microfibers as Recyclable Electrostatic Air Filters with Ionization

Kim

Seok

et al. 2020

ACS Appl. Mater. Interfaces

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Air-quality control remains a major environmental concern as polluted air is a threat to public safety and health in major industrialized cities. To filter pollutants, fibrous filters employing electrostatic attraction have been widely used. However, such air filters suffer from some major disadvantages, including low recyclability and a significant pressure drop owing to clogging and a high packing density. Herein, we developed ionization-assisted electrostatic air filters consisting of nonwoven nanofibers. Ionization of particulate matter (PM) using air ionization enhanced the electrostatic attraction, thereby promoting efficient filtration. Metallization of the fibers facilitated strong electrical attraction and the consequent capture of PM of various sizes. The low packing density of the metallized fibers also facilitated efficient filtration of the PM, even at low driving pressures, which in turn reduced the energy consumption of the air-filtration device.

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“…The importance of the diffusion mechanism is increasing with decreasing the particle diameter and becomes less as the aerosol particle size increases. It is similar to the electrostatic particle deposition mechanism [18][19][20][21].…”

Section: Introductionmentioning

confidence: 57%

Effect of electron beam irradiation on filtering facepiece respirators integrity and filtering efficiency

et al. 2022

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The outbreak of the COVID-19 pandemic has shown that the demand for medical masks and respirators exceeds the current global stockpile of these items, and there is a dire need to increase the production capacity. Considering that ionizing radiation has been used for sterilization of medical products for many years and electron beam (EB) irradiation enables the treatment of huge quantities of disposable medical products in a short time this method should be tested for the mask’s decontamination. In this work, three different filtering facepiece respirators (FFRs) were irradiated with electron beams of 12 kGy and 25 kGy. The results confirmed that the decrease in filtration efficiency after irradiation of all respirators results from the elimination of the electric charge from the polypropylene (PP) fibers in the irradiation process. Moreover, the applied doses may affect the thermal stability of PP fabrics, while filtering materials structure and integrity have not changed after irradiation.

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Al-Coated Conductive Fiber Filters for High-Efficiency Electrostatic Filtration: Effects of Electrical and Fiber Structural Properties

Cited by 23 publications

References 36 publications

Electrostatic Air Filtration by Multifunctional Dielectric Heterocaking Filters with Ultralow Pressure Drop

Electrostatic Air Filtration by Multifunctional Dielectric Heterocaking Filters with Ultralow Pressure Drop

Transparent Metallized Microfibers as Recyclable Electrostatic Air Filters with Ionization

Effect of electron beam irradiation on filtering facepiece respirators integrity and filtering efficiency

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