Screening of core filter layer for the development of respiratory mask to combat COVID-19

Screening of core filter layer for the development of respiratory mask to combat COVID-19

Abstract The severe outbreak of respiratory coronavirus disease 2019 has increased the significant demand of respiratory mask and its use become ubiquitous worldwide to control this unprecedented respiratory pandemic. The performance of a respiratory mask depends on the efficiency of the filter laye...

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Main Authors: Lokesh K. Pandey, Virendra V. Singh, Pushpendra K. Sharma, Damayanti Meher, Utpal Biswas, Manisha Sathe, Kumaran Ganesan, Vikas B. Thakare, Kavita Agarwal
Format: Article
Language:English
Published: Nature Publishing Group 2021-05-01
Series:Scientific Reports
Online Access:https://doi.org/10.1038/s41598-021-89503-x
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spelling doaj-2c74a566447e4baca51877a927a24a4b2021-05-16T11:24:51ZengNature Publishing GroupScientific Reports2045-23222021-05-0111111410.1038/s41598-021-89503-xScreening of core filter layer for the development of respiratory mask to combat COVID-19Lokesh K. Pandey0Virendra V. Singh1Pushpendra K. Sharma2Damayanti Meher3Utpal Biswas4Manisha Sathe5Kumaran Ganesan6Vikas B. Thakare7Kavita Agarwal8Defence Research and Development Establishment, DRDODefence Research and Development Establishment, DRDODefence Research and Development Establishment, DRDODefence Research and Development Establishment, DRDODefence Research and Development Establishment, DRDODefence Research and Development Establishment, DRDODefence Research and Development Establishment, DRDODefence Research and Development Establishment, DRDODefence Materials and Stores Research and Development EstablishmentAbstract The severe outbreak of respiratory coronavirus disease 2019 has increased the significant demand of respiratory mask and its use become ubiquitous worldwide to control this unprecedented respiratory pandemic. The performance of a respiratory mask depends on the efficiency of the filter layer which is mostly made of polypropylene melt blown non-woven (PP-MB-NW). So far, very limited characterization data are available for the PPE-MB-NW in terms to achieve desired particulate filtration efficiency (PFE) against 0.3 µm size, which are imperative in order to facilitate the right selection of PP-MB-NW fabric for the development of mask. In present study, eight different kinds of PP-MB-NW fabrics (Sample A–H) of varied structural morphology are chosen. The different PP-MB-NW were characterized for its pore size and distribution by mercury porosimeter and BET surface area analyzer was explored first time to understand the importance of blind pore in PFE. The PP-MB-NW samples were characterized using scanning electron microscopy so as to know the surface morphology. The filtration efficiency, pressure drop and breathing resistance of various PP-MB-NW fabric samples are investigated in single and double layers combination against the particle size of 0.3, 0.5 and 1 µm. The samples which are having low pore dia, high solid fraction volume, and low air permeability has high filtration efficiency (> 90%) against 0.3 µm particle with high pressure drop (16.3–21.3 mm WC) and breathing resistance (1.42–1.92 mbar) when compared to rest of the samples. This study will pave the way for the judicial selection of right kind of filter layer i.e., PP-MB-NW fabric for the development of mask and it will be greatly helpful in manufacturing of mask in this present pandemic with desired PFE indicating considerable promise for defense against respiratory pandemic.https://doi.org/10.1038/s41598-021-89503-x
collection DOAJ
language English
format Article
sources DOAJ
author Lokesh K. Pandey
Virendra V. Singh
Pushpendra K. Sharma
Damayanti Meher
Utpal Biswas
Manisha Sathe
Kumaran Ganesan
Vikas B. Thakare
Kavita Agarwal
spellingShingle Lokesh K. Pandey
Virendra V. Singh
Pushpendra K. Sharma
Damayanti Meher
Utpal Biswas
Manisha Sathe
Kumaran Ganesan
Vikas B. Thakare
Kavita Agarwal
Screening of core filter layer for the development of respiratory mask to combat COVID-19
Scientific Reports
author_facet Lokesh K. Pandey
Virendra V. Singh
Pushpendra K. Sharma
Damayanti Meher
Utpal Biswas
Manisha Sathe
Kumaran Ganesan
Vikas B. Thakare
Kavita Agarwal
author_sort Lokesh K. Pandey
title Screening of core filter layer for the development of respiratory mask to combat COVID-19
title_short Screening of core filter layer for the development of respiratory mask to combat COVID-19
title_full Screening of core filter layer for the development of respiratory mask to combat COVID-19
title_fullStr Screening of core filter layer for the development of respiratory mask to combat COVID-19
title_full_unstemmed Screening of core filter layer for the development of respiratory mask to combat COVID-19
title_sort screening of core filter layer for the development of respiratory mask to combat covid-19
publisher Nature Publishing Group
series Scientific Reports
issn 2045-2322
publishDate 2021-05-01
description Abstract The severe outbreak of respiratory coronavirus disease 2019 has increased the significant demand of respiratory mask and its use become ubiquitous worldwide to control this unprecedented respiratory pandemic. The performance of a respiratory mask depends on the efficiency of the filter layer which is mostly made of polypropylene melt blown non-woven (PP-MB-NW). So far, very limited characterization data are available for the PPE-MB-NW in terms to achieve desired particulate filtration efficiency (PFE) against 0.3 µm size, which are imperative in order to facilitate the right selection of PP-MB-NW fabric for the development of mask. In present study, eight different kinds of PP-MB-NW fabrics (Sample A–H) of varied structural morphology are chosen. The different PP-MB-NW were characterized for its pore size and distribution by mercury porosimeter and BET surface area analyzer was explored first time to understand the importance of blind pore in PFE. The PP-MB-NW samples were characterized using scanning electron microscopy so as to know the surface morphology. The filtration efficiency, pressure drop and breathing resistance of various PP-MB-NW fabric samples are investigated in single and double layers combination against the particle size of 0.3, 0.5 and 1 µm. The samples which are having low pore dia, high solid fraction volume, and low air permeability has high filtration efficiency (> 90%) against 0.3 µm particle with high pressure drop (16.3–21.3 mm WC) and breathing resistance (1.42–1.92 mbar) when compared to rest of the samples. This study will pave the way for the judicial selection of right kind of filter layer i.e., PP-MB-NW fabric for the development of mask and it will be greatly helpful in manufacturing of mask in this present pandemic with desired PFE indicating considerable promise for defense against respiratory pandemic.
url https://doi.org/10.1038/s41598-021-89503-x
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