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Main Authors: Sipkens, Timothy A., Calderon, Ruth Perez, Green, Richard G., Oldershaw, Andrew, Smallwood, Gregory J.
Format: Preprint
Published: 2024
Subjects:
Online Access:https://arxiv.org/abs/2402.04044
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author Sipkens, Timothy A.
Calderon, Ruth Perez
Green, Richard G.
Oldershaw, Andrew
Smallwood, Gregory J.
author_facet Sipkens, Timothy A.
Calderon, Ruth Perez
Green, Richard G.
Oldershaw, Andrew
Smallwood, Gregory J.
contents This work presents the results of two interlaboratory comparisons of particle filtration efficiency measurements performed by a network of laboratories across Canada and Australia. Testing across multiple layers of a common verification material demonstrates a constant size-resolved quality factor when layering uncharged materials. Size-resolved filtration curves also match expectations, with increasingly size-dependent curves and a predictable increase in the PFE. Candidate reference materials with controlled material properties were also tested across multiple laboratories. Each set of materials sharing a common charge level show specific trends with the material basis weight. Respirators showed more consistency between the laboratories than the other filters. However, across a majority of the tests, dark uncertainties, which are otherwise unexplained variability between laboratories, are significant. This leaves room to improve the test method by developing improved verification procedures and additional reference materials.
format Preprint
id arxiv_https___arxiv_org_abs_2402_04044
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Interlaboratory comparison of particle filtration efficiency testing equipment
Sipkens, Timothy A.
Calderon, Ruth Perez
Green, Richard G.
Oldershaw, Andrew
Smallwood, Gregory J.
Medical Physics
Applied Physics
This work presents the results of two interlaboratory comparisons of particle filtration efficiency measurements performed by a network of laboratories across Canada and Australia. Testing across multiple layers of a common verification material demonstrates a constant size-resolved quality factor when layering uncharged materials. Size-resolved filtration curves also match expectations, with increasingly size-dependent curves and a predictable increase in the PFE. Candidate reference materials with controlled material properties were also tested across multiple laboratories. Each set of materials sharing a common charge level show specific trends with the material basis weight. Respirators showed more consistency between the laboratories than the other filters. However, across a majority of the tests, dark uncertainties, which are otherwise unexplained variability between laboratories, are significant. This leaves room to improve the test method by developing improved verification procedures and additional reference materials.
title Interlaboratory comparison of particle filtration efficiency testing equipment
topic Medical Physics
Applied Physics
url https://arxiv.org/abs/2402.04044