How to Reduce the Emission of Microorganisms from a Biofilter Used to Treat Waste Gas from a Food Industry Plant

How to Reduce the Emission of Microorganisms from a Biofilter Used to Treat Waste Gas from a Food Industry Plant

The aim of the study was to assess the bioaerosol removal efficiency by a semi-technical scale combined biofilter used to treat waste gas from a food industry plant. Two types of biofilter beds were tested: stumpwood chips and pine bark (CB) and stumpwood chips, pine bark and compost (CBC). Two type...

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Main Authors: Adam Muszyński, Agnieszka Tabernacka, Monika Załęska-Radziwiłł
Format: Article
Language:English
Published: MDPI AG 2021-05-01
Series:Atmosphere
Subjects:
bioaerosol emission
membranes
combined biofilter
Online Access:https://www.mdpi.com/2073-4433/12/6/673
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spelling doaj-3340243192ba4344a8923c42126ae8762021-06-01T01:02:12ZengMDPI AGAtmosphere2073-44332021-05-011267367310.3390/atmos12060673How to Reduce the Emission of Microorganisms from a Biofilter Used to Treat Waste Gas from a Food Industry PlantAdam Muszyński0Agnieszka Tabernacka1Monika Załęska-Radziwiłł2Faculty of Building Services, Hydro and Environmental Engineering, Warsaw University of Technology, Nowowiejska 20, 00-653 Warsaw, PolandFaculty of Building Services, Hydro and Environmental Engineering, Warsaw University of Technology, Nowowiejska 20, 00-653 Warsaw, PolandFaculty of Building Services, Hydro and Environmental Engineering, Warsaw University of Technology, Nowowiejska 20, 00-653 Warsaw, PolandThe aim of the study was to assess the bioaerosol removal efficiency by a semi-technical scale combined biofilter used to treat waste gas from a food industry plant. Two types of biofilter beds were tested: stumpwood chips and pine bark (CB) and stumpwood chips, pine bark and compost (CBC). Two types of membranes (covering the surface of the bed) were examined as the second stage of treatment: Pro Eko Tex UV (M1) and Pro Eko Tex UV 6 (M2). A conventional open biofilter (without membranes) was an emitter of microorganisms. There was no statistically significant difference between the number of bacteria emitted from CB or CBC beds, but fungal concentration was three times higher in gas treated by the CBC bed. The use of the membranes as the second stage of gas treatment significantly reduced the bacterial emission (74–78%) from the biofilter regardless of the bed and the membrane tested. The M1 membrane was also efficient in fungi removal from the treated gas by 80–97%. However, the M2 membrane could have been slowly colonized by fungi and have become an additional emitter of fungi in the system.https://www.mdpi.com/2073-4433/12/6/673bioaerosol emissionmembranescombined biofilter
collection DOAJ
language English
format Article
sources DOAJ
author Adam Muszyński
Agnieszka Tabernacka
Monika Załęska-Radziwiłł
spellingShingle Adam Muszyński
Agnieszka Tabernacka
Monika Załęska-Radziwiłł
How to Reduce the Emission of Microorganisms from a Biofilter Used to Treat Waste Gas from a Food Industry Plant
Atmosphere
bioaerosol emission
membranes
combined biofilter
author_facet Adam Muszyński
Agnieszka Tabernacka
Monika Załęska-Radziwiłł
author_sort Adam Muszyński
title How to Reduce the Emission of Microorganisms from a Biofilter Used to Treat Waste Gas from a Food Industry Plant
title_short How to Reduce the Emission of Microorganisms from a Biofilter Used to Treat Waste Gas from a Food Industry Plant
title_full How to Reduce the Emission of Microorganisms from a Biofilter Used to Treat Waste Gas from a Food Industry Plant
title_fullStr How to Reduce the Emission of Microorganisms from a Biofilter Used to Treat Waste Gas from a Food Industry Plant
title_full_unstemmed How to Reduce the Emission of Microorganisms from a Biofilter Used to Treat Waste Gas from a Food Industry Plant
title_sort how to reduce the emission of microorganisms from a biofilter used to treat waste gas from a food industry plant
publisher MDPI AG
series Atmosphere
issn 2073-4433
publishDate 2021-05-01
description The aim of the study was to assess the bioaerosol removal efficiency by a semi-technical scale combined biofilter used to treat waste gas from a food industry plant. Two types of biofilter beds were tested: stumpwood chips and pine bark (CB) and stumpwood chips, pine bark and compost (CBC). Two types of membranes (covering the surface of the bed) were examined as the second stage of treatment: Pro Eko Tex UV (M1) and Pro Eko Tex UV 6 (M2). A conventional open biofilter (without membranes) was an emitter of microorganisms. There was no statistically significant difference between the number of bacteria emitted from CB or CBC beds, but fungal concentration was three times higher in gas treated by the CBC bed. The use of the membranes as the second stage of gas treatment significantly reduced the bacterial emission (74–78%) from the biofilter regardless of the bed and the membrane tested. The M1 membrane was also efficient in fungi removal from the treated gas by 80–97%. However, the M2 membrane could have been slowly colonized by fungi and have become an additional emitter of fungi in the system.
topic bioaerosol emission
membranes
combined biofilter
url https://www.mdpi.com/2073-4433/12/6/673
work_keys_str_mv AT adammuszynski howtoreducetheemissionofmicroorganismsfromabiofilterusedtotreatwastegasfromafoodindustryplant
AT agnieszkatabernacka howtoreducetheemissionofmicroorganismsfromabiofilterusedtotreatwastegasfromafoodindustryplant
AT monikazałeskaradziwiłł howtoreducetheemissionofmicroorganismsfromabiofilterusedtotreatwastegasfromafoodindustryplant
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