Residential air cleaners exploiting different technologies re commonly used today to remove air contaminants from indoor environments. Different methods have been developed in the USA and Europe to test their efficiency. The one used in the USA provides a more comprehensive view of indoor processes, because testing is performed in a large simulation chamber (28.5 m ), using anthropogenic emissions, such as cigarette smoke, to generate pollution. Testing rooms are also important to investigate new removal technologies, or to improve them. Since no such testing facilities exist in Italy, one of 12.4 m was built in which cigarette smoke, resuspended dust from agricultural soil and, for the first time, diesel exhaust emissions were used to generate indoor pollution. Performances were tested with two air cleaning systems, exploiting completely different removal technologies. Accurate values of decay rates of indoor pollutants were obtained using a suite of on-line and out-of-line monitors for the measurement of particulate matter, volatile organic compounds (VOCs) and some inorganic gases. Proton-transfer mass spectrometry (PTR-MS) provided an almost real-time detection of several VOCs and HS, at trace levels (0.01 ppbv). A method using a common in vitro bioassay was developed to assess the ability of air cleaners to remove indoor toxic substances.

A new testing facility to investigate the removal processes of indoor air contaminants with different cleaning technologies and to better assess and exploit their performances

Ciccioli P;Pallozzi E;Guerriero E;Iannelli MA;Donati E;Lilla L;Rinaldi C;Ciccioli P;Mabilia R
2022

Abstract

Residential air cleaners exploiting different technologies re commonly used today to remove air contaminants from indoor environments. Different methods have been developed in the USA and Europe to test their efficiency. The one used in the USA provides a more comprehensive view of indoor processes, because testing is performed in a large simulation chamber (28.5 m ), using anthropogenic emissions, such as cigarette smoke, to generate pollution. Testing rooms are also important to investigate new removal technologies, or to improve them. Since no such testing facilities exist in Italy, one of 12.4 m was built in which cigarette smoke, resuspended dust from agricultural soil and, for the first time, diesel exhaust emissions were used to generate indoor pollution. Performances were tested with two air cleaning systems, exploiting completely different removal technologies. Accurate values of decay rates of indoor pollutants were obtained using a suite of on-line and out-of-line monitors for the measurement of particulate matter, volatile organic compounds (VOCs) and some inorganic gases. Proton-transfer mass spectrometry (PTR-MS) provided an almost real-time detection of several VOCs and HS, at trace levels (0.01 ppbv). A method using a common in vitro bioassay was developed to assess the ability of air cleaners to remove indoor toxic substances.
2022
BIOLOGIA E BIOTECNOLOGIA AGRARIA
Istituto sull'Inquinamento Atmosferico - IIA
Istituto per i Sistemi Biologici - ISB (ex IMC)
Istituto di Ricerca sugli Ecosistemi Terrestri - IRET
Dipartimento di Scienze Bio-Agroalimentari - DISBA
Istituto per i Sistemi Agricoli e Forestali del Mediterraneo - ISAFOM
Istituto per la BioEconomia - IBE
Indoor pollution
residential air cleaners
testing facility
VOCs
particulate matter
inorganic gases
microbiological testing
diesel exhaust emission
cigarette smoke
resuspended agricultural soil
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/20.500.14243/445332
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