« Previous Abstract"Diversity and complexity of mouse allergens in urine, house dust, and allergen extracts assessed with an immuno-allergomic approach"    Next AbstractActivity of peptidergic neurons in the amygdala during sexual behavior in the male rat »

Chemosphere

Title:		Evaluation of gas / solid photocatalytic performance for the removal of VOCs at ppb and sub-ppb levels
Author(s):		Minella M; Minero C;
Address:		"Department of Chemistry and Interdepartmental Centre Nanostructured Interfaces and Surfaces (NIS), University of Torino (UNITO), Via P. Giuria 5, Toino, 10125, Italy. Department of Chemistry and Interdepartmental Centre Nanostructured Interfaces and Surfaces (NIS), University of Torino (UNITO), Via P. Giuria 5, Toino, 10125, Italy. Electronic address: claudio.minero@unito.it"
Journal Title:		Chemosphere
Year:		2021
Volume:		20210116
Issue:
Page Number:		129636 -
DOI:		10.1016/j.chemosphere.2021.129636
ISSN/ISBN:		1879-1298 (Electronic) 0045-6535 (Linking)
Abstract:		"The performance of a photocatalytic device for VOC abatement was studied at typical environmental concentrations (C(0) at ppb and sub-ppb levels) using urban air in a Continuous-flow Stirred-Tank Reactor (CSTR). The photocatalytic performance was evaluated for 42 VOCs at ppb and sub-ppb concentrations and the photocatalytic kinetic constant for abatement k was measured for each specific compound. An overall value of k was also obtained for the sum of all quantified VOCs. The kinetic constant k allows to predict the time needed to abate the substrate down to the desired residual concentration and to define the correct sanitization protocol. The kinetic constant k depends on the effective concentration in accordance with the basic kinetic model already reported for the photocatalytic process. This model foresees the transformation rate of a substrate as a function of a bundle of microscopic kinetic constants, the concentration of the substrate at the surface and the adsorbed photon flux. From this model it was possible i) to correlate the k value with microscopic catalytic parameters and the VOC concentration; ii) to obtain useful suggestions for the standardization of test methods on gaseous pollutants. Clear indications were also obtained on the actual ability of photocatalytic devices to abate urban VOCs. Since many of them are quickly degradable and some fully halogenated hydrocarbons found in urban air are not, this research can also help to decide which organic compounds are suitable for standardization testing or to use a mixture of a majority of them"
Keywords:		*Air Pollutants/analysis Catalysis Gases Kinetics *Volatile Organic Compounds/analysis Air/solid interface Cstr Clean air delivery rate (CADR) Photocatalytic air cleaner Standardization Volatile organic compounds (VOC);
Notes:		"MedlineMinella, Marco Minero, Claudio eng England 2021/01/24 Chemosphere. 2021 Jun; 272:129636. doi: 10.1016/j.chemosphere.2021.129636. Epub 2021 Jan 16"