Abstract This study is focused on bacterial control through the removal and attenuation of viability by means of a commercial electrostatic air cleaner inserted in the ductwork of a central heating and air-conditioning system. Adapting the system to include an electrostatic barrier resulted, on an average, in removal of 88% of the bacteria in the airflow. In addition, the ratio of viable to non-viable organisms, calculated on the basis of epifluorescence measurements, was changed appreciably by passage through the electrostatic filter. Evaluation of performance was followed by two different strategies of sampling-analysis: a plate count method and epifluorescence microscopy. The system overall was highly efficient in removing the bacteria, since those few that evaded the filter underwent attenuation of around 50% of their viability on passage through it. This work suggests a strong positive effect when an electrostatic barrier is inserted in a ventilation duct.

Bacteria Removal and Viability attenuation by means of Electrostatic Barrier / M., Dottori; Fava, Gabriele; Ruello, Maria Letizia. - In: INDOOR AND BUILT ENVIRONMENT. - ISSN 1420-326X. - VOL. 13:(2004), pp. 309-314.

Bacteria Removal and Viability attenuation by means of Electrostatic Barrier

FAVA, GABRIELE;RUELLO, Maria Letizia
2004-01-01

Abstract

Abstract This study is focused on bacterial control through the removal and attenuation of viability by means of a commercial electrostatic air cleaner inserted in the ductwork of a central heating and air-conditioning system. Adapting the system to include an electrostatic barrier resulted, on an average, in removal of 88% of the bacteria in the airflow. In addition, the ratio of viable to non-viable organisms, calculated on the basis of epifluorescence measurements, was changed appreciably by passage through the electrostatic filter. Evaluation of performance was followed by two different strategies of sampling-analysis: a plate count method and epifluorescence microscopy. The system overall was highly efficient in removing the bacteria, since those few that evaded the filter underwent attenuation of around 50% of their viability on passage through it. This work suggests a strong positive effect when an electrostatic barrier is inserted in a ventilation duct.
2004
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11566/53100
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