Use of dissolved ozone for controlling planktonic and sessile bacteria in industrial cooling systems |
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Authors: | M. R. Viera P. S. Guiamet M. F. L. de Mele H. A. Videla |
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Affiliation: | INIFTA, Department of Chemistry, Faculty of Pure Sciences, University of La Plata, 1900 La Plata, Argentina |
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Abstract: | Cooling water treatment requires effective, environmentally-safe biocides compatible with system operation. The unique combination of high biocidal activity during use with no toxic discharge, could render dissolved ozone a safe biocide for cooling water treatment. Planktonic and sessile cells of Pseudomonas fluorescens (a frequent microbial contaminant of industrial systems) were used in this work to assess the biocidal effectiveness of ozone. Dissolved ozone showed to be effective at concentrations between 0.1 and 0.3 ppm, to eliminate completely the levels of planktonic cells used in this paper (107–108 cell/ml) within a range of contact times between 10 and 30 min. However, ozone at 0.15 ppm was only able to diminish sessile cell population by two or three orders of magnitude. This minor biocidal effectiveness of ozone against bacterial biofilms is discussed in this paper, taking into account recent concepts on structure and dynamics of biofilms. Different metallic substrata were assayed to verify if there was any effect of metal nature on the biocidal action. Open circuit potentials vs. time experiments and potentiodynamic polarization curves were made for assessing the effect of dissolved ozone on the corrosion behavior of the metals tested. |
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Keywords: | Ozone Biocide Biofilms Biocorrosion Biofouling Cooling systems |
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