Abstract
Recently, the development of water disinfection technology that does not generate chemical residues or by-products has attracted much research interest. This study presents the results of Vibrio spp. disinfection using a combination treatment of micro-nano-bubbles (MNBs), ultrasound (US), and hydrogen peroxide (H2O2). The bactericidal performance of the combined treatment was conducted at various H2O2 dosages and airflow rates. The results show that with H2O2 added at ~30% of a normal dose (required for sufficient disinfection by H2O2 alone), disinfection efficiency of the combined MNBs/US/H2O2 treatment was greatly enhanced and was higher than that of individual treatments (US or H2O2). Specifically, under treatment conditions (initial bacterial density of 105-106 CFU/mL and salinity of 20‰), the combined treatment of MNBs (1.5 L/min)/US (28 kHz)/H2O2 (0.9 mg/L) achieved a synergy value of 3.3 log and completely inactivation (5.4 log reduction) of Vibrio spp. within 60 min. Meanwhile, disinfection with H2O2 (0.9 mg/L) led to only 1.7 log reduction, and disinfection with US (28 kHz, 100 W) reduced only 0.5 log within 60 min. These results promise an alternative method for brackish water disinfection applications such as aquaculture water treatment.
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