At 4.8 L h-1, there was close to 1 log difference between the ROS-neutralised and aerobic log inactivation results, suggesting that the aerobic data provide an apparent inactivation that overestimates the true value. For

other two flow rates (8.4 and 16.8 L h-1) the difference between the two sets of data were around 0.9 and 0.5 (with similar initial inoculam of 1.33 × 105 CFU mL -1 and final count of 9.40 × 103 and 1.75 × 104 CFU mL-1) respectively, indicating a reduction in the amount of sub-lethal injury at higher flow rates that is also coupled with a lower overall inactivation (Table 1). While previous studies of solar disinfection have demonstrated sub-lethal injury and ROS-sensitivity in batch culture with uncalatysed reactors, this is the first study to do so for buy Alpelisib the TFFBR continuous flow photocatalytic

system. On the other hand, at higher sunlight intensities (> 600 W m-2), the differences between the results based on aerobic counts and ROS-neutralised counts were negligible for all flow AG-014699 concentration rate conditions, demonstrating the strength of high sunlight to provide powerful inactivation, with no sign of sub-lethal injury. Sometimes, sunlight itself is not sufficient for water disinfection, due to the effectiveness of photoreactivation mechanisms in microorganisms [31]. A recent study has demonstrated the effectiveness of immobilised TiO2 reactors in inactivating bacteria to such an extent that their photoreactivation mechanisms are not able to repair the damage [19], indicating that fixed-bed TiO2 reactors increase the extent of damage to bacteria from the very beginning

of the process, whereas TiO2 slurry systems required longer irradiation times to cause an equivalent amount of cellular damage. In a slurry system, TiO2-related damage occurs at the cell membrane of bacteria; however, damage is distributed across the whole membrane, so membrane permeability effects are not always strong enough to cause irreversible inactivation in the early stages of the process. On the other hand, Protirelin in a fixed-bed reactor, while the free radicals generated may be lower in number, the damage can be concentrated on the cell membrane area, causing inactivation [19]. The result of the current study can be interpreted in similar approach, but with respect to sunlight intensity. Here it was observed that while low sunlight resulted in substantial sub-lethal injury, with results based on ROS-neutralised counts being far lower than for aerobic data, at higher light intensities, ROS neutralised data were similar to those based on aerobic counts. As the data at high sunlight intensities showed little evidence of sub-lethal injury, this demonstrates that the TFFBR system will be more efficient in full sunlight, where maximum inactivation is achieved.