Tadqiqot tozalangan shahar oqava suvlaridan turli xil kolifaglarni ajratib oldi. Kolifaglar E.coli bakteriyalarini yuqtiruvchi viruslar bo'lib, ular dezinfeksiya ishlarida inson ichak viruslari uchun model sifatida ishlatilishi mumkin. Izolyatsiya qilingan kolifaglarning deyarli yarmi xlor yoki ultrabinafsha nurlanishiga juda chidamli edi va shuning uchun ham xlor ham, ultrabinafsha nurlanishi ham barcha kolifaglarga qarshi samarali bo'lmagan.
"This highlights the importance of a combined treatment," says Doctoral Student Alyaa Zyara, MSc, from the University of Eastern Finland, who presented the results in her doctoral dissertation.
Kolifaglar birinchi marta xlorning past konsentratsiyasida ({0}},1 yoki 0,5 mg Cl/L) 10 daqiqa davomida, keyin esa past UV nurlanishida (atigi 22 mVts/sm2) 99,9 foizdan ko‘prog‘iga ta’sir qilganda o'rganilgan barcha kolifaglar faolsizlandi. Biroq, davolanish tartibi teskari bo'lganda (birinchi ultrabinafsha nur, ikkinchidan xlor) dezinfeksiya samarasiz bo'ldi.
"It is more effective to first use a low dosage of chlorine followed by a low dosage of UV radiation than to use high chlorine or UV dosages alone. The order of treatment is also important: using UV radiation first and chlorine second was less effective. In other words, the combination treatment using chlorine first and UV second can be recommended as a disinfection method for viruses."
The study also tested novel UV-LED technology, as UV-LEDs are a new method for disinfecting drinking water. The study used UV-LEDs operating at a wavelength of 270 nm and with a 120 mW irradiation capacity, which haven't been used in disinfection studies before. As little as 2 minutes of this UV-LED treatment was enough to cause a 90-99.9 percent reduction in the coliphages tested in a 5.2-litre reactor. Irradiation time of 10 minutes in the same reactor increased the reductions to 99.99 -- 99.999 percent . A traditional mercury UV lamp at a 254 nm wavelength caused similar or slightly higher reductions in 2 or 10 minutes, but the water volume was only 10 millilitres.
"UV-LEDs are a promising method for disinfecting water, since they consume less energy than traditional mercury UV lamps. Furthermore, as UV-LEDs do not contain any mercury, they are safer for the environment."
The findings were originally reported in Journal of Water and Health, and Water.
