RU2006100969A - METHOD FOR PRODUCING HIGH-QUALITY DRINKING WATER - Google Patents

Claims (1)

A method of obtaining high-quality drinking water, including multi-stage processes of its ozone treatment, filtration in a granular filter material and regeneration of a granular filter material, characterized in that the water is filtered in four stages, passing it through a polymer-sand granular material with a pore size of 50- 100 μm, in the second stage through a carbon granular material with a pore capacity of 0.5-1.0 cm ³ / g, in the third stage through a carbon granular material with a pore capacity of 0.05-0.5 cm ³ / g, fourth Tadia - through a disposable polymer material with a pore size of 1-2 μm, water ozone treatment is carried out in four stages, using the ejection ozone treatment of the initial water in the first stage with the unreacted part of the ozone-air mixture obtained after the second and third stages of ozone treatment, as well as the ozone treatment of polymer of a sandy granular material with an ozone-air-water mixture obtained after ejection ozone treatment of the source water, using the ejector and reactor-bubble ozone treatment ozone in the second stage -Air-water mixture obtained after the first step ozonoobrabotki, circulation processing ozone-air-water mixture obtained after the second-stage ejector ozonoobrabotki and ozonoobrabotku particulate carbon material with pore capacity of 0.5-1.0 cm ³ / g ozone the air-water mixture obtained after the second stage of ozone treatment, using the ejector and reactor-bubbler ozone treatment in the third stage of the ozone-air-water mixture obtained after the second stage of ozone treatment, the circulation treatment of ozone-air an ear-water mixture obtained after ejection ozone treatment of the third stage, as well as ozone treatment of a carbon granular material with a pore capacity of 0.05-0.5 cm ³ / g and a disposable polymer material with a pore size of 1-2 μm with an ozone-air-water mixture obtained after the third stage of ozone treatment, using the ejector ozone treatment of the ozone-air-water mixture obtained after the third stage of ozone treatment in the fourth stage, the regeneration of the granular filter material is carried out in three stages, using the first tadii backwash polymer sandy granular material ozone-air-water mixture obtained after the second step ozonoobrabotki using the second and third stages of the backwash particulate carbon material with a pore capacity of 0.5-1.0 cm ³ / g and a carbon particulate material with a pore capacity of 0.05-0.5 cm ³ / g of an ozone-air-water mixture obtained after the third stage of ozone treatment, and the duration of the circulation processes in the second and third stages of ozone treatment is controlled depending on the level the redox potential of the ozone-air-water mixture processed at these stages.