How much tap water can a 10g ozone generator treat?
How much sewage can a 10g/h ozone generator treat? The amount of ozone added is different for different water quality, and the amount of treatment is different. Calculation of ozone dosage of ozone generator for disinfection and sterilization in pure water. This article mentions the dosage of water quality in various industries.
For example, the dosage of ozone in tap water is 3-5g/m3, which is 3-5ppm.
By formula calculation, 10g ozone generator can process 2-5 cubic meters of water.
The ozone equipment used for tap water disinfection is called tap water ozone generator equipment. Ozone-treated tap water has no secondary pollution, no toxic by-products, and can be safely consumed.
Using the natural characteristics of ozone oxidation to completely decompose and remove the odor produced by the ammonia and organic pollutants in the decomposition, it destroys the molecular structure that produces the odor, and produces non-toxic and odorless substances. The ozone generator can be used for water sterilization, deodorization, decolorization and COD/BOD degradation of tap water, purified water, drinking water, mineral water, well water, surface water, secondary water supply, food factory production water, beverage factory water and other water quality. It can also be used for deep oxidation treatment such as sterilization, decolorization, deodorization, COD/BOD degradation, bleaching, etc.
Can tap water treated with an ozone generator be directly consumed?
Tap water treated with ozone needs to wait until the ozone has dissipated, and then boil the water before drinking.
Ozone tap water disinfection principle:
Once ozone is dissolved in water, the following two reactions will occur: one is direct oxidation, which is a slower and obviously selective reaction;
The other is to self-decompose into hydroxyl radicals under the induction of hydroxyl, hydrogen peroxide, organic matter, humic substances and high concentrations of hydroxide in water, and indirectly oxidize organic matter, microorganisms or ammonia, etc.
The latter reaction is relatively fast and non-selective, and additionally oxidizes bicarbonate to bicarbonate and carbonic acid. The latter of the two reactions is more intense and has stronger oxidizing power, and the self-decomposition rate of ozone depends largely on pH, temperature, UV value, ozone concentration, and other removable substances present in the water, which decompose The rate can be indirectly expressed by the amount of residual ozone.
Due to the strong buffering properties of bicarbonate and carbonates (especially carbonates), residual ozone at low pH and high buffering properties can be maintained for a longer time. The sterilization and disinfection effect of ozone can mainly oxidize the organic matter of microbial cells or destroy the chain structure of organisms and cause cell death. Therefore, ozone has a strong lethality to tenacious microorganisms such as viruses and spores.
Therefore, while ozone kills microorganisms, it can also oxidize various organic substances in water. Remove color, smell, taste and phenol from water.