CONS IN THE WORK OF REVERSE OSMOSIS SYSTEMS
The remark that everything cannot be so good is true, what is the catch?
Reverse osmosis membranes during cleaning divide water into clean and dirty. We use purified, but dirty merges into the sewer. So, the ratio of dirty/purified water is about 60/40%, at a pressure in the line of 6 atm, it should be noted that at lower pressure these figures may differ, therefore membranes with increased performance that increase pumps for reverse osmosis filters are not only a necessity for it work, but also saving budget in water consumption. Many feel sorry for the water that is uselessly draining into the sewer. But let's figure it out. During the filtration of water with a reverse osmosis membrane, surprisingly many contaminants are completely removed from the water. If the membrane had not been self-cleaning by the drainage flow, then its service life would be only a few months, as with ordinary cartridges. Instead, osmotic membranes last up to 5 years! So this is more than the warranty filter life you say! So such a colossal service life was achieved precisely due to washing the reverse osmosis membrane with water leaving the sewer. Even with such dirty/purified water ratios, reverse osmosis systems are some of the most economical water filters. After all, if you calculate the amount of water that flows to the sewage system in monetary terms, then the costs are not significant at all. As for industrial reverse osmosis systems, they use dirty water for re-filtration in order to minimize losses. Industrial systems use a recirculation system to save water because they consume large volumes that are not comparable to those used at home. So such a colossal service life was achieved precisely due to washing the reverse osmosis membrane with water leaving the sewer. Even with such dirty/purified water ratios, reverse osmosis systems are some of the most economical water filters. After all, if you calculate the amount of water that flows to the sewage system in monetary terms, then the costs are not significant at all. As for industrial Ro plant, they use dirty water for re-filtration to minimize losses. Industrial systems use a recirculation system to save water because they consume large volumes that are not comparable to those used at home. So such a colossal service life was achieved precisely due to washing the reverse osmosis membrane with water leaving the sewer. Even with such dirty/purified water ratios, reverse osmosis systems are some of the most economical water filters. After all, if you calculate the amount of water that flows to the sewage system in monetary terms, then the costs are not significant at all. As for industrial reverse osmosis systems, they use dirty water for re-filtration to minimize losses. Industrial systems use a recirculation system to save water because they consume large volumes that are not comparable to those used at home. reverse osmosis systems are some of the most economical water filters. After all, if you calculate the amount of water that flows to the sewage system in monetary terms, then the costs are not significant at all. As for industrial reverse osmosis systems, they use dirty water for re-filtration in order to minimize losses. Industrial systems use a recirculation system to save water because they consume large volumes that are not comparable to those used at home. Industrial RO plant are some of the most economical water filters. After all, if you calculate the amount of water that flows to the sewage system in monetary terms, then the costs are not significant at all. As for industrial reverse osmosis systems, they use dirty water for re-filtration in order to minimize losses. Industrial systems use a recirculation system to save water because they consume large volumes that are not comparable to those used at home.
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